Stanley Schrier

All Publications

• The prognostic value of diagnosing concurrent multiple myeloma in immunoglobulin light chain amyloidosis BRITISH JOURNAL OF HAEMATOLOGY Dinner, S., Witteles, W., Witteles, R., Lam, A., Arai, S., Lafayette, R., George, T. I., Schrier, S. L., Liedtke, M. 2013; 161 (3): 367-372

  Abstract

  The prevalence and prognostic value of a concomitant diagnosis of symptomatic or asymptomatic multiple myeloma (MM), as defined by the current International Myeloma Working Group (IMWG) criteria, in patients with immunoglobulin light chain amyloidosis (AL), are unknown. We studied 46 consecutive patients with AL who underwent quantification of serum M-protein and clonal bone marrow plasma cells, as well as a comprehensive evaluation for end organ damage by MM. Using standard morphology and CD138 immunohistochemical staining, 57% and 80% of patients were found to have concomitant MM, respectively. Nine patients exhibited end organ damage consistent with a diagnosis of symptomatic MM. While overall survival was similar between AL patients with or without concurrent myeloma (1-year overall survival 68% vs. 87%; P = 0.27), a diagnosis of symptomatic myeloma was associated with inferior outcome (1-year overall survival 39% vs. 81%; P = 0.005). Quantification of bone marrow plasma cells by both standard morphology and CD138 immunohistochemistry identified a much higher prevalence of concurrent MM in patients with AL than previously reported. Evaluation of bone marrow plasma cell infiltration and presence of myeloma associated end organ damage could be clinically useful for prognostication of patients with AL.

  View details for DOI 10.1111/bjh.12269

  View details for PubMedID 23432783

• Hematopoietic stem cell and progenitor cell mechanisms in myelodysplastic syndromes PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA Pang, W. W., Pluvinage, J. V., Price, E. A., Sridhar, K., Arber, D. A., Greenberg, P. L., Schrier, S. L., Park, C. Y., Weissman, I. L. 2013; 110 (8): 3011-3016

  Abstract

  Myelodysplastic syndromes (MDS) are a group of disorders characterized by variable cytopenias and ineffective hematopoiesis. Hematopoietic stem cells (HSCs) and myeloid progenitors in MDS have not been extensively characterized. We transplanted purified human HSCs from MDS samples into immunodeficient mice and show that HSCs are the disease-initiating cells in MDS. We identify a recurrent loss of granulocyte-macrophage progenitors (GMPs) in the bone marrow of low risk MDS patients that can distinguish low risk MDS from clinical mimics, thus providing a simple diagnostic tool. The loss of GMPs is likely due to increased apoptosis and increased phagocytosis, the latter due to the up-regulation of cell surface calreticulin, a prophagocytic marker. Blocking calreticulin on low risk MDS myeloid progenitors rescues them from phagocytosis in vitro. However, in the high-risk refractory anemia with excess blasts (RAEB) stages of MDS, the GMP population is increased in frequency compared with normal, and myeloid progenitors evade phagocytosis due to up-regulation of CD47, an antiphagocytic marker. Blocking CD47 leads to the selective phagocytosis of this population. We propose that MDS HSCs compete with normal HSCs in the patients by increasing their frequency at the expense of normal hematopoiesis, that the loss of MDS myeloid progenitors by programmed cell death and programmed cell removal are, in part, responsible for the cytopenias, and that up-regulation of the "don't eat me" signal CD47 on MDS myeloid progenitors is an important transition step leading from low risk MDS to high risk MDS and, possibly, to acute myeloid leukemia.

  View details for DOI 10.1073/pnas.1222861110

  View details for Web of Science ID 000315954400082

  View details for PubMedID 23388639

  View details for PubMedCentralID PMC3581956

• What does the spleen see? Blood Schrier, S. L. 2012; 120 (2): 242-243

  Abstract

  In this issue of Blood, Safeukui et al have come to grips with an important issue in red blood cell (RBC) biology.1 Their study deals not only with the mechanism of RBC removal in diseases like hereditary spherocytosis (HS) and autoimmune hemolytic anemia, but also with RBC senescence.

  View details for DOI 10.1182/blood-2012-05-425991

  View details for PubMedID 22791773

• Anemia in the elderly CURRENT OPINION IN HEMATOLOGY Pang, W. W., Schrier, S. L. 2012; 19 (3): 133-140

  Abstract

  There have been several large-scale epidemiologic studies, including the National Health and Nutrition Examination Survey III (NHANES III), which have described the prevalence and impact of anemia in the elderly. The information derived has been critically important. However, given the large number of patients surveyed, these reports necessarily relied substantially on the laboratory-based screening evaluations. There are now two recent reports describing the cause of anemia in elderly outpatients, and although the numbers are smaller than the large scale surveys, they constitute comprehensive hematologic evaluations with therapeutic interventions and clinical follow-up. The purpose of this review is to compare these different analyses.There are distinct differences and similarities in the two types of studies, which are derived from patients seen in hematology clinics. Despite comprehensive hematologic evaluation, the puzzling entity of unexplained anemia of the elderly is confirmed and found to account for 30-46% of patients. NHANES III classified iron-deficiency anemia with other nutritional anemias, a classification that might be correct in the developing third world, but in North America and Western Europe, iron deficiency is more often caused by blood loss and the cause must be sought and dealt with. The myelodysplastic syndromes are an important cause of anemia in the elderly, with a prevalence of at least 4%.Large-scale screening studies of anemia in the elderly are of great importance, and when complemented by comprehensive hematologic evaluations, provide a more accurate picture of the clinical situation.

