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1.
Mol Cell ; 81(5): 885-888, 2021 03 04.
Artigo em Inglês | MEDLINE | ID: mdl-33667376

RESUMO

As part of our commitment to amplifying the voices of underrepresented scientists, we are publishing the insights and experiences of a panel of underrepresented scientists. In this segment, we asked about support systems-the types of support that are most helpful (and less helpful), how to find a supportive network, and how institutions can better support underrepresented scientists. These are the personal opinions of the authors and may not reflect the views of their institutions.


Assuntos
Pesquisa Biomédica/ética , Grupos Minoritários/psicologia , Pesquisadores/psicologia , Adulto , Pesquisa Biomédica/organização & administração , Diversidade Cultural , Feminino , Humanos , Masculino , Relações Raciais/psicologia , Apoio Social , Estados Unidos
2.
Mol Cell ; 81(3): 414-417, 2021 02 04.
Artigo em Inglês | MEDLINE | ID: mdl-33545055

RESUMO

As part of our commitment to amplifying the voices of underrepresented scientists, we are publishing the insights and experiences of a panel of underrepresented scientists. In this piece, they discuss strategies to recruit underrepresented minority students to universities and careers in science. These are the personal opinions of the authors and may not reflect the views of their institutions.


Assuntos
Pesquisa Biomédica/educação , Escolha da Profissão , Diversidade Cultural , Grupos Minoritários/educação , Seleção de Pessoal , Pesquisadores , Estudantes , Relações Comunidade-Instituição , Humanos , Mentores , Grupo Associado
3.
Mol Cell ; 81(1): 1-5, 2021 01 07.
Artigo em Inglês | MEDLINE | ID: mdl-33417852

RESUMO

As part of our commitment to amplifying the voices of underrepresented scientists, we are publishing the insights and experiences of a panel of underrepresented scientists in a series of questions and answers. Here, they discuss ways that the scientific community can combat racial inequality and increase diversity. These are the personal opinions of the authors and may not reflect the views of their institutions.


Assuntos
Pesquisa Biomédica , Racismo , Humanos
4.
Mol Cell ; 81(2): 213-217, 2021 01 21.
Artigo em Inglês | MEDLINE | ID: mdl-33482088

RESUMO

As part of our commitment to amplifying the voices of underrepresented scientists, we are publishing the insights and experiences of a panel of underrepresented scientists. Here they tell us about behaviors that can lead underrepresented scientists to feel that they do not belong and what the scientific community can do to provide better support. These are the personal opinions of the authors and may not reflect the views of their institutions.


Assuntos
Pesquisa Biomédica/ética , Diversidade Cultural , Pesquisadores/psicologia , Adulto , Escolha da Profissão , Feminino , Humanos , Masculino
5.
Mol Cell ; 80(5): 752-757, 2020 12 03.
Artigo em Inglês | MEDLINE | ID: mdl-33275884

RESUMO

As part of our commitment to amplifying the voices of underrepresented scientists, we will be publishing the insights and experiences of a panel of underrepresented scientists. To kick off this series, they introduce themselves, tell us what sparked their interest in science, and describe their scientific journeys. These are the personal opinions of the authors and may not reflect the views of their institutions.


Assuntos
Pesquisa Biomédica , Escolha da Profissão , Humanos
6.
J Biol Chem ; 298(11): 102558, 2022 11.
Artigo em Inglês | MEDLINE | ID: mdl-36183835

RESUMO

Activated protein C (APC) is an important anticoagulant protein that regulates thrombin generation through inactivation of factor V (FV) and activated factor V (FVa). The rate of APC inactivation of FV is slower compared to FVa, although proteolysis occurs at the same sites (Arg306, Arg506, and Arg679). The molecular basis for FV resistance to APC is unknown. Further, there is no information about how FV-short, a physiologically relevant isoform of FV with a shortened B-domain, is regulated by APC. Here, we identify the molecular determinants which differentially regulate APC recognition of FV versus FVa and uncover how FV-short can be protected from this anticoagulant pathway. Using recombinant FV derivatives and B-domain fragments, we show that the conserved basic region (BR; 963-1008) within the central portion of the B-domain plays a major role in limiting APC cleavage at Arg506. Derivatives of FV lacking the BR, including FV-short, were subject to rapid cleavage at Arg506 and were inactivated like FVa. The addition of a FV-BR fragment reversed this effect and delayed APC inactivation. We also found that anticoagulant glycoprotein TFPIα, which has a C-terminal BR homologous to FV-BR, protects FV-short from APC inactivation by delaying cleavage at Arg506. We conclude that the FV-BR plays a major role in protecting FV from APC inactivation. Using a similar mechanistic strategy, TFPIα also shields FV-short from APC. These findings clarify the resistance of FV to APC, advance our understanding of FV/FVa regulation, and establish a mechanistic framework for manipulating this reaction to alter coagulation.


Assuntos
Fator V , Proteína C , Fator V/genética , Fator V/metabolismo , Proteína C/genética , Proteína C/metabolismo , Anticoagulantes , Peptídeo Hidrolases , Fator Va/genética , Fator Va/metabolismo , Trombina/metabolismo
7.
J Biol Chem ; 296: 100234, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-33376137

