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CAPN1 (Calpain1)-Dependent Cleavage of STIM1 (Stromal Interaction Molecule 1) Results in an Enhanced SOCE (Store-Operated Calcium Entry) in Human Neonatal Platelets

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Background: Altered intracellular Ca2+ homeostasis in neonatal platelets has been previously reported. This study aims to examine the changes in the Ca2+ entry through the store-operated calcium entry (SOCE) mechanism… Click to show full abstract

Background: Altered intracellular Ca2+ homeostasis in neonatal platelets has been previously reported. This study aims to examine the changes in the Ca2+ entry through the store-operated calcium entry (SOCE) mechanism in neonatal platelets. Methods: Human platelets from either control women, mothers, and neonates were isolated and, following, were fixed after being treated as required. Platelet samples were analyzed by Western blotting, qRT-PCR, and MALDITOF/TOF. Ca2+ homeostasis was also determined. Culture cells were used as surrogated of platelets to overexpress the proteins of interest to reproduce the alterations observed in platelets. Results: Altered TG (thapsigargin)-evoked SOCE, alternative molecular weight form of STIM1 (stromal interaction molecule 1; s-STIM1 [short STIM1 isoform (478 aa)], around 60 kDa) and overexpression of SARAF (SOCE-associated regulatory factor) were found in neonatal platelets as compared to maternal and control women platelets. s-STIM1 may result due to CAPN1 (calpain1)-dependent processing, as confirmed in platelets and MEG01 cells by using calpeptin and overexpressing CAPN1, respectively. In HEK293 (STIM1 and STIM2 [stromal interaction molecule 2] double knockout) cells transfected either with c-STIM1 (canonical STIM1 [685 aa]), s-STIM1 (478), STIM1B (540), and CAPN1 overexpression plasmids, we found s-STIM1 and c-STIM1, except in cells overexpressing s-STIM1 (478) that lacked CAPN1 target residues. These results and the in silico analysis, lead us to conclude that STIM1 is cleaved at Q496 by CAPN1. Ca2+ imaging analysis and coimmunoprecipitation assay using MEG01 and HEK293 cells overexpressing SARAF together with s-STIM1 (478) reported a reduced slow Ca2+–dependent inactivation, so reproducing the Ca2+-homeostasis pattern observed in neonatal platelets. Conclusions: CAPN1 may cleave STIM1 in neonatal platelets, hence, impairing SARAF coupling after SOCE activation. s-STIM1 may avoid slow Ca2+–dependent inactivation and, subsequently, results in an enhanced TG-evoked SOCE as observed in neonatal platelets.

Keywords: capn1; stromal interaction; ca2; neonatal platelets; stim1; interaction molecule

Journal Title: Arteriosclerosis, Thrombosis, and Vascular Biology
Year Published: 2023

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