| First Author | Meyer-Ficca ML | Year | 2022 |
| Journal | Front Endocrinol (Lausanne) | Volume | 13 |
| Pages | 896356 | PubMed ID | 35600581 |
| Mgi Jnum | J:325688 | Mgi Id | MGI:7282737 |
| Doi | 10.3389/fendo.2022.896356 | Citation | Meyer-Ficca ML, et al. (2022) Low NAD(+) Levels Are Associated With a Decline of Spermatogenesis in Transgenic ANDY and Aging Mice. Front Endocrinol (Lausanne) 13:896356 |
| abstractText | Advanced paternal age has increasingly been recognized as a risk factor for male fertility and progeny health. While underlying causes are not well understood, aging is associated with a continuous decline of blood and tissue NAD(+) levels, as well as a decline of testicular functions. The important basic question to what extent ageing-related NAD(+) decline is functionally linked to decreased male fertility has been difficult to address due to the pleiotropic effects of aging, and the lack of a suitable animal model in which NAD(+) levels can be lowered experimentally in chronologically young adult males. We therefore developed a transgenic mouse model of acquired niacin dependency (ANDY), in which NAD(+) levels can be experimentally lowered using a niacin-deficient, chemically defined diet. Using ANDY mice, this report demonstrates for the first time that decreasing body-wide NAD(+) levels in young adult mice, including in the testes, to levels that match or exceed the natural NAD(+) decline observed in old mice, results in the disruption of spermatogenesis with small testis sizes and reduced sperm counts. ANDY mice are dependent on dietary vitamin B3 (niacin) for NAD(+) synthesis, similar to humans. NAD(+)-deficiency the animals develop on a niacin-free diet is reversed by niacin supplementation. Providing niacin to NAD(+)-depleted ANDY mice fully rescued spermatogenesis and restored normal testis weight in the animals. The results suggest that NAD(+) is important for proper spermatogenesis and that its declining levels during aging are functionally linked to declining spermatogenesis and male fertility. Functions of NAD(+) in retinoic acid synthesis, which is an essential testicular signaling pathway regulating spermatogonial proliferation and differentiation, may offer a plausible mechanism for the hypospermatogenesis observed in NAD(+)-deficient mice. |
