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A single transcription factor is sufficient to induce and maintain secretory cell architecture.

Citation
Lo, H. -Y. G., et al. “A Single Transcription Factor Is Sufficient To Induce And Maintain Secretory Cell Architecture.”. Genes & Development, pp. 154-171.
Center Washington University in St Louis
Author Hei-Yong G Lo, Ramon U Jin, Greg Sibbel, Dengqun Liu, Anju Karki, Matthew S Joens, Blair B Madison, Bo Zhang, Valerie Blanc, James A J Fitzpatrick, Nicholas O Davidson, Stephen F Konieczny, Jason C Mills
Keywords 5330417C22Rik, FIB-SEM, RAB26, UFM1, acid secretion
Abstract

We hypothesized that basic helix-loop-helix (bHLH) MIST1 (BHLHA15) is a "scaling factor" that universally establishes secretory morphology in cells that perform regulated secretion. Here, we show that targeted deletion of MIST1 caused dismantling of the secretory apparatus of diverse exocrine cells. Parietal cells (PCs), whose function is to pump acid into the stomach, normally lack MIST1 and do not perform regulated secretion. Forced expression of MIST1 in PCs caused them to expand their apical cytoplasm, rearrange mitochondrial/lysosome trafficking, and generate large secretory granules. induced a cohort of genes regulated by MIST1 in multiple organs but did not affect PC function. MIST1 bound CATATG/CAGCTG E boxes in the first intron of genes that regulate autophagosome/lysosomal degradation, mitochondrial trafficking, and amino acid metabolism. Similar alterations in cell architecture and gene expression were also caused by ectopically inducing MIST1 in vivo in hepatocytes. Thus, MIST1 is a scaling factor necessary and sufficient by itself to induce and maintain secretory cell architecture. Our results indicate that, whereas mature cell types in each organ may have unique developmental origins, cells performing similar physiological functions throughout the body share similar transcription factor-mediated architectural "blueprints."

Year of Publication
2017
Journal
Genes & development
Volume
31
Issue
2
Number of Pages
154-171
Date Published
12/2017
ISSN Number
1549-5477
DOI
10.1101/gad.285684.116
Alternate Journal
Genes Dev.
PMID
28174210
PMCID
PMC5322730
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