1. Integrative testis transcriptome analysis reveals differentially expressed miRNAs and their mRNA targets during early puberty in Atlantic salmon
- Author
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Skaftnesmo, Kai Ove, Edvardsen, Rolf B, Furmanek, Tomasz, Crespo, D., Andersson, E., Kleppe, Lene, Taranger, G.L., Bogerd, J., Schulz, R.W., Wargelius, Anna, Sub Developmental Biology, Institute for Marine and Atmospheric Research, Developmental Biology, Sub Developmental Biology, Institute for Marine and Atmospheric Research, and Developmental Biology
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0301 basic medicine ,microRNA 217 ,puberty ,microRNA 125b ,microRNA 222a ,animal cell ,Aquaculture ,gene cluster ,testis development ,microRNA 181a ,microRNA 20a ,sonic hedgehog protein ,Transcriptome ,Pubertal stage ,microRNA 92b ,transcriptomics ,prepuberty ,microRNA 101 ,microRNA 145 ,microRNA 222 ,Genetics ,microRNA 724 ,microRNA ,messenger RNA ,Wnt signaling pathway ,article ,gene control ,Cell cycle ,sexual maturation ,Sertoli cell ,Cell biology ,unclassified drug ,apelin ,genetic association study ,cell cycle ,microRNA new289 ,MiRNA ,microRNA 137 ,signal transduction ,Biotechnology ,Research Article ,microRNA 216a ,lcsh:QH426-470 ,microRNA 25 ,lcsh:Biotechnology ,microRNA 135a ,microRNA 18a ,animal experiment ,Salmo salar ,testis tissue ,microRNA 26b ,Biology ,progesterone ,spermatogonium ,testis ,animal tissue ,precocious puberty ,03 medical and health sciences ,microRNA new194 ,microRNA new271 ,microRNA 30c ,microRNA 2184 ,male ,lcsh:TP248.13-248.65 ,medicine ,unindexed drug ,Precocious puberty ,Animals ,RNA, Messenger ,KEGG ,microRNA 202 ,miRNA ,nonhuman ,Gene Expression Profiling ,Integrative analysis ,medicine.disease ,microRNA 190a ,Wnt protein ,spermatogenesis ,Gene expression profiling ,MicroRNAs ,developmental stage ,lcsh:Genetics ,030104 developmental biology ,cell proliferation ,gene expression - Abstract
Background Our understanding of the molecular mechanisms implementing pubertal maturation of the testis in vertebrates is incomplete. This topic is relevant in Atlantic salmon aquaculture, since precocious male puberty negatively impacts animal welfare and growth. We hypothesize that certain miRNAs modulate mRNAs relevant for the initiation of puberty. To explore which miRNAs regulate mRNAs during initiation of puberty in salmon, we performed an integrated transcriptome analysis (miRNA and mRNA-seq) of salmon testis at three stages of development: an immature, long-term quiescent stage, a prepubertal stage just before, and a pubertal stage just after the onset of single cell proliferation activity in the testis. Results Differentially expressed miRNAs clustered into 5 distinct expression profiles related to the immature, prepubertal and pubertal salmon testis. Potential mRNA targets of these miRNAs were predicted with miRmap and filtered for mRNAs displaying negatively correlated expression patterns. In summary, this analysis revealed miRNAs previously known to be regulated in immature vertebrate testis (miR-101, miR-137, miR-92b, miR-18a, miR-20a), but also miRNAs first reported here as regulated in the testis (miR-new289, miR-30c, miR-724, miR-26b, miR-new271, miR-217, miR-216a, miR-135a, miR-new194 and the novel predicted n268). By KEGG enrichment analysis, progesterone signaling and cell cycle pathway genes were found regulated by these differentially expressed miRNAs. During the transition into puberty we found differential expression of miRNAs previously associated (let7a/b/c), or newly associated (miR-15c, miR-2184, miR-145 and the novel predicted n7a and b) with this stage. KEGG enrichment analysis revealed that mRNAs of the Wnt, Hedgehog and Apelin signaling pathways were potential regulated targets during the transition into puberty. Likewise, several regulated miRNAs in the pubertal stage had earlier been associated (miR-20a, miR-25, miR-181a, miR-202, let7c/d/a, miR-125b, miR-222a/b, miR-190a) or have now been found connected (miR-2188, miR-144, miR-731, miR-8157 and the novel n2) to the initiation of puberty. Conclusions This study has - for the first time - linked testis maturation to specific miRNAs and their inversely correlated expressed targets in Atlantic salmon. The study indicates a broad functional conservation of already known miRNAs and associated pathways involved in the transition into puberty in vertebrates. The analysis also reveals miRNAs not previously associated with testis tissue or its maturation, which calls for further functional studies in the testis. Electronic supplementary material The online version of this article (10.1186/s12864-017-4205-5) contains supplementary material, which is available to authorized users.
- Published
- 2017
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