  View details for DOI 10.1097/MOH.0b013e3283522471

  View details for Web of Science ID 000302787700001

  View details for PubMedID 22495692

• Heart transplantation and cardiac amyloidosis: Approach to screening and novel management strategies JOURNAL OF HEART AND LUNG TRANSPLANTATION Varr, B. C., Liedtke, M., Arai, S., Lafayette, R. A., Schrier, S. L., Witteles, R. M. 2012; 31 (3): 325-331

  Abstract

  Limited data exist regarding screening methods and outcomes for orthotopic heart transplantation (OHT) in cardiac amyloidosis. As a result, uncertainty exists over the best approach to OHT for cardiac amyloidosis and for the timing of critical post-transplant therapies. This article reviews 6 patients who underwent OHT for cardiac amyloidosis at the Stanford University Amyloid Center from 2008 to present. All patients with light-chain amyloidosis received chemotherapy in the interval between OHT and autologous hematopoietic stem cell transplant. Five patients remain alive up to 25 months after OHT, without evidence of recurrent cardiac amyloid deposition. A novel strategy of OHT, followed by light-chain suppressive chemotherapy before autologous hematopoietic stem cell transplant, is feasible for patients with light-chain amyloidosis.

  View details for DOI 10.1016/j.healun.2011.09.010

  View details for Web of Science ID 000300806500015

  View details for PubMedID 22051505

• Human bone marrow hematopoietic stem cells are increased in frequency and myeloid-biased with age PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA Pang, W. W., Price, E. A., Sahoo, D., Beerman, I., Maloney, W. J., Rossi, D. J., Schrier, S. L., Weissman, I. L. 2011; 108 (50): 20012-20017

  Abstract

  In the human hematopoietic system, aging is associated with decreased bone marrow cellularity, decreased adaptive immune system function, and increased incidence of anemia and other hematological disorders and malignancies. Recent studies in mice suggest that changes within the hematopoietic stem cell (HSC) population during aging contribute significantly to the manifestation of these age-associated hematopoietic pathologies. Though the mouse HSC population has been shown to change both quantitatively and functionally with age, changes in the human HSC and progenitor cell populations during aging have been incompletely characterized. To elucidate the properties of an aged human hematopoietic system that may predispose to age-associated hematopoietic dysfunction, we evaluated immunophenotypic HSC and other hematopoietic progenitor populations from healthy, hematologically normal young and elderly human bone marrow samples. We found that aged immunophenotypic human HSC increase in frequency, are less quiescent, and exhibit myeloid-biased differentiation potential compared with young HSC. Gene expression profiling revealed that aged immunophenotypic human HSC transcriptionally up-regulate genes associated with cell cycle, myeloid lineage specification, and myeloid malignancies. These age-associated alterations in the frequency, developmental potential, and gene expression profile of human HSC are similar to those changes observed in mouse HSC, suggesting that hematopoietic aging is an evolutionarily conserved process.

  View details for DOI 10.1073/pnas.1116110108

  View details for Web of Science ID 000298034800040

  View details for PubMedID 22123971

• Anemia in older persons: Etiology and evaluation BLOOD CELLS MOLECULES AND DISEASES Price, E. A., Mehra, R., Holmes, T. H., Schrier, S. L. 2011; 46 (2): 159-165

  Abstract

  The aim of this study was to prospectively determine the etiology of anemia in a cohort of community-dwelling older outpatients with a comprehensive hematologic evaluation. Participants were men and women age 65 and older with anemia as defined by World Health Organization criteria recruited from outpatient hematology clinics at Stanford Hospital and Clinics (SHC) and Veterans Affairs Palo Alto Health Care System (VAPAHCS). Each participant underwent a history and physical examination, followed by a comprehensive hematologic evaluation, which in all participants included complete blood count, red cell indices, review of the blood smear, and assessment of vitamin B12, folate, iron status and renal function. Additional evaluation was obtained by clinical providers as per their discretion. 190 participants enrolled and completed the evaluation. Twelve percent of participants had iron deficiency anemia. Of those with iron deficiency in whom there was follow-up information, half normalized their hemoglobin in response to iron repletion, and half did not. Thirty-five percent of participants had unexplained anemia. Those with unexplained anemia had mildly increased inflammatory markers compared to non-anemic controls, and, at the lower hemoglobin ranges had relatively low erythropoietin levels. Sixteen percent of participants were categorized as being "suspicious for myelodysplastic syndrome." Thus, even with comprehensive hematologic evaluation, unexplained anemia is common in older anemic outpatients. Iron deficiency anemia is also common and can be difficult to diagnose, and frequently the anemia is not fully corrected with iron repletion.

  View details for DOI 10.1016/j.bcmd.2010.11.004

  View details for Web of Science ID 000287267100007

  View details for PubMedID 21208814

• To be old is to be inflamed? BLOOD Schrier, S. L. 2010; 115 (18): 3651-3652

  View details for Web of Science ID 000277335900005

  View details for PubMedID 20448117

• Unexplained aspects of anemia of inflammation. Advances in hematology Price, E. A., Schrier, S. L. 2010; 2010: 508739-?

  Abstract

  Anemia of inflammation (AI), also known as anemia of chronic inflammation or anemia of chronic disease was described over 50 years ago as anemia in association with clinically overt inflammatory disease, and the findings of low plasma iron, decreased bone marrow sideroblasts and increased reticuloendothelial iron. Pathogenic features underlying AI include a mild shortening of red cell survival, impaired erythropoietin production, blunted responsiveness of the marrow to erythropoietin, and impaired iron metabolism mediated by inflammatory cytokines and the iron regulatory peptide, hepcidin. Despite marked recent advances in understanding AI, gaps remain, including understanding of the pathogenesis of AI associated with "noninflammatory" or mildly inflammatory diseases, the challenge of excluding iron deficiency anemia in the context of concomitant inflammation, and understanding more precisely the contributory role of hepcidin in the development of AI in human inflammatory diseases.

