Autonomic neurocristopathy-associated mutations in PHOX2B dysregulate Sox10 expression
Mayumi Nagashimada, … , Teruhiko Wakayama, Hideki Enomoto
Mayumi Nagashimada, … , Teruhiko Wakayama, Hideki Enomoto
Published August 27, 2012
Citation Information: J Clin Invest. 2012;122(9):3145-3158. https://doi.org/10.1172/JCI63401.
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Research Article

Autonomic neurocristopathy-associated mutations in PHOX2B dysregulate Sox10 expression

Abstract

The most common forms of neurocristopathy in the autonomic nervous system are Hirschsprung disease (HSCR), resulting in congenital loss of enteric ganglia, and neuroblastoma (NB), childhood tumors originating from the sympathetic ganglia and adrenal medulla. The risk for these diseases dramatically increases in patients with congenital central hypoventilation syndrome (CCHS) harboring a nonpolyalanine repeat expansion mutation of the Paired-like homeobox 2b (PHOX2B) gene, but the molecular mechanism of pathogenesis remains unknown. We found that introducing nonpolyalanine repeat expansion mutation of the PHOX2B into the mouse Phox2b locus recapitulates the clinical features of the CCHS associated with HSCR and NB. In mutant embryos, enteric and sympathetic ganglion progenitors showed sustained sex-determining region Y (SRY) box10 (Sox10) expression, with impaired proliferation and biased differentiation toward the glial lineage. Nonpolyalanine repeat expansion mutation of PHOX2B reduced transactivation of wild-type PHOX2B on its known target, dopamine β-hydroxylase (DBH), in a dominant-negative fashion. Moreover, the introduced mutation converted the transcriptional effect of PHOX2B on a Sox10 enhancer from repression to transactivation. Collectively, these data reveal that nonpolyalanine repeat expansion mutation of PHOX2B is both a dominant-negative and gain-of-function mutation. Our results also demonstrate that Sox10 regulation by PHOX2B is pivotal for the development and pathogenesis of the autonomic ganglia.

Authors

Mayumi Nagashimada, Hiroshi Ohta, Chong Li, Kazuki Nakao, Toshihiro Uesaka, Jean-François Brunet, Jeanne Amiel, Delphine Trochet, Teruhiko Wakayama, Hideki Enomoto

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Figure 5

Characterization of the sympathetic ganglion progenitors by a neurosphere method.

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Characterization of the sympathetic ganglion progenitors by a neurospher...
(A and B) Morphology and diameter of the primary neurospheres generated from dissociated sympathetic ganglia (E13.5). (C) A graph showing neurosphere-forming ability. The numbers of neurospheres generated from 5,000 cells is shown as frequency (%). (D) Representative images for Phox2b/Sox10 expression in neurosphere cells cultured on monolayer (passage 1). The vast majority of the NPARM PHOX2B mutant–derived neurosphere cells express both Phox2b and Sox10 (bottom panels). Note also that Phox2b+Sox10 cells are very few in the NPARM PHOX2B mutant–derived neurosphere cells (white arrows). (E) Immunocytochemical analysis of differentiating neurons (passage 1). TuJ1+ cells derived from NPARM PHOX2B neurosphere cells bear thick neurites and aberrantly express Sox10 (white arrows in bottom panels). Scale bars: 20 μm (E); 40 μm (D); 200 μm (A). Error bars indicate SD (n = 3). ***P < 0.001.