Enzymes used for synthesizing steroids in snails, corals, octopuses, and insects are unrelated to those used in human beings according to a team of French and American scientists, including Michael E. Baker, PhD, professor in UC San Diego’s Department of Medicine, Division of Nephrology-Hypertension.
This research was spearheaded by a team at the Université de Lyon, ENS Lyon and provided insight on evolution of steroid hormone signaling in addition to the relationship of steroid synthesis to enzymes that are found to be capable of detoxifying chemicals in the environment.
From Sciencedaily.com:
Steroids hormones are key to many vital physiological responses in humans, ranging from anti-inflammatory agents to regulating events during pregnancy. They are also the target of many chemical pollutants, known as endocrine disruptors. As part of a program to understand the evolution of steroid hormone signaling, Laudet – along with Gabriel Markov, a student in the Institute of Functional Genomics, initially trained by Raquel Tavares at Université de Lyon, characterized the evolutionary relationships between proteins that synthesize steroids in animals. They traced the origin of such enzymes from vertebrates, insects, snails and jelly fish and interpreted these results through extensive discussions with Baker, Chantal Dauphin-Villemant at Université Paris 6, and Barbara Demeneix from the National Museum of Natural History in Paris.
Through an analysis of several invertebrate genomes, the scientists discovered that snails and insects utilize steroid-synthesizing enzymes that are not vertebrate–related, but instead belong in an invertebrate family. Moreover, these invertebrate steroidogenic enzymes have a strong evolutionary connection to enzymes that detoxify chemicals (called xenobiotics).
It is believed by some researchers that these study results would have important consequences for future studies on effect of toxic chemicals in living beings.
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