Anjanayaki E. Annamalai scite author profile

Biology of human megakaryocyte factor V

Gewirtz¹,

Keefer²,

Doshi³

et al. 1986

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To learn more about human megakaryocyte coagulation cofactor V (FV), we studied the expression of this protein in normal bone marrow megakaryocytes and in megakaryocytes cloned from their colony-forming unit in FV-depleted plasma clot cultures. Mouse monoclonal antibodies directed against either the light chain or an activation peptide of human FV and a rabbit polyclonal, monospecific FV antiserum were used as probes for these experiments in conjunction with a variety of immunochemical detection techniques. All morphologically recognizable megakaryocytes were shown to contain FV. The origin of this protein appeared to be both from FV bound to the cell as well as from endogenous FV in the majority of cells examined. The existence of a population of small bone marrow mononuclear cells that simultaneously expressed platelet glycoproteins and FV was also noted. Such cells represented approximately 70% of all small cells positive for platelet glycoproteins. In contrast, only about 40% of megakaryocyte colonies cloned in FV-deficient medium contained cells with immunochemically detectable FV. FV expression was most clearly demonstrated in large cells in the colonies, whereas smaller, presumably less mature cells labeled weakly or not at all. Synthesis of FV by human megakaryocytes was documented using elutriation-enriched cells incubated in 35S- methionine-containing medium. Megakaryocyte lysates and medium conditioned by these cells were subjected to immunoaffinity column purification. Column eluates analyzed by sodium dodecyl sulfate- polyacrylamide gel electrophoresis and autoradiography revealed radioactive bands comigrating with the heavy and light chains of thrombin-activated FV. These studies suggest that human megakaryocytes both bind and synthesize FV. Expression of these traits appears to be related to cell maturation, with binding ability appearing earlier than the ability to synthesize this protein. Finally, although the ability to bind FV appears to be universal among megakaryocytes, our culture data suggest that synthesis may be a restricted, or constitutively expressed property of these cells.

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Reaction of the adenine nucleotide analogue 5'-p-fluorosulfonylbenzoyl adenosine at distinct tyrosine and cysteine residues of rabbit muscle pyruvate kinase.

Annamalai¹,

Colman²

1981

Journal of Biological Chemistry

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Factor V is activated and cleaved by platelet calpain: comparison with thrombin proteolysis

Bradford

¹

,

Annamalai

²

,

Doshi

³

et al. 1988

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Platelets are known to process human factor V during secretion and/or membrane binding. We studied the functional and structural changes produced in human factor V by purified human platelet calpain (calcium- activated thiol protease) and compared the alterations with those induced by thrombin. A maximum increase in coagulant activity of 2.5- fold was observed when factor V (1 U/mL, 33 nmol/L) was incubated with calpain (0.03 U/mL, 2.7 nmol/L) in comparison with a 8.8-fold increment for alpha-thrombin (0.7 U/mL, 8 nmol/L) at 25 degrees C. Thrombin additions to reactions initiated by calpain resulted in further activation comparable to that of thrombin alone, whereas the subsequent addition of calpain had no effect on the extent or pattern of the activation of factor V by thrombin. The cleavage pattern of factor V produced by these two enzymes are distinctly different. Although thrombin activation eventually results in four final components designated C1 (150 kd), D (105 kd), E (71 kd), and F1F2 (71 to 74 kd), calpain yields initial components of 200 kd and 160 kd within one minute. Further digestion of the 200 kd species by calpain gives rise first to a polypeptide of 160 kd that is converted to a 140 kd and a 120 kd species by two minutes with an increase in coagulant activity. Immunoblotting of these fragments with the monoclonal antibody (MoAb) B10 directed to factor V and the thrombin-generated C1 fragment yields results demonstrating a common epitope in these calpain-generated components of 200, 160, 140 and 120 kd. The degradation of the initial 160 kd polypeptide gives rise to polypeptides of 100 and 65 kd, both undetectable on immunoblotting with MoAb B10. The 130, 87, 58, and 48 kd components are of less certain origin. Thus, platelet calpain generates a complex but reproducible cleavage pattern different from thrombin that may explain the partial activation observed. Nevertheless, calpain processing may play a role in early hemostatic reactions involving platelets before the appearance of the first thrombin molecule.

