The experimental material accumulated for two decades allows concluding that regulation of lifespan has hormonal control based on the evolutionary conservative insulin/IGF-1 receptor signal pathway. Data obtained on the commonly accepted models of longevity - nematode Caenorhabditis elegans, Drosophila Drosophila melanogaster, and rodents - demonstrate that reduction of the insulin/IGF- 1 signal pathway leads to an increase of the lifespan. There is shown involvement of the longevity mechanism of a large group of genes whose products perform control of metabolism, alimentary behavior, reproduction, resistance to oxidative stress. Discussed in this review are current concepts of the insulin/IGF-1 signal system as a regulatory "longevity module" and of its possible role in prolongation of life in the higher vertebrates, including human.