Testicular transcriptome analysis under the dietary inclusion of l-carnitine reveals potential key genes associated with oxidative defense and the semen quality factor in aging roosters

l-carnitine (LC) has been widely studied as a natural antioxidant molecule for treating low-fertility gametes. However, the molecular mechanism of the effect of LC supplementation on the testes of aging cocks has not been evaluated. Therefore, the objective of this study was to reveal the mechanism...

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Bibliographic Details
Published in:Domestic animal endocrinology 2021-01, Vol.74, p.106573, Article 106573
Main Authors: Elokil, A.A., Abouzaid, M., Magdy, M., Xiao, T., Liu, H., Xu, R., Li, S.
Format: Article
Language:English
Subjects:
Aging cock
Antioxidant
L-carnitine
RNA-Seq
Semen
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Summary:l-carnitine (LC) has been widely studied as a natural antioxidant molecule for treating low-fertility gametes. However, the molecular mechanism of the effect of LC supplementation on the testes of aging cocks has not been evaluated. Therefore, the objective of this study was to reveal the mechanism of testicular oxidative defense induced by LC supplementation in relation to the semen quality factor (SQF) in the aging cock through a transcriptome study conducted from a new perspective. A total of 24 Jinghong cocks at 55 wk of age were randomly divided into 2 groups (n = 12). All cocks were fed a standard isocaloric and isonitrogenic breeder diet (control, LC-0), and the other group was supplemented with LC at 150 mg/kg/d (treated, LC-150) for 12 wk. Remarkably, seminal characteristics and enzymes, sex hormones, and cock fertility related to testicular oxidative defense were considerably improved by LC supplementation. LC-150 testes showed the differential upregulation and downregulation of 97 and 90 transcripts, respectively, compared with LC-0 testes. Most upregulated transcripts were involved in testicular oxidative defense and spermiogenesis optimization, whereas the downregulated genes were responsible for oxidative stress, in contrast to the SQF. Functional analysis of the transcriptionally altered genes indicated the testicular deregulation of long-chain fatty acid and lipid peroxidation, enhancing fatty acid breakdown to release ATP production via β-oxidation. These findings could lay the foundation for the discovery of new molecular markers of SQF-associated LC supplementation and potential targets for therapeutic intervention to optimize fertility in aging cocks. ▪ •l-carnitine (LC) enhances testicular oxidative defense in aging cocks.•LC improves semen quality factor (SQF) and cock's fertility.•Transcriptome analysis under the influence of LC revealed changes of genes associated with SQF.•Functional analysis of the transcriptionally altered genes released ATP production by β-oxidation.•Findings could represent the basis for discovering new molecular marker of SQF-associated LC supplementation.
ISSN:0739-7240
1879-0054
DOI:10.1016/j.domaniend.2020.106573