Abstract
Aging is a major risk factor of numerous human diseases. Adverse genetic variants may contribute to multiple manifestations of aging and increase the number of comorbid conditions. There is evidence of links between hypertension and age-related diseases, although the genetic relationships are insufficiently studied. Here, we investigated the contribution of hypertension to the development of accelerated-senescence syndrome in OXYS rats. We compared transcriptome sequences of the prefrontal cortex, hippocampus, and retina of OXYS rats with the genotypes of 45 rat strains and substrains (which include models with hypertension) to find single-nucleotide polymorphisms (SNPs) both associated with hypertension and possibly contributing to the development of age-related diseases. A total of 725 polymorphisms were common between OXYS rats and one or more hypertensive rat strains/substrains being analyzed. Multidimensional scaling detected significant similarities between OXYS and ISIAH rat genotypes and significant differences between these strains and the other hypertensive rat strains/substrains. Nonetheless, similar sets of SNPs produce a different phenotype in OXYS and ISIAH rats depending on hypertension severity. We identified 13 SNPs causing nonsynonymous amino-acid substitutions having a deleterious effect on the structure or function of the corresponding proteins and four SNPs leading to functionally significant structural rearrangements of transcripts in OXYS rats. Among them, SNPs in genes Ephx1, Pla2r1, and Ccdc28b were identified as candidates responsible for the concomitant manifestation of hypertension and signs of accelerated aging in OXYS rats.
Highlights
Aging is a risk factor for many age-related diseases, but their risk depends on genetic factors, environmental conditions, lifestyle, and the presence of other pathologies
The purpose of the present study was to search for single-nucleotide polymorphisms (SNPs) both associated with moderate arterial hypertension and possibly contributing to the development of age-related diseases in OXYS rats
The list of these SNPs was compared with the genotypes of the other 45 rat strains and substrains, including 12 strains and substrains of hypertensive rats (FHH/EurMcwi, LH/MavRrrc, MHS/Gib, SBH/Ygl, SHR/OlaIpcv, SHRSP/Gla, SHR/NCrlPrin, SHR/NHsd, SHR/OlaIpcvPrin, SS/Jr, SS/JrHsdMcwi, and ISIAH/Icgn), 11 strains/substrains that commonly serve as a normotensive control (FHL/EurMcwi, LN/MavRrrc, LL/MavRrrc, MNS/Gib, SBN/Ygl, SR/Jr, WKY/N, WKY/Gla, WKY/NCrl, WKY/NHsd, and WAG/GSto-Icgn), and 22 rat strains/substrains often used as a control or experimental group in the studies on various pathological conditions unrelated to hypertension or aging (ACI/N, ACI/EurMcwi, BBDP/Wor, BN-Lx/Cub, BN-Lx/CubPrin, BN/SsN, BUF/N, DA/BklArbNsi, F334/N, F344/NHsd, F344/NCrl, SUO_F344, GK/Ox, LE/Stm [SOLiD], LEW/Crl, LEW/NCrlBR, LE/Stm [Illumina], M520/N, MR/N, WAG/Rij, WN/N, and Wistar/Icgn)
Summary
Aging is a risk factor for many age-related diseases, but their risk depends on genetic factors, environmental conditions, lifestyle, and the presence of other pathologies. More systematic investigation into the mechanisms of aging leading to multiple diseases is needed to identify the key nodes to target. There is strong evidence of the links between many age-related diseases and age-associated vascular dysfunction, no causal relationships are yet identified. Hypertension is one of the risk factors of many age-related diseases, and it affects 7% of adults
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
