M J Bitgood1, L Shen, A P McMahon. 1. Department of Molecular and Cellular Biology, The Biolabs, Harvard University, 16 Divinity Avenue, Cambridge, Massachusetts 02138, USA.
Abstract
BACKGROUND: In mammals, testis development is initiated in the embryo in response to the expression of the sex determining gene, Sry, in Sertoli cell precursors. Subsequently, Sertoli cells are thought to play a central role in male-specific cell interactions, including those that occur during spermatogenesis. However, the molecular nature of these interactions is poorly understood. Desert hedgehog (Dhh) encodes a signaling molecule expressed in the testis, but not the ovary, and may therefore play a role in the regulation of spermatogenesis. RESULTS: Dhh expression is initiated in Sertoli cell precursors shortly after the activation of Sry and persists in the testis into the adult. Female mice homozygous for a Dhh-null mutation show no obvious phenotype, whereas males are viable but infertile, owing to a complete absence of mature sperm. Examination of the developing testis in different genetic backgrounds suggests that Dhh regulates both early and late stages of spermatogenesis. Patched, a likely target of Hedgehog signaling, also displays male-specific transcription in the gonad. This expression is restricted to a second somatic lineage, the Leydig cells. The expression of Patched is lost in Dhh mutants. CONCLUSIONS: Dhh expression in pre-Sertoli cells is one of the earliest indications of male sexual differentiation. Analysis of a null mutant demonstrates that Dhh signaling plays an essential role in the regulation of mammalian spermatogenesis. Loss of Patched expression in Dhh mutants suggests a conservation in the Hedgehog signaling pathway between flies and mice, and indicates that Leydig cells may be the direct target of Dhh signaling.
BACKGROUND: In mammals, testis development is initiated in the embryo in response to the expression of the sex determining gene, Sry, in Sertoli cell precursors. Subsequently, Sertoli cells are thought to play a central role in male-specific cell interactions, including those that occur during spermatogenesis. However, the molecular nature of these interactions is poorly understood. Desert hedgehog (Dhh) encodes a signaling molecule expressed in the testis, but not the ovary, and may therefore play a role in the regulation of spermatogenesis. RESULTS: Dhh expression is initiated in Sertoli cell precursors shortly after the activation of Sry and persists in the testis into the adult. Female mice homozygous for a Dhh-null mutation show no obvious phenotype, whereas males are viable but infertile, owing to a complete absence of mature sperm. Examination of the developing testis in different genetic backgrounds suggests that Dhh regulates both early and late stages of spermatogenesis. Patched, a likely target of Hedgehog signaling, also displays male-specific transcription in the gonad. This expression is restricted to a second somatic lineage, the Leydig cells. The expression of Patched is lost in Dhh mutants. CONCLUSIONS: Dhh expression in pre-Sertoli cells is one of the earliest indications of male sexual differentiation. Analysis of a null mutant demonstrates that Dhh signaling plays an essential role in the regulation of mammalian spermatogenesis. Loss of Patched expression in Dhh mutants suggests a conservation in the Hedgehog signaling pathway between flies and mice, and indicates that Leydig cells may be the direct target of Dhh signaling.
Authors: Juliet A Williams; Oivin M Guicherit; Beatrice I Zaharian; Yin Xu; Ling Chai; Hynek Wichterle; Charlene Kon; Christine Gatchalian; Jeffery A Porter; Lee L Rubin; Frank Y Wang Journal: Proc Natl Acad Sci U S A Date: 2003-04-04 Impact factor: 11.205