Metabolic Cooperation in Testis as a Pharmacological Target: From Disease to Contraception

Author(s): Marco G. Alves, Tania R. Dias, Branca M. Silva, Pedro F. Oliveira

Journal Name: Current Molecular Pharmacology

Volume 7 , Issue 2 , 2014

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The development of a “male pill” to control fertility is still a major challenge. Although women have several options to play an active role in the couple family planning, men are very limited in terms of contraceptive methods. Several approaches have been proposed to develop a male contraceptive and can be divided in two major groups: hormonal and non-hormonal methods. Within the testis, the somatic Sertoli cell (SC) is known as the “nurse cell” since it provides the physical and nutritional support for the developing germ cells. Moreover, adjacent SCs form the Sertoli/blood testis barrier (BTB), which divides the seminiferous epithelium into the basal and the apical compartments, controlling the passage of substances to the site where germ cells develop. Among the several functions of SC, its metabolism and the production of lactate, acetate and other metabolic factors are essential for the normal occurrence of spermatogenesis. In the last years, several works have highlighted that the metabolic cooperation established between SCs and developing germ cells is compromised in several diseases associated with male subfertility/infertility. Notably, several metabolismassociated proteins are specifically expressed in the testis. Thus, there are several evidences illustrating that the control of male fertility can be achieved by targeting testicular cells metabolism. Herein, we discuss the metabolic cooperation in testis as a potential pharmacological target to counteract subfertility/infertility promoted by several diseases, particularly metabolic diseases. We also discuss how it can contribute to the development of a male contraceptive.

Keywords: Germ cells, lactate, male contraception, sertoli, spermatogenesis.

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Article Details

Year: 2014
Published on: 25 February, 2015
Page: [83 - 95]
Pages: 13
DOI: 10.2174/1874467208666150126153830
Price: $65

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