  View details for DOI 10.1155/2010/508739

  View details for PubMedID 20368776

• Anemia in the elderly: Introduction SEMINARS IN HEMATOLOGY Price, E. A., Schrier, S. L. 2008; 45 (4): 207-209

  View details for DOI 10.1053/j.seminhematol.2008.07.001

  View details for Web of Science ID 000259584000001

  View details for PubMedID 18809089

• Lung cancer presenting with amegakaryocytic thrombocytopenia. Journal of clinical oncology Witteles, W. H., Schrier, S. L., Wakelee, H. A. 2008; 26 (7): 1171-1174

  View details for DOI 10.1200/JCO.2007.14.8106

  View details for PubMedID 18309955

• VEGF modulates erythropoiesis through regulation of adult hepatic erythropoietin synthesis NATURE MEDICINE Tam, B. Y., Wei, K., Rudge, J. S., Hoffman, J., Holash, J., Park, S., Yuan, J., Hefner, C., Chartier, C., Lee, J., Jiang, S., Niyak, N. R., Kuypers, F. A., Ma, L., Sundram, U., Wu, G., Garcia, J. A., Schrier, S. L., Maher, J. J., Johnson, R. S., Yancopoulos, G. D., Mulligan, R. C., Kuo, C. J. 2006; 12 (7): 793-800

  Abstract

  Vascular endothelial growth factor (VEGF) exerts crucial functions during pathological angiogenesis and normal physiology. We observed increased hematocrit (60-75%) after high-grade inhibition of VEGF by diverse methods, including adenoviral expression of soluble VEGF receptor (VEGFR) ectodomains, recombinant VEGF Trap protein and the VEGFR2-selective antibody DC101. Increased production of red blood cells (erythrocytosis) occurred in both mouse and primate models, and was associated with near-complete neutralization of VEGF corneal micropocket angiogenesis. High-grade inhibition of VEGF induced hepatic synthesis of erythropoietin (Epo, encoded by Epo) >40-fold through a HIF-1alpha-independent mechanism, in parallel with suppression of renal Epo mRNA. Studies using hepatocyte-specific deletion of the Vegfa gene and hepatocyte-endothelial cell cocultures indicated that blockade of VEGF induced hepatic Epo by interfering with homeostatic VEGFR2-dependent paracrine signaling involving interactions between hepatocytes and endothelial cells. These data indicate that VEGF is a previously unsuspected negative regulator of hepatic Epo synthesis and erythropoiesis and suggest that levels of Epo and erythrocytosis could represent noninvasive surrogate markers for stringent blockade of VEGF in vivo.

  View details for DOI 10.1038/nm1428

  View details for PubMedID 16799557

• New strategies in the treatment of the thalassemias ANNUAL REVIEW OF MEDICINE Schrier, S. L., Angelucci, E. 2005; 56: 157-171

  Abstract

  In addition to the severe beta thalassemias, hematologists have begun to recognize the more severe forms of alpha thalassemia, namely hemoglobin (Hb) H disease and Hb H/Hb Constant Spring, as well as the beta compound heterozygote, beta thalassemia/HbE. Clinically, variably severe anemia becomes apparent in the first year accompanied by occasionally massive expansion of erythropoiesis. The most anemic patients require regular red blood cell transfusions to avoid death from cardiac failure. However, the inevitable iron accumulation leads to dysfunction, primarily involving the heart, liver, and endocrine system; thus, regularly transfused patients require iron chelation. A major discovery was that allogeneic bone marrow (stem cell) transplantation in severely affected subjects with both alpha and beta thalassemia could result in cure. Current work deals with specific complications, such as iron overload and endocrine, cardiopulmonary, thrombophilic, and osteopenic problems. The thalassemias are likely to benefit in the future from specific gene therapy. There are also important advances in genetic counseling based on results of early fetal diagnosis.

  View details for Web of Science ID 000227504100010

  View details for PubMedID 15660507

• The HP1L1-PDIGFR alpha fusion tyrosine kinase in hypereosinophilic syndrome and chronic eosinophilic leukemia: implications for diagnosis, classification, and management BLOOD Gotlib, J., Cools, J., Malone, J. M., Schrier, S. L., Gilliland, D. G., Coutre, S. E. 2004; 103 (8): 2879-2891

  Abstract

  Idiopathic hypereosinophilic syndrome (HES) and chronic eosinophilic leukemia (CEL) comprise a spectrum of indolent to aggressive diseases characterized by unexplained, persistent hypereosinophilia. These disorders have eluded a unique molecular explanation, and therapy has primarily been oriented toward palliation of symptoms related to organ involvement. Recent reports indicate that HES and CEL are imatinib-responsive malignancies, with rapid and complete hematologic remissions observed at lower doses than used in chronic myelogenous leukemia (CML). These BCR-ABL-negative cases lack activating mutations or abnormal fusions involving other known target genes of imatinib, implicating a novel tyrosine kinase in their pathogenesis. A bedside-to-benchtop translational research effort led to the identification of a constitutively activated fusion tyrosine kinase on chromosome 4q12, derived from an interstitial deletion, that fuses the platelet-derived growth factor receptor-alpha gene (PDGFRA) to an uncharacterized human gene FIP1-like-1 (FIP1L1). However, not all HES and CEL patients respond to imatinib, suggesting disease heterogeneity. Furthermore, approximately 40% of responding patients lack the FIP1L1-PDGFRA fusion, suggesting genetic heterogeneity. This review examines the current state of knowledge of HES and CEL and the implications of the FIP1L1-PDGFRA discovery on their diagnosis, classification, and management.

  View details for DOI 10.1182/blood-2003-06-1824

  View details for Web of Science ID 000222163500012

  View details for PubMedID 15070659

• The role of oxidant injury in the pathophysiology of human thalassemias Meeting on Redox Metabolism in Malaria: From Genes to Drugs Schrier, S. L., Centis, F., Verneris, M., Ma, L., Angelucci, E. MANEY PUBLISHING. 2003: 241–45

  Abstract

  The anemia in beta-thalassemia major is caused by a combination of hemolysis and ineffective erythropoiesis, with the latter being more important. Studies of the underlying cause of the hemolysis have indicated that oxidant injury to circulating red blood cells (RBCs) was of critical importance, with evidence of oxidant damage to RBC membrane proteins 4.1 and band 3. Therefore, it seemed reasonable that oxidant damage to thalassemic erythroid precursors would cause their accelerated apoptosis and ineffective erythropoiesis. However, direct analysis showed that the apoptotic programs turned on in thalassemics were not those triggered by oxidative damage but were dependent on activation of FAS/FAS-Ligand interaction. Thus, destruction of thalassemic erythroid precursors may involve different mechanisms from those that cause RBC hemolysis.

