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A microRNA feedback loop regulates global microRNA abundance during aging.


ABSTRACT: Expression levels of many microRNAs (miRNAs) change during aging, notably declining globally in a number of organisms and tissues across taxa. However, little is known about the mechanisms or the biological relevance for this change. We investigated the network of genes that controls miRNA transcription and processing during C. elegans aging. We found that miRNA biogenesis genes are highly networked with transcription factors and aging-associated miRNAs. In particular, miR-71, known to influence life span and itself up-regulated during aging, represses alg-1/Argonaute expression post-transcriptionally during aging. Increased ALG-1 abundance in mir-71 loss-of-function mutants led to globally increased miRNA expression. Interestingly, these mutants demonstrated widespread mRNA expression dysregulation and diminished levels of variability both in gene expression and in overall life span. Thus, the progressive molecular decline often thought to be the result of accumulated damage over an organism's life may be partially explained by a miRNA-directed mechanism of age-associated decline.

SUBMITTER: Inukai S 

PROVIDER: S-EPMC5769744 | biostudies-literature | 2018 Feb

REPOSITORIES: biostudies-literature

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A microRNA feedback loop regulates global microRNA abundance during aging.

Inukai Sachi S   Pincus Zachary Z   de Lencastre Alexandre A   Slack Frank J FJ  

RNA (New York, N.Y.) 20171107 2


Expression levels of many microRNAs (miRNAs) change during aging, notably declining globally in a number of organisms and tissues across taxa. However, little is known about the mechanisms or the biological relevance for this change. We investigated the network of genes that controls miRNA transcription and processing during <i>C. elegans</i> aging. We found that miRNA biogenesis genes are highly networked with transcription factors and aging-associated miRNAs. In particular, miR-71, known to in  ...[more]

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