Project description:Multi-omics analysis of ALT-positive neuroblastoma tumors

Project description:144 sample from individuals with ALT-positive neuroblastoma tumors, chip-seq sequencing

Project description:89 samples of individuals with ALT-positive neuroblastoma tumors, exome sequencing

Project description:63 samples of individuals with ALT-positive neuroblastoma tumors, high coverage whole genome sequencing

Project description:97 samples of individuals with ALT-positive neuroblastoma tumors, low coverage whole genome sequencing

Project description:238 samples from individuals with ALT-positive neuroblastoma tumors, high coverage whole genome sequencing

Project description:Telomerase-negative tumors can maintain telomere length by alternative lengthening of telomeres (ALT) but the mechanism of telomere maintenance in ALT cells is not well understood. A significant portion of the relapse Neuroblastoma (NB) tumors are positive for ALT which suggests better dissecting the ALT mechanism could provide novel therapeutic opportunities. TERRA RNA which is derived from the telomere ends is localized to telomeres in R-loop dependent manner and is essential for telomere maintenance. In the present study, we provide evidence that RNA modification at the N6 position of internal adenosine (m6A) in TERRA RNA by methyl transferase METTL3 is essential for telomere maintenance in ALT cells and loss of TERRA m6A/METTL3 leads to accumulation of DNA damage over telomere. Our data suggest that m6A modification in TERRA RNA is required for R-loop formation and telomere targeting of TERRA. We observed that R-loop enriched TERRA is abundantly m6A modified and m6A mediated recruitment of hnRNPA2B1 to TERRA RNA is essential for R-loop formation. Together our study suggests that m6A-mediated R-loop formation could be a widespread mechanism utilized by other chromatin-interacting lncRNAs. We also show treating ALT positive NB cells with small molecule METTL3 inhibitor leads to compromised telomere targeting of TERRA and accumulation of DNA damage over telomere, suggesting METTL3 inhibition could be a therapeutic opportunity for ALT positive NB.

Project description:Telomerase-negative tumors can maintain telomere length by alternative lengthening of telomeres (ALT) but the mechanism of telomere maintenance in ALT cells is not well understood. A significant portion of the relapse Neuroblastoma (NB) tumors are positive for ALT which suggests better dissecting the ALT mechanism could provide novel therapeutic opportunities. TERRA RNA which is derived from the telomere ends is localized to telomeres in R-loop dependent manner and is essential for telomere maintenance. In the present study, we provide evidence that RNA modification at the N6 position of internal adenosine (m6A) in TERRA RNA by methyl transferase METTL3 is essential for telomere maintenance in ALT cells and loss of TERRA m6A/METTL3 leads to accumulation of DNA damage over telomere. Our data suggest that m6A modification in TERRA RNA is required for R-loop formation and telomere targeting of TERRA. We observed that R-loop enriched TERRA is abundantly m6A modified and m6A mediated recruitment of hnRNPA2B1 to TERRA RNA is essential for R-loop formation. Together our study suggests that m6A-mediated R-loop formation could be a widespread mechanism utilized by other chromatin-interacting lncRNAs. We also show treating ALT positive NB cells with small molecule METTL3 inhibitor leads to compromised telomere targeting of TERRA and accumulation of DNA damage over telomere, suggesting METTL3 inhibition could be a therapeutic opportunity for ALT positive NB.

Project description:Telomerase-negative tumors can maintain telomere length by alternative lengthening of telomeres (ALT) but the mechanism of telomere maintenance in ALT cells is not well understood. A significant portion of the relapse Neuroblastoma (NB) tumors are positive for ALT which suggests better dissecting the ALT mechanism could provide novel therapeutic opportunities. TERRA RNA which is derived from the telomere ends is localized to telomeres in R-loop dependent manner and is essential for telomere maintenance. In the present study, we provide evidence that RNA modification at the N6 position of internal adenosine (m6A) in TERRA RNA by methyl transferase METTL3 is essential for telomere maintenance in ALT cells and loss of TERRA m6A/METTL3 leads to accumulation of DNA damage over telomere. Our data suggest that m6A modification in TERRA RNA is required for R-loop formation and telomere targeting of TERRA. We observed that R-loop enriched TERRA is abundantly m6A modified and m6A mediated recruitment of hnRNPA2B1 to TERRA RNA is essential for R-loop formation. Together our study suggests that m6A-mediated R-loop formation could be a widespread mechanism utilized by other chromatin-interacting lncRNAs. We also show treating ALT positive NB cells with small molecule METTL3 inhibitor leads to compromised telomere targeting of TERRA and accumulation of DNA damage over telomere, suggesting METTL3 inhibition could be a therapeutic opportunity for ALT positive NB.

Project description:In-depth analysis of the usefulness of single-sample metabolite/RNA extraction for multi-‘omics readout.