  View details for DOI 10.1179/135100003225002835

  View details for Web of Science ID 000187735400004

  View details for PubMedID 14962357

• Pathophysiology of thalassemia CURRENT OPINION IN HEMATOLOGY Schrier, S. L. 2002; 9 (2): 123-126

  Abstract

  Despite discoveries concerning the molecular abnormalities that led to the thalassemic syndromes, it still is not known how accumulation of excess unmatched alpha-globin in beta thalassemia and beta-globin in alpha thalassemia leads to red blood cell hemolysis in the peripheral blood, and in the beta thalassemias particularly, premature destruction of erythroid precursors in marrow (ineffective erythropoiesis). Oxidant injury may cause hemolysis, but there is no evidence that it causes ineffective erythropoiesis. Hemoglobin E/beta thalassemia is now a worldwide clinical problem. The reasons underlying the heterogeneity and occasional severity of the syndrome remain obscure. Ineffective erythropoiesis now appears to be caused by accelerated apoptosis, in turn caused primarily by deposition of alpha-globin chains in erythroid precursors. However, it is not clear how alpha-globin deposition causes apoptosis. The author uses new observations on the control of erythropoiesis to provide a framework for studying the enhanced thalassemic erythroid apoptosis.

  View details for Web of Science ID 000174034100007

  View details for PubMedID 11844995

• Pathophysiology of the thalassemias the Albion Walter Hewlett Award presentation WESTERN JOURNAL OF MEDICINE Schrier, S. L. 1997; 167 (2): 82-89

  Abstract

  The Albion Walter Hewlett Award (named for Professor of Medicine and Chair of the Stanford Department of Medicine 1916-1925) recognizes a role model, accomplished in discovery of the biological sciences and at the same time a consummate and compassionate physician. In introductory remarks, Dr. Stanley L. Schrier, Professor of Medicine (Hematology), the tenth recipient of the Award, indicated that the person so identified is no longer a viable model in academic medicine. The loss of this sort of person is serious because this appropriately trained physician-investigator was uniquely positioned to study pathophysiology, defined as the processes by which disordered biology produces disease. He used his own studies on the clinical manifestations of the thalassemias to clarify what he meant by pathophysiology. Thus he and his colleagues first defined membrane material properties of alpha and beta thalassemic RBC membranes and the states of hydration of alpha and beta thalassemic RBC and found them to be strikingly divergent. The biochemical counterparts of these alterations proved to be the accumulation of the excess unmatched partially oxidized globin chains on the membrane skeleton. In vitro studies with chemical oxidants selectively oxidized alpha and beta globin chains which then attached to the RBC membrane skeleton and reproduced the membrane material properties characteristic of beta and alpha thalassemia respectively. Many of these alterations had occurred prior to the reticulocyte stage so that pursuit of pathophysiology shifted to studies of marrow erythroid precursors, and it was shown that in beta thalassemia major there was accelerated programmed cell death as well as defective assembly of the membrane skeleton.

  View details for Web of Science ID A1997XU74200003

  View details for PubMedID 9291745

• Improved perfusion with rt-PA and hirulog in a rabbit model of embolic stroke JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM Yenari, M. A., deCrespigny, A., Palmer, J. T., Roberts, S., Schrier, S. L., Albers, G. W., Moseley, M. E., Steinberg, G. K. 1997; 17 (4): 401-411

  Abstract

  We conducted a study using diffusion-weighted (DWI) and perfusion-weighted (PWI) magnetic resonance imaging (MRI) to evaluate the efficacy of thrombolysis in an embolic stroke model with recombinant tissue plasminogen activator (rt-PA) and hirulog, a novel direct-acting antithrombin. DWI can identify areas of ischemia minutes from stroke onset, while PWI identifies regions of impaired blood flow. Right internal carotid arteries of 36 rabbits were embolized using aged heterologous thrombi. Baseline DWI and PWI scans were obtained to confirm successful embolization. Four animals with no observable DWI lesion on the initial scan were excluded; therefore, a total of 32 animals were randomized to one of three treatment groups: rt-PA (n = 11), rt-PA plus hirulog (n = 11), or placebo (n = 10). Treatment was begun 1 h after stroke induction. Intravenous doses were as follows: rt-PA, 5 mg/kg over 0.5 h with 20% of the total dose given as a bolus; hirulog, 1 mg/kg bolus followed by 5 mg/kg over 1 h. MRI was performed at 2, 3, and 5 h following embolization. Six hours after embolization, brains were harvested, examined for hemorrhage, then prepared for histologic analysis. The rt-PA decreased fibrinogen levels by 73%, and hirulog prolonged the aPTT to four times the control value. Posttreatment areas of diffusion abnormality and perfusion delay were expressed as a ratio of baseline values. Significantly improved perfusion was seen in the rt-PA plus hirulog group compared with placebo (normalized ratios of the perfusion delay areas were as follows: placebo, 1.58, 0.47-3.59; rt-PA, 1.12, 0.04-3.95; rt-PA and hirulog, 0.40, 0.02-1.08; p < 0.05). Comparison of diffusion abnormality ratios measured at 5 h showed trends favoring reduced lesion size in both groups given rt-PA (normalized ratios of diffusion abnormality areas were as follows: placebo, 3.69, 0.39-15.71; rt-PA, 2.57, 0.74-5.00; rt-PA and hirulog, 1.95, 0.33-6.80; p = 0.32). Significant cerebral hemorrhage was observed in one placebo, two rt-PA, and three rt-PA plus hirulog treated animals. One fatal systemic hemorrhage was observed in each of the rt-PA groups. We conclude that rt-PA plus hirulog improves cerebral perfusion but does not necessarily reduce cerebral injury. DWI and PWI are useful methods for monitoring thrombolysis.

