Alanine Expansions Associated with Congenital Central Hypoventilation Syndrome Impair PHOX2B Homeodomain-mediated Dimerization and Nuclear Import

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2016 Apr 30

PMID 27129232

Citations 13

Authors

Simona Di Lascio

Debora Belperio

Roberta Benfante

Diego Fornasari

Affiliations

Soon will be listed here.

Abstract

Heterozygous mutations of the human PHOX2B gene, a key regulator of autonomic nervous system development, lead to congenital central hypoventilation syndrome (CCHS), a neurodevelopmental disorder characterized by a failure in the autonomic control of breathing. Polyalanine expansions in the 20-residues region of the C terminus of PHOX2B are the major mutations responsible for CCHS. Elongation of the alanine stretch in PHOX2B leads to a protein with altered DNA binding, transcriptional activity, and nuclear localization and the possible formation of cytoplasmic aggregates; furthermore, the findings of various studies support the idea that CCHS is not due to a pure loss of function mechanism but also involves a dominant negative effect and/or toxic gain of function for PHOX2B mutations. Because PHOX2B forms homodimers and heterodimers with its paralogue PHOX2A in vitro, we tested the hypothesis that the dominant negative effects of the mutated proteins are due to non-functional interactions with the wild-type protein or PHOX2A using a co-immunoprecipitation assay and the mammalian two-hybrid system. Our findings show that PHOX2B forms homodimers and heterodimerizes weakly with mutated proteins, exclude the direct involvement of the polyalanine tract in dimer formation, and indicate that mutated proteins retain partial ability to form heterodimers with PHOX2A. Moreover, in this study, we investigated the effects of the longest polyalanine expansions on the homeodomain-mediated nuclear import, and our data clearly show that the expanded C terminus interferes with this process. These results provide novel insights into the effects of the alanine tract expansion on PHOX2B folding and activity.

Citing Articles

Structural characterization of PHOX2B and its DNA interaction shed light on the molecular basis of the +7Ala variant pathogenicity in CCHS.

Diana D, Pirone L, Russo L, DAbrosca G, Madheswaran M, Benfante R Chem Sci. 2024; 15(23):8858-8872.

PMID: 38873078 PMC: 11168103. DOI: 10.1039/d3sc06427a.

Knockdown of PHOX2B in the retrotrapezoid nucleus reduces the central CO chemoreflex in rats.

Cardani S, Janes T, Betzner W, Pagliardini S Elife. 2024; 13.

PMID: 38727716 PMC: 11087052. DOI: 10.7554/eLife.94653.

Etonogestrel Administration Reduces the Expression of PHOX2B and Its Target Genes in the Solitary Tract Nucleus.

Cardani S, Janes T, Saini J, Di Lascio S, Benfante R, Fornasari D Int J Mol Sci. 2022; 23(9).

PMID: 35563209 PMC: 9101578. DOI: 10.3390/ijms23094816.

Non-polyalanine repeat mutation in PHOX2B is detected in autopsy cases of sudden unexpected infant death.

Ueda A, Osawa M, Naito H, Ochiai E, Kakimoto Y PLoS One. 2022; 17(4):e0267751.

PMID: 35486589 PMC: 9053812. DOI: 10.1371/journal.pone.0267751.

Reduced PHOX2B stability causes axonal growth impairment in motor neurons with TARDBP mutations.

Mitsuzawa S, Suzuki N, Akiyama T, Ishikawa M, Sone T, Kawada J Stem Cell Reports. 2021; 16(6):1527-1541.

PMID: 34048688 PMC: 8190591. DOI: 10.1016/j.stemcr.2021.04.021.

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