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1.
Platelets ; 35(1): 2337907, 2024 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-38602463

RESUMO

Protein S (PS) is a vital endogenous anticoagulant. It plays a crucial role in regulating coagulation by acting as a cofactor for the activated protein C (APC) and tissue factor pathway inhibitor (TFPI) pathways. Additionally, it possesses direct anticoagulant properties by impeding the intrinsic tenase and prothrombinase complexes. Protein S oversees the coagulation process in both the initiation and propagation stages through these roles. The significance of protein S in regulating blood clotting can be inferred from the significant correlation between deficits in protein S and an elevated susceptibility to venous thrombosis. This is likely because activated protein C and tissue factor pathway inhibitor exhibit low efficacy as anticoagulants when no cofactors exist. The precise biochemical mechanisms underlying the roles of protein S cofactors have yet to be fully elucidated. Nevertheless, recent scientific breakthroughs have significantly enhanced comprehension findings for these functions. The diagnosis of protein S deficiency, both from a technical and genetic standpoint, is still a subject of debate due to the complex structural characteristics of the condition. This paper will provide an in-depth review of the molecular structure of protein S and its hemostatic effects. Furthermore, we shall address the insufficiency of protein S and its methods of diagnosis and treatment.


What is the purpose of this summary? To provide an in-depth review of the molecular structure of protein S and its hemostatic effects.To address the deficiency of protein S and its methods of diagnosis and treatment.What is known? Protein S operates as an anticoagulant through its roles as a cofactor for APC, TFPI, and an inhibitor of FIXa.Protein S deficiency can be either inherited or acquired.What is new? Plasma protein S and platelet-derived protein S contribute to regulating coagulation and maintaining hemostasis. Protein S can be used as a potential promising treatment target for persons diagnosed with hemophilia.


Assuntos
Anticoagulantes , Hemostáticos , Humanos , Anticoagulantes/farmacologia , Anticoagulantes/uso terapêutico , Proteína C , Coagulação Sanguínea
2.
Blood ; 137(6): 830-843, 2021 02 11.
Artigo em Inglês | MEDLINE | ID: mdl-32822477

RESUMO

Connexins oligomerise to form hexameric hemichannels in the plasma membrane that can further dock together on adjacent cells to form gap junctions and facilitate intercellular trafficking of molecules. In this study, we report the expression and function of an orphan connexin, connexin-62 (Cx62), in human and mouse (Cx57, mouse homolog) platelets. A novel mimetic peptide (62Gap27) was developed to target the second extracellular loop of Cx62, and 3-dimensional structural models predicted its interference with gap junction and hemichannel function. The ability of 62Gap27 to regulate both gap junction and hemichannel-mediated intercellular communication was observed using fluorescence recovery after photobleaching analysis and flow cytometry. Cx62 inhibition by 62Gap27 suppressed a range of agonist-stimulated platelet functions and impaired thrombosis and hemostasis. This was associated with elevated protein kinase A-dependent signaling in a cyclic adenosine monophosphate-independent manner and was not observed in Cx57-deficient mouse platelets (in which the selectivity of 62Gap27 for this connexin was also confirmed). Notably, Cx62 hemichannels were observed to function independently of Cx37 and Cx40 hemichannels. Together, our data reveal a fundamental role for a hitherto uncharacterized connexin in regulating the function of circulating cells.


Assuntos
Plaquetas/metabolismo , Conexinas/fisiologia , Animais , Comunicação Celular/fisiologia , Linhagem Celular , Conexinas/sangue , Conexinas/química , Conexinas/deficiência , Conexinas/genética , Proteínas Quinases Dependentes de AMP Cíclico/metabolismo , Junções Comunicantes/fisiologia , Hemostasia/fisiologia , Humanos , Integrinas/sangue , Megacariócitos/metabolismo , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Transgênicos , Modelos Moleculares , Simulação de Acoplamento Molecular , Fragmentos de Peptídeos/síntese química , Fragmentos de Peptídeos/farmacologia , Adesividade Plaquetária , Agregação Plaquetária , Conformação Proteica , Multimerização Proteica , Relação Estrutura-Atividade , Trombose/sangue
3.
Res Pract Thromb Haemost ; 7(6): 102177, 2023 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-37767064

RESUMO

Background: Heat shock protein 47 (HSP47) is an intracellular chaperone protein with an indispensable role in collagen biosynthesis in collagen-secreting cells. This chaperone has also been shown to be released and present on the surface of platelets. The inhibition of HSP47 in human platelets or its ablation in mouse platelets reduces platelet function in response to collagen and the glycoprotein (GP) VI collagen receptor agonist CRP-XL. Objectives: In this study, we sought, through experiments, to explore cellular distribution, trafficking, and influence on GPVI interactions to understand how HSP47 modulates collagen receptor signaling. Methods: HSP47-deficient mouse platelets and SMIH- treated human platelets were used to study the role of HSP47 in collagen mediated responses and signaling. Results: Using subcellular fractionation analysis and immunofluorescence microscopy, HSP47 was found to be localized to the platelet-dense tubular system. Following platelet stimulation, HSP47 mobilization to the cell surface was shown to be dependent on actin polymerization, a feature common to other dense tubular system resident platelet proteins that are released to the cell surface during activation. In this location, HSP47 was found to contribute to platelet adhesion to collagen or CRP-XL but not to GFOGER peptide (an integrin α2ß1-binding sequence within collagens), indicating selective effects of HSP47 on GPVI function. Dimerization of GPVI on the platelet surface increases its affinity for collagen. GPVI dimerization was reduced following HSP47 inhibition, as was collagen and CRP-XL-mediated signaling. Conclusion: The present study identifies a role for cell surface-localized HSP47 in modulating platelet responses to collagen through dimerization of GPVI, thereby enhancing platelet signaling and activation.

4.
Sci Rep ; 9(1): 17210, 2019 11 20.
Artigo em Inglês | MEDLINE | ID: mdl-31748641

RESUMO

The pregnane X receptor (PXR) is a nuclear receptor (NR), involved in the detoxification of xenobiotic compounds. Recently, its presence was reported in the human vasculature and its ligands were proposed to exhibit anti-atherosclerotic effects. Since platelets contribute towards the development of atherosclerosis and possess numerous NRs, we investigated the expression of PXR in platelets along with the ability of its ligands to modulate platelet activation. The expression of PXR in human platelets was confirmed using immunoprecipitation analysis. Treatment with PXR ligands was found to inhibit platelet functions stimulated by a range of agonists, with platelet aggregation, granule secretion, adhesion and spreading on fibrinogen all attenuated along with a reduction in thrombus formation (both in vitro and in vivo). The effects of PXR ligands were observed in a species-specific manner, and the human-specific ligand, SR12813, was observed to attenuate thrombus formation in vivo in humanised PXR transgenic mice. PXR ligand-mediated inhibition of platelet function was found to be associated with the inhibition of Src-family kinases (SFKs). This study identifies acute, non-genomic regulatory effects of PXR ligands on platelet function and thrombus formation. In combination with the emerging anti-atherosclerotic properties of PXR ligands, these anti-thrombotic effects may provide additional cardio-protective benefits.


Assuntos
Plaquetas/fisiologia , Hemostasia , Ativação Plaquetária , Agregação Plaquetária , Receptor de Pregnano X/metabolismo , Trombose/patologia , Animais , Humanos , Ligantes , Camundongos , Receptores de Esteroides/metabolismo , Trombose/metabolismo , Quinases da Família src/metabolismo
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