Neutrophils are highly motile leukocytes that migrate inside tissues to destroy invading pathogens. Ca2+ signals coordinate leukocytes migration, but whether Ca2+ fluxes mediated by Stim proteins at ER-PM contact sites regulate neutrophil actin-based motility is unclear. Here, we show that myeloid-specific Stim1/2 ablation decreases basal cytosolic Ca2+ levels and prevents adhesion-induced Ca2+ elevations in mouse neutrophils, reducing actin fiber formation and impairing spreading. Unexpectedly, more ER-PM contact sites were detected on the actin-poor adhesive membranes of Stim1/2-deficient neutrophils, which had reduced inositol-1,4,5-trisphosphate receptor (IP3R) immunoreactivity on confocal and immunogold micrographs despite preserved IP3R levels on western blots. Remarkably, Stim1/2-deficient neutrophils regained signaling and spreading competence in Ca2+-rich solutions and were recruited more effectively in mouse inflamed cremaster muscles in vivo. Our findings indicate that Stim1/2 preserve IP3R functionality in neutrophils, generating adhesion-dependent Ca2+ signals that control actin dynamics during neutrophil spreading. Stim proteins thus maintain IP3R signaling competence at adhesive membranes, enabling Ca2+-dependent actin remodeling during spreading in mouse neutrophils.
STIM1/2 maintain signaling competence at ER-PM contact sites during neutrophil spreading.
STIM1/2 在中性粒细胞扩散过程中维持内质网-质膜接触位点的信号传导能力
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作者:Rabesahala de Meritens Camille, Carreras-Sureda Amado, Rosa Nicolas, Pick Robert, Scheiermann Christoph, Demaurex Nicolas
| 期刊: | Journal of Cell Biology | 影响因子: | 6.400 |
| 时间: | 2025 | 起止号: | 2025 May 5; 224(5):e202406053 |
| doi: | 10.1083/jcb.202406053 | 研究方向: | 细胞生物学 |
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