Abstract
Elevated body temperature (HEAT) in sexually receptive females is a normal part of the periovulatory microenvironment. The objective was to identify direct (first 6 h) and delayed (4 h or 18 h of recovery) effects at 41 °C exposure during in vitro maturation (IVM) on transcripts involved in steroidogenesis, oocyte maturation, or previously impacted by elevated temperature using targeted RNA-sequencing. Most transcripts (72.3%) were impacted in the first 2 to 4 hIVM. Twelve of the fifteen transcripts first impacted at 4 hIVM had a higher abundance and three had a lower abundance. Direct exposure to 41 °C impacted the transcripts related to progesterone production and signaling, germinal vesicle breakdown, oocyte meiotic progression, transcriptional activity and/or alternative splicing, cell cycle, cumulus expansion, and/or ovulation. Three transcripts demonstrated a delayed impact; changes were not seen until the COCs recovered for 4 h. The use of multidimensional scaling plots to 'visualize' samples highlights that oocytes exposed to an acute elevation in temperature are more advanced at the molecular level during the initial stages of maturation. Described efforts represent important steps towards providing a novel insight into the dynamic physiology of the COC in the estrual female bovid, during HEAT and after body temperature returns to baseline.