Taspase1/肌球蛋白1f轴调节丝状伪足动力学。

The Taspase1/Myosin1f-axis regulates filopodia dynamics.

作者信息

Hensel Astrid, Stahl Paul, Moews Lisa, König Lena, Patwardhan Rutuja, Höing Alexander, Schulze Nina, Nalbant Perihan, Stauber Roland H, Knauer Shirley K

机构信息

Department of Molecular Biology II, Center of Medical Biotechnology (ZMB), University Duisburg-Essen, 45141 Essen, Germany.

Department of Molecular Cell Biology, Center of Medical Biotechnology (ZMB), University Duisburg-Essen, 45141 Essen, Germany.

出版信息

iScience. 2022 May 5;25(6):104355. doi: 10.1016/j.isci.2022.104355. eCollection 2022 Jun 17.

DOI:10.1016/j.isci.2022.104355

PMID:35601920

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9121324/

Abstract

The unique threonine protease Tasp1 impacts not only ordered development and cell proliferation but also pathologies. However, its substrates and the underlying molecular mechanisms remain poorly understood. We demonstrate that the unconventional Myo1f is a Tasp1 substrate and unravel the physiological relevance of this proteolysis. We classify Myo1f as a nucleo-cytoplasmic shuttle protein, allowing its unhindered processing by nuclear Tasp1 and an association with chromatin. Moreover, we show that Myo1f induces filopodia resulting in increased cellular adhesion and migration. Importantly, filopodia formation was antagonized by Tasp1-mediated proteolysis, supported by an inverse correlation between Myo1f concentration and Tasp1 expression level. The Tasp1/Myo1f-axis might be relevant in human hematopoiesis as reduced Tasp1 expression coincided with increased Myo1f concentrations and filopodia in macrophages compared to monocytes and vice versa. In sum, we discovered Tasp1-mediated proteolysis of Myo1f as a mechanism to fine-tune filopodia formation, inter alia relevant for cells of the immune system.

摘要

独特的苏氨酸蛋白酶Tasp1不仅影响有序发育和细胞增殖，还影响病理状况。然而，其底物和潜在的分子机制仍知之甚少。我们证明非常规的肌球蛋白1f（Myo1f）是Tasp1的底物，并揭示了这种蛋白水解作用的生理相关性。我们将Myo1f归类为一种核质穿梭蛋白，使其能够被核内的Tasp1顺利加工，并与染色质结合。此外，我们表明Myo1f可诱导丝状伪足形成，从而增加细胞黏附和迁移。重要的是，Tasp1介导的蛋白水解作用拮抗了丝状伪足的形成，这得到了Myo1f浓度与Tasp1表达水平之间负相关关系的支持。与单核细胞相比，巨噬细胞中Tasp1表达降低与Myo1f浓度和丝状伪足增加同时出现，Tasp1/Myo1f轴可能与人类造血过程相关，反之亦然。总之，我们发现Tasp1介导的Myo1f蛋白水解是一种微调丝状伪足形成的机制，尤其与免疫系统细胞相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d23c/9121324/6473de7eb942/fx1.jpg

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Taspase1/肌球蛋白1f轴调节丝状伪足动力学。

The Taspase1/Myosin1f-axis regulates filopodia dynamics.

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