• Title of article

    Pathways of endocrine disruption during male sexual differentiation and masculinisation

  • Author/Authors

    Richard M. Sharpe، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    20
  • From page
    91
  • To page
    110
  • Abstract
    After testis formation, further development of a male phenotype (masculinisation) is driven by three hormones from the foetal testis: anti-Müllerian hormone, insulin-like factor 3, and testosterone. These hormones divert the development of reproductive and other organs from female to male and also play a role in testis development. The hormone dependence of masculinisation renders this process inherently susceptible to disruption by factors that interfere with hormone production, bioavailability, metabolism, or action. This susceptibility is illustrated by the high prevalence of congenital masculinisation disorders (cryptorchidism, hypospadias) and disorders in young adult men (low sperm counts, testis cancer), which may also stem from maldevelopment (dysgenesis) of the foetal testis. Testicular dysgenesis occurring in humans, or which is induced in animal models by foetal exposure to certain phthalates, is associated with impaired hormone production by the foetal testis. There is currently no definitive evidence that exposure of humans to environmental chemicals can induce testicular dysgenesis and/or impair masculinisation, though pathways via which this could potentially occur are established.
  • Keywords
    testosterone , Oestradiol , Sertoli cells , Leydig cells , hypospadias , Dihydrotestosterone , testis cancer , cryptorchidism , testis formation , testicular dysgenesis , seminiferous cord formation , foetal germ cells , anti-Mu¨llerian hormone , insulin-like factor 3 , low sperm counts , phthalates.
  • Journal title
    Best Practice and Research Clinical Endocrinology and Metabolism
  • Serial Year
    2005
  • Journal title
    Best Practice and Research Clinical Endocrinology and Metabolism
  • Record number

    466011