Regulation of Sexual Dimorphism in Mammals

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Regulation of Sexual Dimorphism in Mammals

CHRISTOPHER M. HAQQ AND PATRICIA K. DONAHOE

Pediatric Surgical Research Laboratories, Massachusetts General Hospital, and Department of Genetics and Surgery, Harvard Medical School, Boston, Massachusetts

Haqq, Christopher M., and Patricia K. Donahoe. Regulation of Sexual Dimorphism in Mammals. Physiol. Rev. 78: 1-33,1998. $---$ Sexual dimorphism in humans has been the subject of wonderfor centuries. In 355 BC, Aristotle postulated that sexual dimorphismarose from differences in the heat of semen at the time of copulation.In his scheme, hot semen generated males, whereas cold semen madefemales (Jacquart, D., and C. Thomasset. Sexuality and Medicinein the Middle Ages, 1988). In medieval times, there was greatcontroversy about the existence of a female pope, who may havein fact had an intersex phenotype (New, M. I., and E. S. Kitzinger.J. Clin. Endocrinol. Metab. 76: 3-13, 1993.). Recent years haveseen a resurgence of interest in mechanisms controlling sexualdifferentiation in mammals. Sex differentiation relies on establishmentof chromosomal sex at fertilization, followed by the differentiationof gonads, and ultimately the establishment of phenotypic sexin its final form at puberty. Each event in sex determinationdepends on the preceding event, and normally, chromosomal, gonadal,and somatic sex all agree. There are, however, instances wherechromosomal, gonadal, or somatic sex do not agree, and sexualdifferentiation is ambiguous, with male and female characteristicscombined in a single individual. In humans, well-characterizedpatients are 46, XY women who have the syndrome of pure gonadaldysgenesis, and a subset of true hermaphrodites are phenotypicmen with a 46, XX karyotype. Analysis of such individuals haspermitted identification of some of the molecules involved insex determination, including SRY (sex-determining region Y gene),which is a Y chromosomal gene fulfilling the genetic and conceptualrequirements of a testis-determining factor. The purpose of thisreview is to summarize the molecular basis for syndromes of sexualambiguity seen in human patients and to identify areas where furtherresearch is needed. Understanding how sex-specific gene activityis orchestrated may provide insight into the molecular basis ofother cell fate decisions during development which, in turn, maylead to an understanding of aberrant cell fate decisions madein patients with birth defects and during neoplastic change.

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