  View details for Web of Science ID A1997WW73800005

  View details for PubMedID 9143222

• The unusual pathobiology of hemoglobin constant spring red blood cells BLOOD Schrier, S. L., Bunyaratvej, A., KHUHAPINANT, A., Fucharoen, S., Aljurf, M., Snyder, L. M., Keifer, C. R., Ma, L., Mohandas, N. 1997; 89 (5): 1762-1769

  Abstract

  Hemoglobin Constant Spring (HbCS) is the most common nondeletional alpha-thalassemic mutation and is an important cause of HbH-like disease in Southeast Asia. HbCS variants have an almost normal mean cell volume (MCV) and the anemia is more severe when compared with other alpha-thalassemic variants. We explored the pathobiology of HbCS red blood cells (RBCs) because the underlying cause(s) of this MCV "normalizing" effect of HbCS and the more severe anemia are not fully explained. HbCS containing RBCs are distinctly overhydrated relative to deletional alpha-thalassemia variants, and the derangement of volume regulation and cell hydration occurs early in erythroid maturation and is fully expressed at the reticulocyte stage. Furthermore, the membrane rigidity and membrane mechanical stability of HbCS containing RBCs is increased when compared with HbH and alpha-thalassemia-1 trait RBCs. In seeking the cause(s) underlying these cellular alterations we analyzed membranes from HbCS and deletional alpha-thalassemic variants and found that in addition to oxidized beta-globin chains, oxidized alpha cs-globin chains are also associated with the membranes and their skeletons in HbCS containing RBCs. We propose that the membrane pathology of HbCS variants is caused by combination of the deleterious effects induced by membrane-bound oxidized alpha cs- and beta-globin chains. The membrane alterations induced by alpha cs chains are more akin to those induced by beta A-globin chains than those induced by the alpha A-globin chains that accumulate in the beta-thalassemias. Thus, each globin chain, alpha cs, alpha A, beta A, appears to produce its own form of membrane perturbation.

  View details for Web of Science ID A1997WK47700036

  View details for PubMedID 9057661

• Pathobiology of thalassemic erythrocytes. Current opinion in hematology Schrier, S. L. 1997; 4 (2): 75-78

  Abstract

  Although study of the thalassemias has focussed on possible cure or amelioration by genetic techniques, considerable progress has been made in understanding the underlying pathobiology of these diseases. Better control of childhood infectious diseases has led to a clearer understanding of the frequency and clinical severity of some of these disorders. The striking differences between alpha- and beta-thalassemia are now well documented and the role of oxidant attack in the pathobiology is becoming clearer. Some authors believe that severe beta-thalassemia induces a hypercoagulable state that could be partially caused by scrambling of the phospholipid bilayer of affected erythrocytes. There is growing appreciation that double heterozygosity for hemoglobin E/beta-thalassemia, while causing variable anemia, can produce a clinical condition as severe as Cooley's anemia (beta-thalassemia major). Anemia severity may be related to the extent of oxidant attack on the unstable hemoglobin E. Studies of the hemoglobin Constant Spring variants demonstrate the consequences of accumulating excess unmatched beta globin as well as the unique alpha CS. Studies on marrow erythroid precursors in the beta-thalassemias have already shown accelerated programmed cell death and abnormal assembly of membrane proteins. Such studies in the future will likely further delineate the underlying differences between alpha- and beta-thalassemias.

  View details for PubMedID 9107522

• THALASSEMIA - PATHOPHYSIOLOGY OF RED-CELL CHANGES ANNUAL REVIEW OF MEDICINE Schrier, S. L. 1994; 45: 211-218

  Abstract

  The thalassemias are extremely heterogeneous in terms of their clinical severity, and their underlying pathophysiology relates directly to the extent of accumulation of excess unmatched globin chains: alpha in beta thalassemia and beta in the alpha thalassemias. However, the accumulation of each separate globin chain affects red cell membrane material properties and the state of red cell hydration very differently. These observations presumably account for the varying extent of ineffective erythropoiesis and peripheral blood hemolysis in the major variants of thalassemia. The thalassemias are a worldwide group of inherited disorders of globin-chain synthesis that developed in multiple geographic regions, probably because they provided partial protection against malaria. In normal assembly of adult hemoglobin (HbA-alpha 2 beta 2), alpha and beta globin are synthesized by genes on different chromosomes, whereas heme is synthesized primarily on mitochondria. The synthesis of these chains is very tightly coordinated so that the ratio of alpha globin to beta globin (beta in this case including the beta-like globins delta and gamma) is normally 1 +/- 0.05. Furthermore, specific erythroid proteases are designed to attack and destroy excess alpha or beta globin chains, demonstrating the deleterious impact of the accumulation of excess unmatched globin chains. In beta thalassemia, production of beta globin decreases and excess alpha globin accumulates. In alpha thalassemia, on the other hand, this process occurs in reverse. Perhaps in these disorders more than any others, molecular biologists have documented the deletional and transcriptional events leading to diminished synthesis of specific classes of globin chains.(ABSTRACT TRUNCATED AT 250 WORDS)

  View details for Web of Science ID A1994NF16800018

  View details for PubMedID 8198378

• TRANSMEMBRANE REDISTRIBUTION OF PHOSPHOLIPIDS OF THE HUMAN RED-CELL MEMBRANE DURING HYPOTONIC HEMOLYSIS BIOCHIMICA ET BIOPHYSICA ACTA Schrier, S. L., Zachowski, A., Herve, P., Kader, J. C., Devaux, P. F. 1992; 1105 (1): 170-176

  Abstract

  The transmembrane distribution of spin-labeled phospholipids was measured in human erythrocytes before and after hypotonic hemolysis by electron paramagnetic resonance. With a first series of partially water soluble probes a complete randomization of phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine and sphingomyelin analogues was achieved when cells were resealed in the absence of Mg-ATP or when the aminophospholipid translocase was inhibited by vanadate or calcium. If the ghosts were resealed with Mg-ATP inside, the transmembrane asymmetry of the aminophospholipids was reestablished. With long chain insoluble spin-labeled lipids complete randomization was obtained with the phosphatidylcholine analogue but even in the presence of vanadate only a small percentage (approx. 15%) of the spin-labeled phosphatidylserine flopped to the outer monolayer and comparable percentage of the spin-labeled sphingomyelin flipped to the inner monolayer, indicating a hierarchy in the phospholipid redistribution for these water insoluble lipids during hemolysis. The mechanism by which a selective randomization takes place is not known. It may involve phosphatidylserine-protein interactions in the inner leaflet and sphingomyelin-cholesterol or sphingomyelin-sphingomyelin interaction in the outer leaflet.

