Your search keyword '"Stirzaker C"' showing total 3 results

1. Replication timing and epigenome remodelling are associated with the nature of chromosomal rearrangements in cancer

Author

Du, Q., Bert, S.A., Armstrong, N.J., Caldon, C.E., Song, J.Z., Nair, S.S., Gould, C.M., Luu, P-L, Peters, T., Khoury, A., Qu, W., Zotenko, E., Stirzaker, C., Clark, S.J., Du, Q., Bert, S.A., Armstrong, N.J., Caldon, C.E., Song, J.Z., Nair, S.S., Gould, C.M., Luu, P-L, Peters, T., Khoury, A., Qu, W., Zotenko, E., Stirzaker, C., and Clark, S.J.

Abstract

DNA replication timing is known to facilitate the establishment of the epigenome, however, the intimate connection between replication timing and changes to the genome and epigenome in cancer remain largely uncharacterised. Here, we perform Repli-Seq and integrated epigenome analyses and demonstrate that genomic regions that undergo long-range epigenetic deregulation in prostate cancer also show concordant differences in replication timing. A subset of altered replication timing domains are conserved across cancers from different tissue origins. Notably, late-replicating regions in cancer cells display a loss of DNA methylation, and a switch in heterochromatin features from H3K9me3-marked constitutive to H3K27me3-marked facultative heterochromatin. Finally, analysis of 214 prostate and 35 breast cancer genomes reveal that late-replicating regions are prone to cis and early-replication to trans chromosomal rearrangements. Together, our data suggests that the nature of chromosomal rearrangement in cancer is related to the spatial and temporal positioning and altered epigenetic states of early-replicating compared to late-replicating loci.

Published

2019

2. Acetylated histone variant H2A.Z is involved in the activation of neo-enhancers in prostate cancer

Author

Valdés-Mora, F., Gould, C.M., Colino-Sanguino, Y., Qu, W., Song, J.Z., Taylor, K.M., Buske, F.A., Statham, A.L., Nair, S.S., Armstrong, N.J., Kench, J.G., Lee, K.M.L., Horvath, L.G., Qiu, M., Ilinykh, A., Yeo-Teh, N.S., Gallego-Ortega, D., Stirzaker, C., Clark, S.J., Valdés-Mora, F., Gould, C.M., Colino-Sanguino, Y., Qu, W., Song, J.Z., Taylor, K.M., Buske, F.A., Statham, A.L., Nair, S.S., Armstrong, N.J., Kench, J.G., Lee, K.M.L., Horvath, L.G., Qiu, M., Ilinykh, A., Yeo-Teh, N.S., Gallego-Ortega, D., Stirzaker, C., and Clark, S.J.

Abstract

Acetylation of the histone variant H2A.Z (H2A.Zac) occurs at active promoters and is associated with oncogene activation in prostate cancer, but its role in enhancer function is still poorly understood. Here we show that H2A.Zac containing nucleosomes are commonly redistributed to neo-enhancers in cancer resulting in a concomitant gain of chromatin accessibility and ectopic gene expression. Notably incorporation of acetylated H2A.Z nucleosomes is a pre-requisite for activation of Androgen receptor (AR) associated enhancers. H2A.Zac nucleosome occupancy is rapidly remodeled to flank the AR sites to initiate the formation of nucleosome-free regions and the production of AR-enhancer RNAs upon androgen treatment. Remarkably higher levels of global H2A.Zac correlate with poorer prognosis. Altogether these data demonstrate the novel contribution of H2A.Zac in activation of newly formed enhancers in prostate cancer.

Published

2017

3. Epigenetic-induced repression of microRNA-205 is associated with MED1 activation and a poorer prognosis in localized prostate cancer.

Author

Hulf, T, Sibbritt, T, Wiklund, E D, Patterson, K, Song, J Z, Stirzaker, C, Qu, W, Nair, S, Horvath, L G, Armstrong, N J, Kench, J G, Sutherland, R L, and Clark, S J

Subjects

PROSTATE cancer prognosis, MICRORNA, EPIGENETICS, CARCINOGENESIS, GENE targeting, BIOMARKERS, CONFIDENCE intervals

Abstract

Deregulation of microRNA (miRNA) expression can have a critical role in carcinogenesis. Here we show in prostate cancer that miRNA-205 (miR-205) transcription is commonly repressed and the MIR-205 locus is hypermethylated. LOC642587, the MIR-205 host gene of unknown function, is also concordantly inactivated. We show that miR-205 targets mediator 1 (MED1, also called TRAP220 and PPARBP) for transcriptional silencing in normal prostate cells, leading to reduction in MED1 mRNA levels, and in total and active phospho-MED1 protein. Overexpression of miR-205 in prostate cancer cells negatively affects cell viability, consistent with a tumor suppressor function. We found that hypermethylation of the MIR-205 locus was strongly related with a decrease in miR-205 expression and an increase in MED1 expression in primary tumor samples (n=14), when compared with matched normal prostate (n=7). An expanded patient cohort (tumor n=149, matched normal n=30) also showed significant MIR-205 DNA methylation in tumors compared with normal, and MIR-205 hypermethylation is significantly associated with biochemical recurrence (hazard ratio=2.005, 95% confidence interval (1.109, 3.625), P=0.02), in patients with low preoperative prostate specific antigen. In summary, these results suggest that miR-205 is an epigenetically regulated tumor suppressor that targets MED1 and may provide a potential biomarker in prostate cancer management. [ABSTRACT FROM AUTHOR]

Published

2013