Membrane and nuclear estrogen receptors in sea bass provide insight to explore genomic and non-genomic estrogenic actions: the mineralized scale example

Pinto, Patricia IS; Andrade, André; Félix, Rute; Cardoso, João CR; D Estêvão, M; Power, Deborah

http://hdl.handle.net/10400.1/13441

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Abstract(s)

The numerous estrogen functions across vertebrates have been classically explained by binding to nuclear estrogen receptors (ERs) regulating the transcription of responsive genes. It is now known that estrogenic compounds can also produce rapid non-genomic actions initiated by binding to plasma estrogen membrane receptors, such as the recently identified G protein-coupled estrogen receptor1 (GPER). Sea bass (Dicentrarchus labrax) express three ER subtype genes, one esr1 and two esr2 genes that appear to have been originated from the original esr2 gene in the teleost-specific whole genome duplication. We have recently identified two genes for GPER in the sea bass genome and phylogenetic analyses also suggest they are teleost-specific gene duplicates. Quantitative PCR revealed a wide tissue distribution for the five receptors in both male and female sea bass and expression throughout the reproductive cycle in brain and pituitary, although with subtype-specific and seasonal differences. When analyzing the sea bass scales, mineralized structures previously shown to be estrogen-responsive, a different receptor repertoire and regulation was detected compared to liver, a classical target gene. In juvenile sea bass scales, the main forms expressed were esr2a and gperb, which were also up regulated after injection with the natural estrogen estradiol (E2) and the phytoestrogen genistein (Gen). Both rapid (30 min) and slow (1 day or more) changes in the activities of enzymes related to mineral turnover were detected in fish scales in response to E2, Gen and xenoestrogens and the gene networks activated 1-5 days after injection of E2 and Gen are being characterized by transcriptomics, revealing both common and compound-specific effects at the transcriptional level. Functional characterization of the three sea bass ER subtypes and two GPERs is underway in mammalian cells, to allow to compare their signaling to different estrogenic compounds. These studies will help to understand the normal estrogen regulation of fish scale functions as well as its possible disruption by phytoestrogens and other xenoestrogens and the relative importance of genomic and non-genomic mechanisms of action of the five receptors.

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http://hdl.handle.net/10400.1/13441

Citation

Pinto, P. I. S., Andrade, A., Félix, R. Cardoso, J. C. Estêvão, M. D., Power, D. M. (2017). Membrane and nuclear estrogen receptors in sea bass provide insight to explore genomic and non-genomic estrogenic actions: the mineralized scale example. 18th International Congress of Comparative Endocrinology, Lake Louise, Canada, 4-9/6/2017.