RESUMO

Coagulation factor V (FV) plays an anticoagulant role but serves as a procoagulant cofactor in the prothrombinase complex once activated to FVa. At the heart of these opposing effects is the proteolytic removal of its central B-domain, including conserved functional landmarks (basic region, BR; 963-1008 and acidic region 2, AR2; 1493-1537) that enforce the inactive FV procofactor state. Tissue factor pathway inhibitor α (TFPIα) has been associated with FV as well as FV-short, a physiologically relevant isoform with a shortened B-domain missing the BR. However, it is unclear which forms of FV are physiologic ligands for TFPIα. Here, we characterize the binding and regulation of FV and FV-short by TFPIα via its positively charged C-terminus (TFPIα-BR) and examine how bond cleavage in the B-domain influences these interactions. We show that FV-short is constitutively active and functions in prothrombinase like FVa. Unlike FVa, FV-short binds with high affinity (Kd ∼1 nM) to TFPIα-BR, which blocks procoagulant function unless FV-short is cleaved at Arg1545, removing AR2. Importantly, we do not observe FV binding (µM detection limit) to TFPIα. However, cleavage at Arg709 and Arg1018 displaces the FV BR, exposing AR2 and allowing TFPIα to bind via its BR. We conclude that for full-length FV, the detachment of FV BR from AR2 is necessary and sufficient for TFPIα binding and regulation. Our findings pinpoint key forms of FV, including FV-short, that act as physiologic ligands for TFPIα and establish a mechanistic framework for assessing the functional connection between these proteins.


Assuntos
Fator V/química , Fator Va/química , Lipoproteínas/química , Trombina/genética , Coagulação Sanguínea/genética , Fator V/genética , Fator Va/genética , Fator Xa/química , Fator Xa/genética , Humanos , Ligantes , Lipoproteínas/genética , Ligação Proteica/genética , Domínios Proteicos/genética , Proteólise/efeitos dos fármacos , Trombina/química , Tromboplastina/química , Tromboplastina/genética
9.
Blood Adv ; 8(6): 1550-1566, 2024 Mar 26.
Artigo em Inglês | MEDLINE | ID: mdl-38163324

RESUMO

ABSTRACT: Mechanisms of proteostasis in anucleate circulating platelets are unknown and may regulate platelet function. We investigated the hypothesis that plasma-borne growth factors/hormones (GFHs) maintain constitutive translation in circulating platelets to facilitate reactivity. Bio-orthogonal noncanonical amino acid tagging (BONCAT) coupled with liquid chromatography-tandem mass spectrometry analysis revealed constitutive translation of a broad-spectrum translatome in human platelets dependent upon plasma or GFH exposure, and in murine circulation. Freshly isolated platelets from plasma showed homeostatic activation of translation-initiation signaling pathways: phosphorylation of p38/ERK upstream kinases, essential intermediate MNK1/2, and effectors eIF4E/4E-BP1. Plasma starvation led to loss of pathway phosphorylation, but it was fully restored with 5-minute stimulation by plasma or GFHs. Cycloheximide or puromycin infusion suppressed ex vivo platelet GpIIb/IIIa activation and P-selectin exposure with low thrombin concentrations and low-to-saturating concentrations of adenosine 5'-diphosphate (ADP) or thromboxane analog but not convulxin. ADP-induced thromboxane generation was blunted by translation inhibition, and secondary-wave aggregation was inhibited in a thromboxane-dependent manner. Intravenously administered puromycin reduced injury-induced clot size in cremaster muscle arterioles, and delayed primary hemostasis after tail tip amputation but did not delay neither final hemostasis after subsequent rebleeds, nor final hemostasis after jugular vein puncture. In contrast, these mice were protected from injury-induced arterial thrombosis and thrombin-induced pulmonary thromboembolism (PE), and adoptive transfer of translation-inhibited platelets into untreated mice inhibited arterial thrombosis and PE. Thus, constitutive plasma GFH-driven translation regulates platelet G protein-coupled receptor reactivity to balance hemostasis and thrombotic potential.


Assuntos
Agregação Plaquetária , Trombose , Camundongos , Humanos , Animais , Trombina/metabolismo , Tromboxanos , Puromicina/efeitos adversos
10.
J Thromb Haemost ; 21(9): 2418-2429, 2023 09.
Artigo em Inglês | MEDLINE | ID: mdl-37268065

RESUMO

BACKGROUND: Piezo1 is a mechanosensitive cationic channel that boosts intracellular [Ca2+]i. Compression of red blood cells (RBCs) during platelet-driven contraction of blood clots may cause the activation of Piezo1. OBJECTIVES: To establish relationships between Piezo1 activity and blood clot contraction. METHODS: Effects of a Piezo1 agonist, Yoda1, and antagonist, GsMTx-4, on clot contraction in vitro were studied in human blood containing physiological [Ca2+]. Clot contraction was induced by exogenous thrombin. Activation of Piezo1 was assessed by Ca2+ influx in RBCs and with other functional and morphologic features. RESULTS: Piezo1 channels in compressed RBCs are activated naturally during blood clot contraction and induce an upsurge in the intracellular [Ca2+]i, followed by phosphatidylserine exposure. Adding the Piezo1 agonist Yoda1 to whole blood increased the extent of clot contraction due to Ca2+-dependent volumetric shrinkage of RBCs and increased platelet contractility due to their hyperactivation by the enhanced generation of endogenous thrombin on activated RBCs. Addition of rivaroxaban, the inhibitor of thrombin formation, or elimination of Ca2+ from the extracellular space abrogated the stimulating effect of Yoda1 on clot contraction. The Piezo1 antagonist, GsMTx-4, caused a decrease in the extent of clot contraction relative to the control both in whole blood and in platelet-rich plasma. Activated Piezo1 in compressed and deformed RBCs amplified the platelet contractility as a positive feedback mechanism during clot contraction. CONCLUSION: The results obtained demonstrate that the Piezo1 channel expressed on RBCs comprises a mechanochemical modulator of blood clotting that may be considered a potential therapeutic target to correct hemostatic disorders.


Assuntos
Canais Iônicos , Trombina , Trombose , Humanos , Plaquetas/metabolismo , Eritrócitos/metabolismo , Canais Iônicos/efeitos dos fármacos , Trombina/metabolismo
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