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W4386021420 endingPage "115391" @default.
W4386021420 startingPage "115391" @default.
W4386021420 abstract "Cardiac hypertrophy, a kind of cardiomyopathic abnormality, might trigger heart contractile and diastolic dysfunction, and even heart failure. Currently, bisphenols (BPs) including bisphenol A (BPA), and its alternatives bisphenol AF (BPAF), bisphenol F (BPF) and bisphenol S (BPS) are ubiquitously applied in various products and potentially possess high cardiovascular risks for humans. However, the substantial experimental evidences of BPs on heart function, and their structure-related effects on cardiomyocyte hypertrophy are still urgently needed. DNA methylation, a typical epigenetics, play key roles in BPs-induced transcription dysregulation, thereby affecting human health including cardiovascular system. Thus, in this study, we performed RNA-seq and reduced representation bisulfite sequencing (RRBS) to profile the landscapes of BPs-induced cardiotoxicity and to determine the key roles of DNA methylation in the transcription. Further, the capabilities of three BPA analogues, together with BPA, in impacting heart function and changing DNA methylation and transcription were compared. We concluded that similar to BPA, BPAF, BPF and BPS exposure deteriorated heart function in a mouse model, and induced cardiomyocyte hypertrophy in a H9c2 cell line. BPAF, BPF and BPS all played BPA-like roles in both transcriptive and methylated hierarchies. Moreover, we validated the expression levels of four cardiomyocyte hypertrophy related candidate genes, Psmc1, Piptnm2, Maz and Dusp18, which were all upregulated and with DNA hypomethylation. The findings on the induction of BPA analogues on cardiomyocyte hypertrophy and DNA methylation revealed their potential detrimental risks in heart function of humans." @default.
W4386021420 created "2023-08-22" @default.
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W4386021420 date "2023-09-01" @default.
W4386021420 modified "2023-09-26" @default.
W4386021420 title "Integrative analysis of DNA methylome and transcriptome reveals epigenetic regulation of bisphenols-induced cardiomyocyte hypertrophy" @default.
W4386021420 cites W1572421661 @default.
W4386021420 cites W1766272298 @default.
W4386021420 cites W1771974095 @default.
W4386021420 cites W1895000577 @default.
W4386021420 cites W1965770177 @default.
W4386021420 cites W1980870904 @default.
W4386021420 cites W2011868056 @default.
W4386021420 cites W2015038318 @default.
W4386021420 cites W2049907774 @default.
W4386021420 cites W2060009752 @default.
W4386021420 cites W2063664389 @default.
W4386021420 cites W2067507708 @default.
W4386021420 cites W2075403303 @default.
W4386021420 cites W2079593152 @default.
W4386021420 cites W2094060001 @default.
W4386021420 cites W2106564874 @default.
W4386021420 cites W2106773760 @default.
W4386021420 cites W2107277218 @default.
W4386021420 cites W2108234281 @default.
W4386021420 cites W2128159575 @default.
W4386021420 cites W2131374955 @default.
W4386021420 cites W2140504604 @default.
W4386021420 cites W2150194502 @default.
W4386021420 cites W2155270180 @default.
W4386021420 cites W2163044427 @default.
W4386021420 cites W2168384786 @default.
W4386021420 cites W2174025948 @default.
W4386021420 cites W2270028395 @default.
W4386021420 cites W2346529285 @default.
W4386021420 cites W2496036667 @default.
W4386021420 cites W2517275410 @default.
W4386021420 cites W2547645843 @default.
W4386021420 cites W2619672561 @default.
W4386021420 cites W2738481576 @default.
W4386021420 cites W2766317655 @default.
W4386021420 cites W2769399082 @default.
W4386021420 cites W2771033075 @default.
W4386021420 cites W2799410199 @default.
W4386021420 cites W2803287045 @default.
W4386021420 cites W2890070428 @default.
W4386021420 cites W2893290400 @default.
W4386021420 cites W2906801617 @default.
W4386021420 cites W2921384060 @default.
W4386021420 cites W2938785189 @default.
W4386021420 cites W2941547009 @default.
W4386021420 cites W2946275766 @default.
W4386021420 cites W2966419536 @default.
W4386021420 cites W2973893481 @default.
W4386021420 cites W2995421246 @default.
W4386021420 cites W2999022117 @default.
W4386021420 cites W3002250212 @default.
W4386021420 cites W3004784150 @default.
W4386021420 cites W3009864904 @default.
W4386021420 cites W3010060875 @default.
W4386021420 cites W3022725247 @default.
W4386021420 cites W3047292098 @default.
W4386021420 cites W3083662059 @default.
W4386021420 cites W3111253004 @default.
W4386021420 cites W3111571140 @default.
W4386021420 cites W3128551731 @default.
W4386021420 cites W3134699842 @default.
W4386021420 cites W3146898398 @default.
W4386021420 cites W3147556802 @default.
W4386021420 cites W3164819940 @default.
W4386021420 cites W3168958685 @default.
W4386021420 cites W3196847228 @default.
W4386021420 cites W3197592599 @default.
W4386021420 cites W3198450109 @default.
W4386021420 cites W4200406017 @default.
W4386021420 cites W4221044443 @default.
W4386021420 cites W4292756665 @default.
W4386021420 cites W4362521921 @default.
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W4386021420 doi "https://doi.org/10.1016/j.ecoenv.2023.115391" @default.
W4386021420 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37611474" @default.
W4386021420 hasPublicationYear "2023" @default.
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