A novel 145 kd brain cytosolic protein reconstitutes Ca(2+)-regulated secretion in permeable neuroendocrine cells.
The regulated secretory pathway is activated by elevated cytoplasmic Ca2+; however, the components mediating Ca2+ regulation have not been identified. In semi-intact neuroendocrine cells, Ca(2+)-activated secretion is ATP- and cytosol protein-dependent. We have identified a novel brain protein, p145, as a cytosolic factor that reconstitutes Ca(2+)-activated secretion in two neuroendocrine ... cell types. The protein is a dimer of 145 kd subunits, exhibits Ca(2+)-dependent interaction with a hydrophobic matrix, and binds phospholipid vesicles, suggesting a membrane-associated function. A p145-specific antibody inhibits the reconstitution of Ca(2+)-activated secretion by cytosol, indicating an essential role for p145. The restricted expression of p145 in tissues exhibiting a regulated secretory pathway suggests a key role for this protein in the transduction of Ca2+ signals into vectorial membrane fusion events.
Mesh Terms:
Animals, Brain Chemistry, Calcium, Calcium-Binding Proteins, Cytosol, Exocytosis, Molecular Weight, Nerve Tissue Proteins, Norepinephrine, PC12 Cells, Rats
Animals, Brain Chemistry, Calcium, Calcium-Binding Proteins, Cytosol, Exocytosis, Molecular Weight, Nerve Tissue Proteins, Norepinephrine, PC12 Cells, Rats
Cell
Date: Sep. 04, 1992
PubMed ID: 1516133
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