  View details for Web of Science ID A1992HN13300021

  View details for PubMedID 1314669

• GLOBIN-CHAIN SPECIFICITY OF OXIDATION-INDUCED CHANGES IN RED-BLOOD-CELL MEMBRANE-PROPERTIES BLOOD Schrier, S. L., Mohandas, N. 1992; 79 (6): 1586-1592

  Abstract

  We have previously shown that excess unpaired alpha- and beta-globin chains in severe alpha- and beta-thalassemia interacting with the membrane skeleton induce different changes in membrane properties of red blood cells (RBCs) in these two phenotypes. We suggest that these differences in membrane material behavior may reflect the specificity of the membrane damage induced by alpha- and beta-globin chains. To further explore this hypothesis, we sought in vitro models that induce similar membrane alterations in normal RBCs. We found that treatment of normal RBCs with phenylhydrazine produced rigid and mechanically unstable membranes in conjunction with selective association of oxidized alpha-globin chains with the membrane skeleton, features characteristic of RBCs in severe beta-thalassemia. Methylhydrazine, in contrast, induced selective association of oxidized beta-globin chains with the membrane skeleton and produced rigid but hyperstable membranes, features that mimicked those of RBCs in severe alpha-thalassemia. These findings suggest that consequences of oxidation induced by globin chains are quite specific in that those agents that cause alpha-globin chain accumulation at the membrane produce rigid but mechanically unstable membranes, whereas membrane accumulation of beta-globin chains results in rigid but mechanically stable membranes. These in vitro experiments lend further support to the hypothesis that membrane-associated alpha- and beta-chains induce oxidative damage to highly specific different skeletal components and that the specificity of this skeletal damage accounts for the differences in material membrane properties of these oxidatively attacked RBCs and perhaps of alpha- and beta-thalassemic RBCs as well.

  View details for Web of Science ID A1992HH74500029

  View details for PubMedID 1547347

• OXIDATIVE RED-BLOOD-CELL MEMBRANE INJURY IN THE PATHOPHYSIOLOGY OF SEVERE MOUSE BETA-THALASSEMIA BLOOD Advani, R., Rubin, E., Mohandas, N., Schrier, S. L. 1992; 79 (4): 1064-1067

  Abstract

  In severe human beta-thalassemia, the pathophysiology relates to accumulation of excess alpha-globin chains at the membrane. One hypothesis is that membrane-associated alpha-globin by virtue of it's iron or hemichromes produces oxidation of adjacent membrane proteins. The availability of a mouse model of severe beta-thalassemia, as well as a transgenic (thalassemic-sickle) mouse that expresses 12% of human beta s-chain, has allowed us to study the effect of graded accumulation of alpha-chains at the red blood cell (RBC) membrane on the clinical status of the animal and on the material properties of its RBCs. Proteins from control, beta-thalassemic, and transgenic mouse RBC membranes were analyzed for evidence of oxidation, as measured by thiol-disulfide exchange chromatography, which detects intramolecular sulfhydryl oxidation. Ratios of oxidized globin to protein 7 were calculated and increased amounts were seen in thalassemic mice as compared with control mice and transgenic mice. Furthermore, there were increased amounts of thiol-free protein 4.1 in the thalassemic mice, compared with very small amounts in the control mice and intermediate amounts in the transgenic mice. Membrane mechanical stability as assessed by ektacytometry showed that the thalassemic mouse RBCs were markedly unstable. Transgenic mouse RBCs showed intermediate levels of membrane instability compared with the controls. We propose that this oxidized globin, in conjunction with oxidized protein 4.1, accounts (at least in part) for membrane instability. A 12% increase in beta s-globin chain synthesis (by decreasing excess globin available) confers considerable protection against both oxidative damage and the consequent membrane instability.

  View details for Web of Science ID A1992HD66000032

  View details for PubMedID 1737090

• CHARACTERIZATION AND COMPARISON OF THE RED-BLOOD-CELL MEMBRANE DAMAGE IN SEVERE HUMAN ALPHA-THALASSEMIA AND BETA-THALASSEMIA BLOOD Advani, R., Sorenson, S., Shinar, E., LANDE, W., Rachmilewitz, E., Schrier, S. L. 1992; 79 (4): 1058-1063

  Abstract

  The aim of the present work was to understand the pathophysiology of the severe human thalassemias as represented by beta-thalassemia intermedia and hemoglobin (Hb) H (alpha-thalassemia) disease. We have previously shown that the material properties of the red blood cell (RBC) and its membrane differ in severe alpha- and beta-thalassemia, and we now show that this difference is probably caused by accumulation of alpha-globin chains at the cytoskeleton in beta-thalassemia, whereas beta-globin chains are associated with the cytoskeleton in alpha-thalassemia. In both alpha- and beta-thalassemia, some of these globin chains have become oxidized as evidenced by loss of the free thiols. Furthermore, there is similar evidence of oxidation of protein 4.1 in beta-thalassemia, whereas beta-spectrin appears to be subject to oxidation in alpha-thalassemia. These observations support the idea that the association of partly oxidized globin chains with the cytoskeleton results in oxidation of adjacent skeletal proteins. The abnormality of protein 4.1 in beta-thalassemia is consistent with a prior observation, and is also in accord with the known importance of protein 4.1 in maintenance of membrane stability, a property that is abnormal in beta-thalassemic membranes.

