The COPII cargo adapter SEC24C is essential for neuronal homeostasis
Bo Wang, … , David Ginsburg, Mondira Kundu
Bo Wang, … , David Ginsburg, Mondira Kundu
Published August 1, 2018; First published June 25, 2018
Citation Information: J Clin Invest. 2018;128(8):3319-3332. https://doi.org/10.1172/JCI98194.
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Categories: Research Article Development Neuroscience

The COPII cargo adapter SEC24C is essential for neuronal homeostasis

Abstract

SEC24 family members are components of the coat protein complex II (COPII) machinery that interact directly with cargo or with other adapters to ensure proper sorting of secretory cargo into COPII vesicles. SEC24C is 1 of 4 mammalian SEC24 paralogs (SEC24A–D), which segregate into 2 subfamilies on the basis of sequence homology (SEC24A/SEC24B and SEC24C/SEC24D). Here, we demonstrate that postmitotic neurons, unlike professional secretory cells in other tissues, are exquisitely sensitive to loss of SEC24C. Conditional KO of Sec24c in neural progenitors during embryogenesis caused perinatal mortality and microcephaly, with activation of the unfolded protein response and apoptotic cell death of postmitotic neurons in the murine cerebral cortex. The cell-autonomous function of SEC24C in postmitotic neurons was further highlighted by the loss of cell viability caused by disrupting Sec24c expression in forebrain neurons of mice postnatally and in differentiated neurons derived from human induced pluripotent stem cells. The neuronal cell death associated with Sec24c deficiency was rescued in knockin mice expressing Sec24d in place of Sec24c. These data suggest that SEC24C is a major cargo adapter for COPII-dependent transport in postmitotic neurons in developing and adult brains and that its functions overlap at least partially with those of SEC24D in mammals.

Authors

Bo Wang, Joung Hyuck Joo, Rebecca Mount, Brett J. W. Teubner, Alison Krenzer, Amber L. Ward, Viraj P. Ichhaporia, Elizabeth J. Adams, Rami Khoriaty, Samuel T. Peters, Shondra M. Pruett-Miller, Stanislav S. Zakharenko, David Ginsburg, Mondira Kundu

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Figure 1

CNS-specific deletion of Sec24c leads to microcephaly.

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CNS-specific deletion of Sec24c leads to microcephaly. (A) Representativ...
(A) Representative photographs of control and Sec24cNes-cKO mice at P0. (B) Representative images of dissected brains from control and Sec24cNes-cKO mice. (C) Brain weights (mean ± SEM) of Sec24cNes-cKO mice (n = 7) and control mice (n = 7) at P0. (D) Nissl staining of brain sections along the rostrocaudal axis in control and Sec24cNes-cKO mice at P0. (E) Sec24a, Sec24b, Sec24c, and Sec24d mRNA levels (mean ± SEM) in the cortices of Sec24cNes-cKO (n = 5) and control (n = 5) mice. (F) Immunoblot analyses of cortical and striatal extracts confirming the loss of SEC24C protein in Sec24cNes-cKO mice. n = 2 for each genotype. Scale bars: 1 cm (A), 200 μm (B), and 500 μm (D). cKO, conditional knockout; Ctx, cortex; Str, striatum; T, thalamus. *P < 0.05 and ***P < 0.001, by Student’s t test.