Depletion of calpain2 accelerates epithelial barrier establishment and reduces growth factor-induced cell scattering

IF 4.4 2区生物学 Q2 CELL BIOLOGY Cellular signalling Pub Date : 2024-07-10 DOI:10.1016/j.cellsig.2024.111295

Jan Rasl , Josef Caslavsky , Josipa Grusanovic , Vera Chvalova , Jan Kosla , Jiri Adamec , Tomas Grousl , Zuzana Klimova , Tomas Vomastek

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Abstract

Calpain2 is a conventional member of the non-lysosomal calpain protease family that has been shown to affect the dynamics of focal and cell-cell adhesions by proteolyzing the components of adhesion complexes. Here, we inactivated calpain2 using CRISPR/Cas9 in epithelial MDCK cells. We show that depletion of calpain2 has multiple effects on cell morphology and function. Calpain2-depleted cells develop epithelial shape, however, they cover a smaller area, and cell clusters are more compact. Inactivation of calpain2 enhanced restoration of transepithelial electrical resistance after calcium switch, decreased cell migration, and delayed cell scattering induced by HGF/SF. In addition, calpain2 depletion prevented morphological changes induced by ERK2 overexpression. Interestingly, proteolysis of several calpain2 targets, including E-cadherin, β-catenin, talin, FAK, and paxillin, was not discernibly affected by calpain2 depletion. Taken together, these data suggest that calpain2 regulates the stability of cell-cell and cell-substratum adhesions indirectly without affecting the proteolysis of these adhesion complexes.

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消耗钙蛋白酶2可加速上皮屏障的建立，并减少生长因子诱导的细胞分散。

钙蛋白酶2是非溶酶体钙蛋白酶家族的传统成员，已被证明能通过蛋白水解粘附复合物的成分来影响局灶粘附和细胞-细胞粘附的动态。在这里，我们在上皮 MDCK 细胞中使用 CRISPR/Cas9 使 calpain2 失活。我们发现，去除了钙蛋白酶2会对细胞形态和功能产生多重影响。去除了钙蛋白酶2的细胞具有上皮形状，但覆盖面积较小，细胞簇更加紧凑。钙蛋白酶2失活可增强钙转换后上皮细胞跨膜电阻的恢复，减少细胞迁移，并延缓HGF/SF诱导的细胞分散。此外，抑制钙蛋白酶2还能防止ERK2过表达引起的形态学变化。有趣的是，钙蛋白酶2靶标（包括E-cadherin、β-catenin、talin、FAK和paxillin）的蛋白水解并未受到钙蛋白酶2耗竭的明显影响。综上所述，这些数据表明钙蛋白酶2间接调节细胞-细胞和细胞-基底粘附的稳定性，而不影响这些粘附复合物的蛋白水解。

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来源期刊

Cellular signalling 生物-细胞生物学

CiteScore

8.40

自引率

0.00%

发文量

250

审稿时长

27 days

期刊介绍： Cellular Signalling publishes original research describing fundamental and clinical findings on the mechanisms, actions and structural components of cellular signalling systems in vitro and in vivo. Cellular Signalling aims at full length research papers defining signalling systems ranging from microorganisms to cells, tissues and higher organisms.