Steroid hormones sulfatase inactivation extends lifespan and ameliorates age-related diseases

Perez-Jimenez, Mercedes M.; Monje-Moreno, Jose M.; Brokate-Llanos, Ana Maria; Venegas-Caleron, Monica; Sanchez-Garcia, Alicia; Sansigre, Paula; Valladares, Amador; Esteban-Garcia, Sara; Suarez-Pereira, Irene; Vitorica, Javier; Rios, Jose Julian; Artal-Sanz, Marta; Carrion, Angel M.; Munoz, Manuel J.

Publicación: NATURE COMMUNICATIONS
2021
VL / 12 - BP / - EP /
abstract
Aging and fertility are two interconnected processes. From invertebrates to mammals, absence of the germline increases longevity. Here we show that loss of function of sul-2, the Caenorhabditis elegans steroid sulfatase (STS), raises the pool of sulfated steroid hormones, increases longevity and ameliorates protein aggregation diseases. This increased longevity requires factors involved in germline-mediated longevity (daf-16, daf-12, kri-1, tcer-1 and daf-36 genes) although sul-2 mutations do not affect fertility. Interestingly, sul-2 is only expressed in sensory neurons, suggesting a regulation of sulfated hormones state by environmental cues. Treatment with the specific STS inhibitor STX64, as well as with testosterone-derived sulfated hormones reproduces the longevity phenotype of sul-2 mutants. Remarkably, those treatments ameliorate protein aggregation diseases in C. elegans, and STX64 also Alzheimer's disease in a mammalian model. These results open the possibility of reallocating steroid sulfatase inhibitors or derivates for the treatment of aging and aging related diseases. Sul-2 is a steroid sulfatase in c.elegans. Here the authors show that, in the absence of sul-2 enzymatic activity, worm lifespan is increased, and that chemical inhibition ameliorates symptoms of neurodegenerative disorders in worms and mice.

Access level

Gold DOAJ, Green published