Abstract
High-altitude acclimatization is a representative example of vertebrates’ acclimatization to harsh and extreme environments. Previous studies reported sufficient evidence for a molecular genetic basis of high-altitude acclimatization, and genomic patterns of genetic variation among populations and species have been widely elucidated in recent years. However, understanding of the miRNA role in high-altitude acclimatization have lagged behind, especially in non-model species. To investigate miRNA expression alterations of goats that were induced by high-altitude stress, we performed comparative miRNA transcriptome analysis on six hypoxia-sensitive tissues (heart, kidney, liver, lung, skeletal muscle, and spleen) in two goat populations from distinct altitudes (600 and 3000 m). We obtained the expression value of 1391 mature miRNAs and identified 138 differentially expressed (DE) miRNAs between high and low altitudes. Combined with tissue specificity analysis, we illustrated alterations of expression levels among altitudes and tissues, and found that there were coexisting tissue-specific and -conserved mechanisms for hypoxia acclimatization. Notably, the interplay between DE miRNA and DE target genes strongly indicated post-transcriptional regulation in the hypoxia inducible factor 1, insulin, and p53 signaling pathways, which might play significant roles in high-altitude acclimatization in domestic goats. It’s also worth noting that we experimentally confirmed miR-106a-5p to have a negative regulation effect on angiogenesis by directly targeting FLT-1. These results provide insight into the complicated miRNA expression patterns and regulatory mechanisms of high-altitude acclimatization in domestic goats.
Highlights
Environmental changes impose the pressure of natural selection on vertebrates, which supports the evolution of adaptive mechanisms for survival
Through a series of quality control procedures, an average of 11.99 M (11.99 ± 0.93 M, n = 36) reads were retained as high-quality reads for each library, and a total of 431.51 M high-quality reads were used for miRNA identification
With stringent criteria in the miRDeep2 pipeline, a total of 909 pre-miRNAs that encode 1391 mature miRNAs were identified in all 36 libraries, including pre-miRNAs that were processed
Summary
Environmental changes impose the pressure of natural selection on vertebrates, which supports the evolution of adaptive mechanisms for survival. As a typical example of adaptive evolution in extreme environments (Richalet, 2007), highaltitude acclimatization refers to the heritable and irreversible changes in morphology (Brutsaert et al, 1999; Miles et al, 2009), physiology (Storz et al, 2009; Naeije, 2010), biochemistry (García-Hjarles, 1989; Li et al, 2010), and ethology (Mamatov et al, 2012) in highland habitants during long-term selection pressure, such as reduced oxygen availability, low ambient temperatures, and high ultraviolet radiation (UV; Brookfield and Allen, 1989; Wang et al, 2014). Interacted with HIF-1α and VEGF, preferentially selected variants in RGCC may inhibit the capillary growth and avoid capillary leak in Tibetan pigs under long-term exposure to the hypoxic environment (Ai et al, 2014)
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