Hervé Lejeune scite author profile

Beside cytotoxic drugs, other drugs can impact men's fertility through various mechanisms. Via the modification of the hypothalamic-pituitary-gonadal axis hormones or by non-hormonal mechanisms, drugs may directly and indirectly induce sexual dysfunction and spermatogenesis impairment and alteration of epididymal maturation. This systematic literature review summarizes existing data about the negative impact and associations of pharmacological treatments on male fertility (excluding cytotoxic drugs), with a view to making these data more readily available for medical staff. In most cases, these effects on spermatogenesis/sperm maturation/sexual function are reversible after the discontinuation of the drug. When a reprotoxic treatment cannot be stopped and/or when the impact on semen parameters/sperm DNA is potentially irreversible (Sulfasalazine Azathioprine, Mycophenolate mofetil and Methotrexate), the cryopreservation of spermatozoa before treatment must be proposed. Deleterious impacts on fertility of drugs with very good or good level of evidence (Testosterone, Sulfasalazine, Anabolic steroids, Cyproterone acetate, Opioids, Tramadol, GhRH analogues and Sartan) are developed.

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Osteocalcin regulates murine and human fertility through a pancreas-bone-testis axis

Oury

Ferron²,

Wang³

et al. 2013

J. Clin. Invest.

237

127

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The osteoblast-derived hormone osteocalcin promotes testosterone biosynthesis in the mouse testis by binding to GPRC6A in Leydig cells. Interestingly, Osteocalcin-deficient mice exhibit increased levels of luteinizing hormone (LH), a pituitary hormone that regulates sex steroid synthesis in the testes. These observations raise the question of whether LH regulates osteocalcin's reproductive effects. Additionally, there is growing evidence that osteocalcin levels are a reliable marker of insulin secretion and sensitivity and circulating levels of testosterone in humans, but the endocrine function of osteocalcin is unclear. Using mouse models, we found that osteocalcin and LH act in 2 parallel pathways and that osteocalcin-stimulated testosterone synthesis is positively regulated by bone resorption and insulin signaling in osteoblasts. To determine the importance of osteocalcin in humans, we analyzed a cohort of patients with primary testicular failure and identified 2 individuals harboring the same heterozygous missense variant in one of the transmembrane domains of GPRC6A, which prevented the receptor from localizing to the cell membrane. This study uncovers the existence of a second endocrine axis that is necessary for optimal male fertility in the mouse and suggests that osteocalcin modulates reproductive function in humans.

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Influence ofSHBGGene Pentanucleotide TAAAA Repeat and D327N Polymorphism on Serum Sex Hormone-Binding Globulin Concentration in Hirsute Women

Cousin

Calemard-Michel

Lejeune

et al. 2004

The Journal of Clinical Endocrinology & Metabolism

113

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Pathophysiology of sex hormone binding globulin (SHBG): Relation to insulin

Pugeat

Crave

Elmidani

et al. 1991

The Journal of Steroid Biochemistry and Molecular Biology

191

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Osteocalcin regulates murine and human fertility through a pancreas-bone-testis axis

Oury¹,

Ferron²,

Wang³

et al. 2015

J. Clin. Invest.

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Hervé Lejeune

Sperm DNA fragmentation decreases the pregnancy rate in an assisted reproductive technique

Origin, differentiation and regulation of fetal and adult Leydig cells

Sperm deoxyribonucleic acid fragmentation as a prognostic indicator of assisted reproductive technology outcome

The impact of drugs on male fertility: a review

Osteocalcin regulates murine and human fertility through a pancreas-bone-testis axis

Influence ofSHBGGene Pentanucleotide TAAAA Repeat and D327N Polymorphism on Serum Sex Hormone-Binding Globulin Concentration in Hirsute Women

Pathophysiology of sex hormone binding globulin (SHBG): Relation to insulin

Osteocalcin regulates murine and human fertility through a pancreas-bone-testis axis

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