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Merck

Calcium flow at ER-TGN contact sites facilitates secretory cargo export.

Molecular biology of the cell (2024-01-31)
Bulat R Ramazanov, Anup Parchure, Rosaria Di Martino, Abhishek Kumar, Minhwan Chung, Yeongho Kim, Oliver Griesbeck, Martin A Schwartz, Alberto Luini, Julia von Blume
RESUMEN

Ca2+ influx into the trans-Golgi Network (TGN) promotes secretory cargo sorting by the Ca2+-ATPase SPCA1 and the luminal Ca2+ binding protein Cab45. Cab45 oligomerizes upon local Ca2+ influx, and Cab45 oligomers sequester and separate soluble secretory cargo from the bulk flow of proteins in the TGN. However, how this Ca2+ flux into the lumen of the TGN is achieved remains mysterious, as the cytosol has a nanomolar steady-state Ca2+ concentration. The TGN forms membrane contact sites (MCS) with the Endoplasmic Reticulum (ER), allowing protein-mediated exchange of molecular species such as lipids. Here, we show that the TGN export of secretory proteins requires the integrity of ER-TGN MCS and inositol 3 phosphate receptor (IP3R)-dependent Ca2+ fluxes in the MCS, suggesting Ca2+ transfer between these organelles. Using an MCS-targeted Ca2+ FRET sensor module, we measure the Ca2+ flow in these sites in real time. These data show that ER-TGN MCS facilitates the Ca2+ transfer required for Ca2+-dependent cargo sorting and export from the TGN, thus solving a fundamental question in cell biology.

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Roche
Anti-GFP, from mouse IgG1κ (clones 7.1 and 13.1)
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2-APB, A cell-permeable modulator of Ins(1,4,5)P3-induced Ca2+ release.