(Press-News.org)
Osaka, Japan – Changes in genes have been linked to the development of different diseases for a while. However, it’s not exactly clear what the mechanisms, or the causes behind those specific genetic changes, are. Recent studies using fission yeast, which can act as an ideal model for human cells, have highlighted one possible mechanism linked to disease onset.
In a study recently published in Nucleic Acids Research, researchers from The University of Osaka discovered that the loss of heterochromatin can kickstart genetic changes, potentially resulting in the development of diseases like cancer.
The model showed that RNA-loops (R-loops) accumulate at clusters of repetitive DNA called pericentromeric repeats in response to a process called transcriptional pausing–backtracking–restart (PBR). These accumulated R-loops are then changed into Annealing-induced DNA-RNA-loops (ADR-loops), leading to gross chromosomal rearrangements (GCRs) at constricted parts of a chromosome.
“Previously, we showed that loss of Clr4, the H3K9me2/3 methyltransferase, or its regulatory protein Rik1, increased transcription and abnormal chromosome formation in fission yeast,” explains lead author, Ran Xu. “However, the molecular link between transcription dynamics and GCRs remains poorly defined.”
Heterochromatin forms at pericentromeric repeats. Previous research showed that heterochromatin could prevent GCRs at centromeres by blocking pericentromeric transcription. However, the present study expanded on past findings by providing insights into the mechanism by which GCRs are generated, including through pericentromeric transcription.
The researchers demonstrated that loss of Clr4 can spark an increase in R-loop levels at pericentromeric repeats. After overexpressing the enzyme RNase H1 in cells lacking the clr4 gene, the research team observed reductions in both R-loops and GCRs.
Further experiments highlighted the importance of Tfs1/TFIIS and Ubp3, which are necessary to restart transcription, in R-loop accumulation and GCRs. In cells lacking Clr4, a type of protein called Rad52 built up at pericentromeric repeats. This promoted the development of GCRs, and cells carrying a mutated version of this protein had fewer GCRs because single-strand annealing (SSA), a DNA repair process, was inhibited.
“These data suggest that, when heterochromatin is lost, transcriptional PBR cycles accumulate R-loops at pericentromeric repeats, and Rad52-dependent single-stand annealing converts R-loops into ADR-loops followed by Polδ-dependent break-induced replication (BIR), encouraging GCRs related to disease,” concluded Xu.
This study could have key insights for treating genetic diseases caused by GCRs, like cancer. Although further research is needed to translate these findings into human applications, drugs targeting Rad52 or other genes and proteins involved in GCR accumulation might emerge as key disease treatments.
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The article, “Transcriptional PBR cycles at pericentromeric repeats cause gross chromosomal rearrangements through Rad52-dependent ADR-loop formation,” was published in Nucleic Acids Research at DOI: https://doi.org/10.1093/nar/gkaf1455
About The University of Osaka
The University of Osaka was founded in 1931 as one of the seven imperial universities of Japan and is now one of Japan's leading comprehensive universities with a broad disciplinary spectrum. This strength is coupled with a singular drive for innovation that extends throughout the scientific process, from fundamental research to the creation of applied technology with positive economic impacts. Its commitment to innovation has been recognized in Japan and around the world. Now, The University of Osaka is leveraging its role as a Designated National University Corporation selected by the Ministry of Education, Culture, Sports, Science and Technology to contribute to innovation for human welfare, sustainable development of society, and social transformation.
Website: https://resou.osaka-u.ac.jp/en
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