Integration of human papillomavirus(HPV)DNA into the human genome is a reputed key driver of cervical cancer.However,the effects of HPV integration on chromatin structural organization and gene expression are largely ...Integration of human papillomavirus(HPV)DNA into the human genome is a reputed key driver of cervical cancer.However,the effects of HPV integration on chromatin structural organization and gene expression are largely unknown.We studied a cohort of 61 samples and identified an integration hot spot in the CCDC106 gene on chromosome 19.We then selected fresh cancer tissue that contained the unique integration loci at CCDC106 with no HPV episomal DNA and performed whole-genome,RNA,chromatin immunoprecipitation and high-throughput chromosome conformation capture(Hi-C)sequencing to identify the mechanisms of HPV integration in cervical carcinogenesis.Molecular analyses indicated that chromosome 19 exhibited significant genomic variation and differential expression densities,with correlation found between three-dimensional(3D)structural change and gene expression.Importantly,HPV integration divided one topologically associated domain(TAD)into two smaller TADs and hijacked an enhancer from PEG3 to CCDC106,with a decrease in PEG3 expression and an increase in CCDC106 expression.This expression dysregulation was further confirmed using 10 samples from our cohort,which exhibited the same HPV-CCDC106 integration.In summary,we found that HPV-CCDC106 integration altered local chromosome architecture and hijacked an enhancer via 3D genome structure remodeling.Thus,this study provides insight into the 3D structural mechanism underlying HPV integration in cervical carcinogenesis.展开更多
基金supported by the National Natural Science Foundation of China(81630060 to P.W.,31771402 to G.L.,81830074 and 81772786 to H.W.,81572569 to G.C.,and 81772775 to J.W.)National Science and Technology Major Project(2019YFC1005202 and 2019YFC1005201 to K.L.,and 2018ZX10301402-002 to Q.G.)the research-oriented clinician funding program of Tongji Medical College,Huazhong University of Science and Technology for P.W
文摘Integration of human papillomavirus(HPV)DNA into the human genome is a reputed key driver of cervical cancer.However,the effects of HPV integration on chromatin structural organization and gene expression are largely unknown.We studied a cohort of 61 samples and identified an integration hot spot in the CCDC106 gene on chromosome 19.We then selected fresh cancer tissue that contained the unique integration loci at CCDC106 with no HPV episomal DNA and performed whole-genome,RNA,chromatin immunoprecipitation and high-throughput chromosome conformation capture(Hi-C)sequencing to identify the mechanisms of HPV integration in cervical carcinogenesis.Molecular analyses indicated that chromosome 19 exhibited significant genomic variation and differential expression densities,with correlation found between three-dimensional(3D)structural change and gene expression.Importantly,HPV integration divided one topologically associated domain(TAD)into two smaller TADs and hijacked an enhancer from PEG3 to CCDC106,with a decrease in PEG3 expression and an increase in CCDC106 expression.This expression dysregulation was further confirmed using 10 samples from our cohort,which exhibited the same HPV-CCDC106 integration.In summary,we found that HPV-CCDC106 integration altered local chromosome architecture and hijacked an enhancer via 3D genome structure remodeling.Thus,this study provides insight into the 3D structural mechanism underlying HPV integration in cervical carcinogenesis.
基金This work was supported by funds from the National Basic Research Program of China (973 Program, No. 2015CB553903 to Ding Ma and No. 2013CB911304 to Hui Wang), the National Science- technology Supporting Plan Projects (No. 2015BAI13B05), Chinese National Key Plan of Precision Medicine Research (No. 2016YFC0902901), and the National Natural Science Foundation of China (Nos. 81402158, 81472783, 81230038, 81630060, 81372805, and 81761148025), Guangzhou Science and Technology Programme (No. 201605131139145) the Fundamental Research Funds for the Central Universities (No. 17ykzdl5) and Three Big Constructions--Supercomputing Appication Cultivation Projects sponsored by National Supercomputer Center in Guangzhou.