The possible inductions of embryonic diapause with hydrogen-sulfide
Abstract
Recently hydrogen-sulfide has garnered much attention from the scientific
community for its potential applications in human medicine. It has been discovered
that H2S is able to induce a reversible state of hibernation in laboratory mice by
artificially interrupting the electron transfer chain, reducing the metabolic rate of treated cells to the bare minimum. Many researchers see the future of cytoprotective
drugs in various forms of hydrogen-sulfide. One of the most promising applications is
in the protection of organ transplants from ischemic-reperfusive injuries. The possible
extension of the basic idea of hydrogen-sulfide induced hibernation and the concept
of hypoxia induced embryonic diapause, which has been proven possible in Zebrafish, has been discussed here for the purpose of introducing the concept off hydrogen-sulfide induced embryonic diapause. As well as a theoretical experiment as prove of the viability of said concept. Through the discovery of its gaseous messenger properties hydrogen-sulfide
has become one of the hot topics in todays human medicine be it for its possible
application as a hibernation induction agents, its cytoprotective capabilities in
response of ischemic reperfusive injuries in kidney or heart patients or in same
fashion its probable uses in organ transplants. Current literature however doesn't
seem to implicate any possible applications of its many properties in the field of
veterinary medicine. Mainly due to the fact that the currently researched fields have
no realistic applications for animal treatment because their possible cost far outweigh
any lucrative application. However should the experiments proposed here hold any
merit it would open op an entirely new field of research into the long term
preservation of mammalian embryos. This would be especially interesting if it would
make it possible to apply the same success embryo transfers enjoy in the bovine
industry today to the swine industry.