AUTHOR=Ayyadevara Srinivas , Tazearslan Çagdas , Alla Ramani , Jiang James C. , Jazwinski S. Michal , Shmookler Reis Robert J. 

TITLE=Rec-8 dimorphism affects longevity, stress resistance and X-chromosome nondisjunction in C. elegans, and replicative lifespan in S. cerevisiae

JOURNAL=Frontiers in Genetics

VOLUME=5

YEAR=2014

URL=https://www.frontiersin.org/journals/genetics/articles/10.3389/fgene.2014.00211

DOI=10.3389/fgene.2014.00211

ISSN=1664-8021

ABSTRACT=<p>A quantitative trait locus (QTL) in the nematode <italic>C. elegans</italic>, “<italic>lsq4</italic>,” was recently implicated by mapping longevity genes. QTLs for lifespan and three stress-resistance traits coincided within a span of &lt;300 kbp, later narrowed to &lt;200 kbp. A single gene in this interval is now shown to modulate all <italic>lsq4</italic>-associated traits. Full-genome analysis of transcript levels indicates that <italic>lsq4</italic> contains a dimorphic gene governing the expression of many sperm-specific genes, suggesting an effect on spermatogenesis. Quantitative analysis of allele-specific transcripts encoded within the <italic>lsq4</italic> interval revealed significant, 2- to 15-fold expression differences for 10 of 33 genes. Fourteen “dual-candidate” genes, implicated by both position and expression, were tested for RNA-interference effects on QTL-linked traits. In a strain carrying the shorter-lived allele, knockdown of <italic>rec-8</italic> (encoding a meiotic cohesin) reduced its transcripts 4-fold, to a level similar to the longer-lived strain, while extending lifespan 25–26%, whether begun before fertilization or at maturity. The short-lived <italic>lsq4</italic> allele also conferred sensitivity to oxidative and thermal stresses, and lower male frequency (reflecting X-chromosome non-disjunction), traits reversed uniquely by <italic>rec-8</italic> knockdown. A strain bearing the longer-lived <italic>lsq4</italic> allele, differing from the short-lived strain at &lt;0.3% of its genome, derived no lifespan or stress-survival benefit from <italic>rec-8</italic> knockdown. We consider two possible explanations: high <italic>rec-8</italic> expression may include increased “leaky” expression in mitotic cells, leading to deleterious destabilization of somatic genomes; or REC-8 may act entirely in germ-line meiotic cells to reduce aberrations such as non-disjunction, thereby blunting a stress-resistance response mediated by innate immunity. Replicative lifespan was extended 20% in haploid <italic>S. cerevisiae</italic> (BY4741) by deletion of <italic>REC8</italic>, orthologous to nematode <italic>rec-8</italic>, implying that REC8 disruption of mitotic-cell survival is widespread, exemplifying antagonistic pleiotropy (opposing effects on lifespan vs. reproduction), and/or balancing selection wherein genomic disruption increases genetic variation under harsh conditions.</p>