Comparison of miRNA expression profiles in pituitary-adrenal axis between Beagle and Chinese Field dogs after chronic stress exposure.

Wei Luo,Huijie Xing,Jiangnan Fu,Haiping Xu,Meixia Fang,Qinghua Nie

doi:10.7717/peerj.1682

Wei Luo, Huijie Xing + Show 4 more

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https://doi.org/10.7717/peerj.1682

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Abstract

MicoRNAs (miRNAs), usually as gene regulators, participate in various biological processes, including stress responses. The hypothalamus–pituitary–adrenal axis (HPA axis) is an important pathway in regulating stress response. Although the mechanism that HPA axis regulates stress response has been basically revealed, the knowledge that miRNAs regulate stress response within HPA axis, still remains poor. The object of this study was to investigate the miRNAs in the pituitary and adrenal cortex that regulate chronic stress response with high-throughput sequencing. The pituitary and adrenal cortex of beagles and Chinese Field dogs (CFD) from a stress exposure group (including beagle pituitary 1 (BP1), CFD pituitary 1 (CFDP1), beagle adrenal cortex 1 (BAC1), CFD adrenal cortex 1 (CFDAC1)) and a control group (including beagle pituitary 2 (BP2), CFD pituitary 2 (CFDP2), beagle adrenal cortex 2 (BAC2), CFD adrenal cortex 2 (CFDAC2)), were selected for miRNA-seq comparisons. Comparisons, that were made in pituitary (including BP1 vs. BP2, CFDP1 vs. CFDP2, BP1 vs. CFDP1 and BP2 vs. CFDP2) and adrenal cortex (including BAC1 vs. BAC2, CFDAC1 vs. CFDAC2, BAC1 vs. CFDAC1 and BAC2 vs. CFDAC2), showed that a total of 39 and 18 common differentially expressed miRNAs (DE-miRNAs) (Total read counts > 1,000, Fold change > 2 & p-value < 0.001), that shared in at least two pituitary comparisons and at least two adrenal cortex comparisons, were detected separately. These identified DE-miRNAs were predicted for target genes, thus resulting in 3,959 and 4,010 target genes in pituitary and adrenal cortex, respectively. Further, 105 and 10 differentially expressed genes (DEGs) (Fold change > 2 & p-value < 0.05) from those target genes in pituitary and adrenal cortex were obtained separately, in combination with our previous corresponding transcriptome study. Meanwhile, in line with that miRNAs usually negatively regulated their target genes and the dual luciferase reporter assay, we finally identified cfa-miR-205 might play an important role by upregulating MMD in pituitary and hippocampus, thus enhancing the immune response, under chronic stress exposure. Our results shed light on the miRNA expression profiles in the pituitary and adrenal cortex with and without chronic stress exposure, and provide a new insight into miR-205 with its feasible role in regulating chronic stress in the pituitary and hippocampus through targeting MMD.

Highlights

MiRNAs belong to a class of non-coding endogenous RNAs with the lengths ranging from 18 nt to 25 nt
Eight libraries including BAC2, BAC1, CFDAC2, CFDAC1, BP2, BP1, CFDP2 and CFDP1 were constructed for miRNA-seq
A bigger number of small RNA reads were showed in pituitary samples compared with that in adrenal cortex samples

Summary

Introduction

MiRNAs belong to a class of non-coding endogenous RNAs with the lengths ranging from 18 nt to 25 nt. They have been much explored as gene expression regulators that involve many biological processes, including differentiation, proliferation, development and apoptosis of cells, hormone secretions, virus diseases and cancers (Stefani & Slark, 2008; Cordes, Srivastava & Ivey, 2010; Taft et al, 2010). With the neuron treated by glucocorticoid (Kawashima et al, 2010), the miRNA-132 in neuron showed a lower expression level compared with that in negative control. The existing knowledge indicates that the miRNAs play important roles in the neuroendocrine system and are closely associated with the stress response

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