Heat stress occurs when exogenous and metabolic heat accumulation exceeds heat dissipation; a thermal imbalance that compromises female reproduction. This study investigated the hypothesis that heat stress alters the ovarian proteome and negatively impacts proteins engaged with insulin signaling, inflammation, and ovarian function.
Methods: Prepubertal gilts (n = 19) were assigned to one of three environmental groups: thermal neutral with ad libitum feed intake (TN; n = 6), thermal neutral pair-fed (PF; n = 6), or heat stress (n = 7). For 7 d, heat stress gilts were exposed to 12-h cyclic temperatures of 35.0 ± 0.2 °C and 32.2 ± 0.1 °C, while TN and PF gilts were housed at 21.0 ± 0.1 °C. Liquid chromatography-tandem mass spectrometry was performed on ovarian protein homogenates.
Results: Relative to TN gilts, 178 proteins were altered by heat stress, with 76 increased and 102 decreased. STRING gene ontology classified and identified 45 biological processes including those associated with chaperone protein refolding, cytoplasmic translational initiation, and immune activation; with a protein–protein interaction web network of 158 nodes and 563 edges connected based on protein function. Relative to PF, heat stress altered 330 proteins, with 151 increased and 179 decreased. Fifty-seven biological pathways associated with protein function and assembly, RNA processing, and metabolic processes were identified, with a protein–protein interaction network of 303 nodes and 1,606 edges. Comparing heat stress with both the TN and PF treatments, 72 ovarian proteins were consistently altered by heat stress with 68 nodes and 104 edges, with biological pathways associated with translation and gene expression.
Conclusion: This indicates that heat stress alters the ovarian proteome and multiple biological pathways and systems in prepubertal gilts; changes that potentially contribute to female infertility.
Roach CM, Mayorga EJ, Baumgard LH, Ross JW, Keating AF. Heat stress alters the ovarian proteome in prepubertal gilts. Journal of Animal Science. 2024; 102: skae053. https://doi.org/10.1093/jas/skae053