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Epitope mapping of functional domains of human factor Va with human and murine monoclonal antibodies. Evidence for the interaction of heavy chain with factor Xa and calcium

Annamalai

¹

,

Rao

²

,

Chiu

³

et al. 1987

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We have purified a unique neutralizing IgG1, kappa monoclonal antibody (MAb) against factor V (F-V) from a patient's plasma. This MAb (H2) demonstrated specificity for human F-V heavy chain (D), mol wt 105,000. Using an enzyme-linked immunosorbent assay (ELISA) we assessed the competitive binding to F-Va of H2, H1 (human MAb directed to light chain, F1F2), and two murine MAbs, B38 (to F1F2) and B10 (to activation peptide C1). All four antibodies are of high affinity with KD varying from 0.17 to 1.17 X 10(-10) mol/L. They recognized distinct epitopes in F-V. F-Xa competed in a concentration-dependent fashion for binding of H1, H2, and B38 but not B10 to F-V/Va in the absence of phospholipids or platelets. Thus both F1F2 and D polypeptides of F-Va but not C1 interacted with F-Xa. All MAbs bound to F-V/Va in the absence of Ca++. However, free Ca++ (0.1 to 4.0 mmol/L) increased the amount of H1 and H2 bound to factor V/Va, 1.65-fold and 3.65-fold, respectively but had little effect on the binding of either murine MAbs. Prothrombin (20 micrograms/mL to 400 micrograms/mL) in the absence of phospholipid did not inhibit the binding of MAbs. These studies provide evidence for the first time for a direct interaction between human F-Va heavy chain and F-Xa and Ca++ and for the direct binding of F-Xa to F-Va in the absence of phospholipids or platelets and enhance our understanding of functional F-V domains.

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Biology of human megakaryocyte factor V

Gewirtz

¹

,

Keefer

²

,

Doshi

³

et al. 1986

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To learn more about human megakaryocyte coagulation cofactor V (FV), we studied the expression of this protein in normal bone marrow megakaryocytes and in megakaryocytes cloned from their colony-forming unit in FV-depleted plasma clot cultures. Mouse monoclonal antibodies directed against either the light chain or an activation peptide of human FV and a rabbit polyclonal, monospecific FV antiserum were used as probes for these experiments in conjunction with a variety of immunochemical detection techniques. All morphologically recognizable megakaryocytes were shown to contain FV. The origin of this protein appeared to be both from FV bound to the cell as well as from endogenous FV in the majority of cells examined. The existence of a population of small bone marrow mononuclear cells that simultaneously expressed platelet glycoproteins and FV was also noted. Such cells represented approximately 70% of all small cells positive for platelet glycoproteins. In contrast, only about 40% of megakaryocyte colonies cloned in FV-deficient medium contained cells with immunochemically detectable FV. FV expression was most clearly demonstrated in large cells in the colonies, whereas smaller, presumably less mature cells labeled weakly or not at all. Synthesis of FV by human megakaryocytes was documented using elutriation-enriched cells incubated in 35S- methionine-containing medium. Megakaryocyte lysates and medium conditioned by these cells were subjected to immunoaffinity column purification. Column eluates analyzed by sodium dodecyl sulfate- polyacrylamide gel electrophoresis and autoradiography revealed radioactive bands comigrating with the heavy and light chains of thrombin-activated FV. These studies suggest that human megakaryocytes both bind and synthesize FV. Expression of these traits appears to be related to cell maturation, with binding ability appearing earlier than the ability to synthesize this protein. Finally, although the ability to bind FV appears to be universal among megakaryocytes, our culture data suggest that synthesis may be a restricted, or constitutively expressed property of these cells.

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