  View details for Web of Science ID A1992HD66000031

  View details for PubMedID 1737089

• MECHANISMS OF AMPHIPATH-INDUCED STOMATOCYTOSIS IN HUMAN ERYTHROCYTES BLOOD Schrier, S. L., Zachowski, A., Devaux, P. F. 1992; 79 (3): 782-786

  Abstract

  We studied stomatocytosis induced in human red blood cells (RBC) by vinblastine and chlorpromazine, monitoring the movements of spin-labeled phosphatidylcholine (PC*) and sphingomyelin (SM*) by electron spin resonance (ESR) spectroscopy. This technique allows determination of the fraction of labeled lipids, respectively, on the external leaflet, on the cytosol face, or trapped in endocytic vacuoles. Both vinblastine and chlorpromazine produce a time- and concentration-dependent stomatocytic shape change, which is paralleled by a shift of approximately 10% to 33% of outer leaflet SM* and PC* inward. Of this amount, 8% to 12% was trapped in endocytic vacuoles and 8% to 19% had flipped to the inner leaflet. Vanadate, while inhibiting the stomatocytosis, did not block the flip of either SM* or PC* to the inner leaflet. To explain the inhibiting effect of vanadate, as well as the adenosine triphosphate (ATP) requirement for drug-induced stomatocytosis, we propose the following model: (1) addition of amphipath partially scrambles the bilayer; and (2) the flop of phosphatidylserine (PS) and phosphatidylethanolamine (PE) to the outer leaflet provides substrate for the aminophospholipid translocase (APLT), which flips back PS and PE inward faster than PC or SM can diffuse outward--thereby producing inner layer expansion or stomatocytosis. This role of APLT accounts for the vanadate inhibition of amphipath stomatocytosis. However, the vanadate effect can be overcome by increasing the amphipath concentration, which at such levels probably passively expands the inner leaflet.

  View details for Web of Science ID A1992HB53300032

  View details for PubMedID 1732016

• MYOSIN CONTENT AND DISTRIBUTION IN HUMAN NEONATAL ERYTHROCYTES ARE DIFFERENT FROM ADULT ERYTHROCYTES BLOOD COLIN, F. C., Schrier, S. L. 1991; 78 (11): 3052-3055

  Abstract

  Neonatal erythrocytes (N-RBC) are different from adult erythrocytes (A-RBC). N-RBC are larger, less deformable, and undergo enhanced spontaneous and drug-induced endocytosis. The reticulocyte population of N-RBC is also different, consisting primarily of the youngest (R1) reticulocytes that are motile and capable of receptor-mediated endocytosis. Processes such as motility could require a contractile system. Myosin, a contractile protein, was identified in both A-RBC and N-RBC. We proposed to compare myosin content and distribution in A-RBC and N-RBC by immunofluorescence and enzyme-linked immunosorbent assay (ELISA) using a monospecific polyclonal rabbit antimyosin. There was bright immunofluorescence on 44% of N-RBC with some heterogeneity contrasting with a barely detectable fluorescence on A-RBC. ELISA measurements showed that A-RBC had 4,315 myosin copies/RBC, whereas N-RBC had 10,855 copies/RBC (or 2.5 times as much). ELISA measurements of white ghosts showed that A-ghosts contained 1,250 copies of myosin/RBC (29% of total) whereas N-ghosts contained 3.4 times as much at 4,320 copies/RBC (39% of total). Therefore, N-RBC not only have more myosin, but the amount that is membrane-associated is disproportionately increased. It is proposed that such differences in amount and distribution of myosin could account for some of the unusual properties of neonatal RBC indicated.

  View details for Web of Science ID A1991GR78100034

  View details for PubMedID 1954390

• SPONTANEOUS ENDOCYTOSIS IN HUMAN NEONATAL AND ADULT RED-BLOOD-CELLS - COMPARISON TO DRUG-INDUCED ENDOCYTOSIS AND TO RECEPTOR-MEDIATED ENDOCYTOSIS AMERICAN JOURNAL OF HEMATOLOGY COLIN, F. C., Schrier, S. L. 1991; 37 (1): 34-40

  Abstract

  Neonatal RBC contain many more spontaneous endocytic vacuoles than do adult RBC. It is not known if this difference is a result of an increase in production of vacuoles in the neonatal RBC (as is the case in drug-induced endocytosis), or is the result of a less effective neonatal macrophagic "pitting" process. Using an in vitro model of spontaneous endocytosis, we compared the rate and quantity of vacuoles and the shape of cord and adult RBC containing pits, visible by interference contrast microscopy (Nomarski method). The mechanism of the spontaneous endocytosis was explored using different inhibitors: sodium vanadate an inhibitor of ATPases, sodium fluoride which inhibits the generation of ATP and sodium cyanide a potent inhibitor of oxidative phosphorylation. We then compared spontaneous endocytosis with two other forms of RBC endocytosis: drug-induced endocytosis and receptor-mediated endocytosis. Spontaneous endocytosis is in fact increased in neonatal RBC initially but the increase in number of RBC containing pits after 144 hr of incubation is almost the same in adult RBC and neonatal RBC. Comparing spontaneous endocytosis with drug-induced endocytosis, it appears that their mechanisms are different in that spontaneous endocytosis is not preceded by stomatocytic shape change and is not inhibited by sodium vanadate or sodium fluoride as is the case for drug-induced endocytosis. Spontaneous endocytosis is different than transferrin receptor-mediated endocytosis because it occurs in many RBC, not only in the motile R1 reticulocytes and is not inhibited by sodium cyanide as is receptor-mediated endocytosis. Thus spontaneous endocytosis appears to be different than drug-induced endocytosis and transferrin receptor-mediated endocytosis. The increase in spontaneous endocytosis in cord RBC seen in vivo is probably a consequence of an immaturity of the neonatal macrophage pitting process.

