Loss of Function Mutation in the Palmitoyl-transferase HHAT Leads to Syndromic 46,XY Disorder of Sex Development by Impeding Hedgehog Protein Palmitoylation and Signaling

Overview

Journal PLoS Genet

Specialty Genetics

Date 2014 May 3

PMID 24784881

Citations 26

Authors

Patrick Callier

Pierre Calvel

Armine Matevossian

Periklis Makrythanasis

Pascal Bernard

Hiroshi Kurosaka

Anne Vannier

Christel Thauvin-Robinet

Christelle Borel

Severine Mazaud-Guittot

Antoine Rolland

Christele Desdoits-Lethimonier

Michel Guipponi

Celine Zimmermann

Isabelle Stevant

Francoise Kuhne

Beatrice Conne

Federico Santoni

Sandy Lambert

Frederic Huet

Francine Mugneret

Jadwiga Jaruzelska

Laurence Faivre

Dagmar Wilhelm

Bernard Jegou

Paul A Trainor

Marilyn D Resh

Stylianos E Antonarakis

Serge Nef

Affiliations

Soon will be listed here.

Abstract

The Hedgehog (Hh) family of secreted proteins act as morphogens to control embryonic patterning and development in a variety of organ systems. Post-translational covalent attachment of cholesterol and palmitate to Hh proteins are critical for multimerization and long range signaling potency. However, the biological impact of lipid modifications on Hh ligand distribution and signal reception in humans remains unclear. In the present study, we report a unique case of autosomal recessive syndromic 46,XY Disorder of Sex Development (DSD) with testicular dysgenesis and chondrodysplasia resulting from a homozygous G287V missense mutation in the hedgehog acyl-transferase (HHAT) gene. This mutation occurred in the conserved membrane bound O-acyltransferase (MBOAT) domain and experimentally disrupted the ability of HHAT to palmitoylate Hh proteins such as DHH and SHH. Consistent with the patient phenotype, HHAT was found to be expressed in the somatic cells of both XX and XY gonads at the time of sex determination, and Hhat loss of function in mice recapitulates most of the testicular, skeletal, neuronal and growth defects observed in humans. In the developing testis, HHAT is not required for Sertoli cell commitment but plays a role in proper testis cord formation and the differentiation of fetal Leydig cells. Altogether, these results shed new light on the mechanisms of action of Hh proteins. Furthermore, they provide the first clinical evidence of the essential role played by lipid modification of Hh proteins in human testicular organogenesis and embryonic development.

Citing Articles

Additional evidence for the role of chromosomal imbalances and SOX8, ZNRF3 and HHAT gene variants in early human testis development.

Rjiba K, Mougou-Zerelli S, Hamida I, Saad G, Khadija B, Jelloul A Reprod Biol Endocrinol. 2023; 21(1):2.

PMID: 36631813 PMC: 9990451. DOI: 10.1186/s12958-022-01045-7.

Hedgehog signaling regulates Wolffian duct development through the primary cilium†.

Alves M, Girardet L, Augiere C, Moon K, Lavoie-Ouellet C, Bernet A Biol Reprod. 2022; 108(2):241-257.

PMID: 36525341 PMC: 9930401. DOI: 10.1093/biolre/ioac210.

Novel variant in as a cause of different sex development with partial gonadal dysgenesis associated with microcephaly, eye defects, and distal phalangeal hypoplasia of both thumbs: Case report.

Baz-Redon N, Soler-Colomer L, Fernandez-Cancio M, Benito-Sanz S, Garrido M, Moline T Front Endocrinol (Lausanne). 2022; 13:957969.

PMID: 36303863 PMC: 9592858. DOI: 10.3389/fendo.2022.957969.

Novel compound heterozygous mutations in the desert hedgehog (DHH) gene in cases of siblings with 46,XY disorders of sexual development.

Wei J, Wu J, Ru W, Chen G, Gao L, Tang D BMC Med Genomics. 2022; 15(1):178.

PMID: 35971145 PMC: 9377103. DOI: 10.1186/s12920-022-01334-5.

Loss of NEDD4 causes complete XY gonadal sex reversal in mice.

Windley S, Mayere C, McGovern A, Harvey N, Nef S, Schwarz Q Cell Death Dis. 2022; 13(1):75.

PMID: 35075134 PMC: 8786929. DOI: 10.1038/s41419-022-04519-z.

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