Effectors and predictors of conceptus survival in cattle: What is next?

Journal: Domestic animal endocrinology
Published Date: Mar 7, 2025

Abstract

In cattle, the physiological process of switching from cycling to pregnant is complex. Ultimately, that process relies on endometrial luminal epithelial cells and is based on the paracrine context of the uterine lumen. Cells either release luteolytic pulses of prostaglandin F2 alpha to keep the animal cycling or respond to cues released by the elongated conceptus that block prostaglandin F2 alpha pulses to maintain luteal function and pregnancy. That process, however, is highly regulated and subjected to error that occurs in every 30 to 40 % of attempted bovine pregnancies. This review addresses novel aspects of endometrial cell function, luteal function, intraluminal endometrial-trophoblast communication, heat stress, and artificial intelligence as effectors, predictors, and tools to be explored and employed to reduce pregnancy loss.

Authors

  • Mario Binelli
    Department of Animal Sciences, Institute of Food and Agricultural Sciences. University of Florida. Gainesville, Florida, USA. Electronic address: mario.binelli@ufl.edu.
  • Maria Camila Lopez-Duarte
    North Florida Research and Education Center. Institute of Food and Agricultural Sciences. University of Florida. Marianna, Florida, USA.
  • Angela Gonella-Diaza
    North Florida Research and Education Center. Institute of Food and Agricultural Sciences. University of Florida. Marianna, Florida, USA.
  • Felipe A C C Silva
    Department of Animal Science, North Carolina State University, Raleigh, North Carolina, 27607, USA.
  • Guilherme Pugliesi
    Department of Animal Reproduction, School of Veterinary Medicine and Animal Science, University of São Paulo, São Paulo, Brazil.
  • Thiago Martins
    Division of Animal Sciences, University of Missouri. Columbia, Missouri, USA.
  • Cecilia Constantino Rocha
    Division of Animal Sciences, Southwest Research, Extension, and Education Center, University of Missouri, Mt Vernon, Missouri, USA.

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