  View details for Web of Science ID A1991FJ98900007

  View details for PubMedID 2024638

• CELLULAR AND MEMBRANE-PROPERTIES OF ALPHA-THALASSEMIC AND BETA-THALASSEMIC ERYTHROCYTES ARE DIFFERENT - IMPLICATION FOR DIFFERENCES IN CLINICAL MANIFESTATIONS BLOOD Schrier, S. L., Rachmilewitz, E., Mohandas, N. 1989; 74 (6): 2194-2202

  Abstract

  To define how excess unpaired alpha- and beta-globin chains in severe beta-thalassemia and severe alpha-thalassemia interacting with the membrane might alter cellular and membrane properties, we performed a series of biophysical and biochemical analyses on erythrocytes obtained from affected patients. Detailed analysis of cellular and membrane deformability characteristics showed that both forms of thalassemic erythrocytes have excess surface area in relation to cell volume and increased membrane dynamic rigidity. The deformability characteristics of thalassemic erythrocytes in hypertonic media differed significantly from that of normal erythrocytes of identical cell density. These findings suggest that dynamic rigidity of thalassemic erythrocytes is influenced not only by cytoplasmic viscosity determined by cell hemoglobin concentration but also by the extent and type of globin interacting with the membrane. In contrast to the above-noted similarities, major differences were noted in the mechanical stability of the alpha- and beta-thalassemic membranes and in their state of cell hydration. While the mechanical stability of alpha-thalassemic membranes was normal or marginally elevated, the stability of beta-thalassemic membranes was markedly decreased to half the normal value. Cell-density analysis showed that the alpha-thalassemic erythrocytes were uniformly less dense than normal, while beta-thalassemic erythrocytes had a broad-density distribution, with all populations having both lower and higher than normal density values, implying cellular dehydration in beta-thalassemia and not in alpha-thalassemia. Membrane-protein analysis revealed that excess globin chains were bound to the membrane skeletons of both alpha- and beta-thalassemic erythrocytes, with the highest amounts being found in membrane skeletons derived from erythrocytes of splenectomized individuals with beta-thalassemia intermedia. These data demonstrate that interaction of excess alpha- and beta-globin chains with membranes produces different cellular changes and suggest that the observed differences in the pathophysiology of alpha- and beta-thalassemias may be related to different cellular effects induced by the excess in beta- and alpha-globin chains.

  View details for Web of Science ID A1989AX04400050

  View details for PubMedID 2804358

• COMPARISON OF TRANSFERRIN RECEPTOR-MEDIATED ENDOCYTOSIS AND DRUG-INDUCED ENDOCYTOSIS IN HUMAN NEONATAL AND ADULT RBCS BLOOD Thatte, H. S., Schrier, S. L. 1988; 72 (5): 1693-1700

  Abstract

  Neonatal RBCs can undergo receptor-mediated endocytosis; normal adult RBCs cannot. Previously, we showed that drug-induced endocytosis, which can occur in adult RBCs exposed to amphipathic cations like primaquine, is greatly enhanced in all density-defined fractions of neonatal RBCs. To investigate the similarities and differences between receptor-mediated endocytosis and drug-induced endocytosis, we characterized transferrin receptor-mediated endocytosis in neonatal RBCs and compared it with drug-induced endocytosis. Primaquine drug-induced endocytosis is dependent on RBC ATP levels, is invariably preceded by stomatocytosis, and is inhibited by vanadate. In contrast, receptor-mediated endocytosis of transferrin is not preceded by stomatocytosis, is not nearly so dependent on ATP levels as is drug-induced endocytosis, and is not inhibited by vanadate. Furthermore, receptor-mediated endocytosis is quantitatively blocked by preincubation of neonatal RBCs with sodium cyanide, whereas cyanide does not inhibit drug-induced endocytosis in either adult or neonatal RBCs. Morphologic observation of the neonatal RBCs established the fact that only puckered RBCs that exhibited brilliant cresyl blue staining reticulum were capable of undergoing receptor-mediated endocytosis of transferrin. These characteristics identify them as motile R-1 reticulocytes. Reticulocytes in normal adult RBCs were incapable of exhibiting this phenomenon. Thus, receptor-mediated endocytosis, a property of motile reticulocytes in neonatal RBCs, differs from drug-induced endocytosis in its energy requirements, response to inhibitors, and morphologic concomitants.

  View details for Web of Science ID A1988Q745100039

  View details for PubMedID 3179445

• SHAPE CHANGES AND DEFORMABILITY IN HUMAN-ERYTHROCYTE MEMBRANES JOURNAL OF LABORATORY AND CLINICAL MEDICINE Schrier, S. L. 1987; 110 (6): 791-797

  Abstract

  To evaluate the membrane events that take place during red blood cell shape change, the deformability of resealed ghosts was studied in the ektacytometer while alterations in ghost shapes were produced. By studying ghosts in the ektacytometer it is possible to assess small changes in membrane dynamic rigidity free of the complicating factors that exist in intact red blood cells, such as concerns over the ratio of surface area to volume and the internal viscosity. Ghosts resealed in isotonic buffers are echinocytic, but addition of magnesium-adenosine triphosphate converts them to discocytes. This conversion to discocytosis was accompanied by an increase in membrane rigidity. Addition of vanadate along with magnesium-adenosine triphosphate blocked the conversion of echinocytic ghosts to discocytes, and in parallel blocked the accompanying increase in rigidity. Monospecific rabbit antispectrin antibody was resealed within ghosts and produced the anticipated increase in membrane rigidity. Morphologic evaluation revealed that such ghosts had changed from echinocytes to discocytes. Therefore two very different methods were used to convert normally echinocytic ghosts into discocytic ghosts, and in both cases the shape change was accompanied by an increase in ghost rigidity. These experiments indicate that in isotonically resealed ghosts, the discocytic shape is achieved as a consequence of membrane protein changes that produce an increase in membrane rigidity.

  View details for Web of Science ID A1987L268100017

  View details for PubMedID 3500247