An Approach to Uncover the Relationship Between 17b-estradiol and ESR1/ESR2 Ratio in the Regulation of Canine Corpus Luteum

Overview

Journal Front Vet Sci

Specialty Veterinary Medicine

Date 2022 Aug 19

PMID 35982918

Authors

Antenor Pereira Bonfim Neto

Ana Paula Mattoso Miskulin Cardoso

Renata Dos Santos Silva

Liza Margareth Medeiros de Carvalho Sousa

Ines Cristina Giometti

Mario Binelli

Stefan Bauersachs

Mariusz Pawel Kowalewski

Paula de Carvalho Papa

Affiliations

Soon will be listed here.

Abstract

The canine corpus luteum (CL) is able to synthetise, activate and deactivate 17b-estradiol (E2) and also expresses nuclear estrogen receptors in a time-dependent manner during diestrus. Nevertheless, we are still missing a better comprehension of E2 functions in the canine CL, especially regarding the specific roles of estrogen receptor alpha (ERa) and ERb, encoded by and , respectively. For that purpose, we analyzed transcriptomic data of canine non-pregnant CL collected on days 10, 20, 30, 40, 50 and 60 of diestrus and searched for differentially expressed genes (DEG) containing predicted transcription factor binding sites (TFBS) for or . Based on biological functions of DEG presenting TFBS, expression of select transcripts and corresponding proteins was assessed. Additionally, luteal cells were collected across specific time points during diestrus and specificity of E2 responses was tested using ERa and/or ERb inhibitors. Bioinformatic analyses revealed 517 DEGs containing TFBS, from which 67 for both receptors. In general, abundance of predicted targets was greater in the beginning, while abundance of targets was greater in the end of diestrus. / ratio shifted from an increasing to a decreasing pattern from day 30 to 40 post ovulation. Specific receptor inhibition suggested an ERa-mediated positive regulation of CL function at the beginning of diestrus and an ERb-mediated effect contributing to luteal regression. In conclusion, our data points toward a broad spectrum of action of E2 and its nuclear receptors, which can also act as transcription factors for other genes regulating canine CL function.

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