Spontaneous and ART-induced large offspring syndrome: similarities and differences in DNA methylome.
Yahan LiJordana S LopesPilar CoyRocío Melissa RiveraPublished in: Epigenetics (2022)
Large/abnormal offspring syndrome (LOS/AOS) is a congenital overgrowth syndrome reported in ruminants produced by assisted reproduction (ART-LOS) which exhibit global disruption of the epigenome and transcriptome. LOS/AOS shares phenotypes and epigenotypes with the human congenital overgrowth condition Beckwith-Wiedemann syndrome. We have reported that LOS occurs spontaneously (SLOS); however, to date, no study has been conducted to determine if SLOS has the same methylome epimutations as ART-LOS. In this study, we performed whole-genome bisulphite sequencing to examine global DNA methylation in bovine SLOS and ART-LOS tissues. We observed unique patterns of global distribution of differentially methylated regions (DMRs) over different genomic contexts, such as promoters, CpG Islands, shores and shelves, as well as at repetitive sequences. In addition, we included data from two previous LOS studies to identify shared vulnerable genomic loci in LOS. Overall, we identified 320 genomic loci in LOS that have alterations in DNA methylation when compared to controls. Specifically, there are 25 highly vulnerable loci that could potentially serve as molecular markers for the diagnosis of LOS, including at the promoters of DMRT2 and TBX18 , at the imprinted gene bodies of IGF2R, PRDM8 , and BLCAP/NNAT , and at multiple CpG Islands. We also observed tissue-specific DNA methylation patterns between muscle and blood, and conservation of ART-induced DNA methylation changes between muscle and blood. We conclude that as ART-LOS, SLOS is an epigenetic condition. In addition, SLOS and ART-LOS share similarities in methylome epimutations.
Keyphrases
- dna methylation
- genome wide
- gene expression
- copy number
- hiv infected
- antiretroviral therapy
- case report
- endothelial cells
- skeletal muscle
- high fat diet
- adipose tissue
- oxidative stress
- high glucose
- cell proliferation
- single molecule
- cell free
- signaling pathway
- insulin resistance
- high resolution
- artificial intelligence
- binding protein
- stress induced
- genome wide association