Insights and implications for transcriptomic analysis of heat stress-induced intestinal inflammation in pigs

Background: Heat stress (HS) can affect the physiology and metabolism of animals. HS-induced intestinal inflammation in pigs is a common disease, causing severe diarrhea, that can result in substantial economic losses to the pig industry, but the molecular mechanisms and pathogenicity of this disease are not fully understood. The objective of this study was to identify the differentially expressed genes (DEGs) and long noncoding RNAs (DELs) related to inflammation in the colon tissues of pigs under constant (1, 7, and 14 days) HS.

Results: LncRNA and targeted gene interaction networks were constructed. GO annotation and KEGG pathway analyses were subsequently performed to determine the functions of the DEGs and DELs. The results revealed 57, 212, and 54 DEGs and 87, 79, and 55 DELs in the CON/H01, CON/H07, and CON/H14 groups, respectively. KRT85, CLDN1, S100A12, TM7SF2, CCN1, NR4A1, and several lncRNAs may be involved in regulating the development of intestinal inflammation. GO analysis indicated that the DEGs and DELs were enriched in a series of biological processes involved in the innate immune response, RAGE receptor binding, and positive regulation of the ERK1 and ERK2 cascades. KEGG pathways related to inflammation, such as the tight junction (TJ) and MAPK signaling pathways, were enriched in DEGs and DELs.

Conclusions: This study have expanded the knowledge about colon inflammation-related genes and lncRNA biology in pigs under HS; analyzed the the lncRNA‒mRNA interaction for HS-induced intestinal inflammation. These results may provide some references for our understanding of the molecular mechanism of the intestinal response to HS in pig.