Abstract:
Oogenesis, an amalgamation of the balanced network of neuroendocrine, endo crine, and autocrine/paracrine factors, is inevitable for the production of fertiliz able female gamete and sustenance of a progeny on earth. In today’s up-to-the minute world, aquatic organisms are exposed to a myriad of environmental
anthropogenic contaminants that share structural similarity with natural
hormones, putting fish fertility and aquaculture industries at stake. A subset of
such endocrine disruptors is the “xenoestrogens” that carry the ability to mimic
17β-estradiol, a natural female hormone, leading to adverse outcomes such as
early puberty, premature ovarian failure, and impaired fertility. The present
review seeks to elucidate the voyage of a fish oocyte undertaking the endocrine
as well as autocrine/paracrine inputs. The effects of EDCs on various ovarian
processes have been summarized along with the diverse signaling cascades that
might participate to induce significant alterations at the receptor level, steroido genic potential, maturational competence, ovulatory response, or even
epigenetics of the ovary. Since reproduction heavily relies on the metabolic
state of an organism, the potential influence of endocrine disruptors on oxidative
stress and energy homeostasis has also been taken into consideration.
