The roles of RNA m6A modification in disease mechanisms of high-risk neuroblastoma
Abstract
Epitranscriptomics involves covalent modifications of RNA bases, with N6-methyladenosine
(m6A) being one of the most abundant and functionally characterized. This modification
plays a key role in RNA metabolism, cellular differentiation, and DNA damage
response. Although m6A has been implicated in various cancers, its role in neuroblastoma
(NB) tumorigenesis remains largely unexplored. High-risk NB tumors are often
resistant to standard therapies, underscoring the need for novel treatment approaches. In
many high-risk NBs, the MYCN oncogene is amplified, promoting an undifferentiated
cell state associated with poor prognosis. Telomere maintenance is also predictive of
survival in NB, with some tumors maintaining long telomeres through a telomeraseindependent
process called alternative lengthening of telomeres (ALT), which is associated
with disease persistence and frequent relapses. In this thesis, we optimized an
m6A RNA-immunoprecipitation followed by sequencing (m6A-RIP-seq) method, allowing
us to create the first m6A profile of NB tumors using low-input RNA samples.
Applying m6A-RIP-seq in ALT-positive NB tumors, we uncovered an essential role for
m6A-modified TERRA RNA in telomere maintenance. Our results suggest that m6A
modification of TERRA RNA promotes its localization to telomeres in an hnRNPA2B1-
dependent manner, forming condensate-like structures critical for TERRA’s function in
ALT-positive NB. Furthermore, targeting the m6A methyltransferase METTL3, either
alone or in combination with other therapeutic agents, led to significant telomere damage
in ALT-positive NB cells. Additionally, we developed a novel MYCN-driven NB
model by differentiating human embryonic stem cells into trunk neural crest cells
(tNCCs) and then into sympathetic neurons. MYCN overexpression in this model recreated
the undifferentiated state characteristic of NB. Using this model, we found that
MYCN and m6A jointly regulate the progression from tNCCs to sympathoadrenal progenitor
cells. MYCN overexpression disrupted the expression of m6A-related genes,
contributing to an undifferentiated cell state as observed in NB. Analysis of the m6A
profile in MYCN-driven NB tumors revealed that m6A regulates key NB-specific
genes. Inhibiting METTL3 reversed the undifferentiated state induced by MYCN and
synergized with chemotherapy to reduce tumor volume in MYCN patient-derived xenografts
in vivo. In conclusion, our findings suggest that targeting the m6A epitranscriptome
could provide a promising therapeutic strategy for high-risk NB, particularly in
cases driven by ALT or MYCN amplification.
Parts of work
I. Vaid R*, Thombare K*, Mendez A, Burgos-Panadero R, Djos A, Jachimowicz D, Lundberg KI, Bartenhagen C, Kumar N, Tummler C, Sihlbom C, Fransson S, Johnsen, JI, Kogner P, Martinsson T, Fischer M, and Mondal T. METTL3 drives telomere targeting of TERRA lncRNA through m6A-dependent R-loop formation: a therapeutic target for ALT-positive neuroblastoma. Nucleic Acids Res, 2024. (* Co-first author) http://doi.org/10.1093/nar/gkad1242 II. Thombare K*, Vaid R*, Das S and Mondal T. Targeting m6A-mediated TERRA RNA condensates as a therapeutic strategy for ALT-positive neuroblastoma. Manuscript. (* Co-first author) III. Thombare K*, Vaid R*, Pucci P*, Lundberg KI, Ayyalusamy R, Baig MH, Mendez A, Burgos-Panadero R, Höppner S, Bartenhagen C, Sjövall D, Rehan AA, Nale SD, Djos A, Martinsson T, Jaako P, Dong JJ, Kogner P, Johnsen JI, Fischer M, Turner SD and Mondal T. METTL3/MYCN cooperation drives neural crest differentiation and provides therapeutic vulnerability in neuroblastoma. The EMBO Journal, 2024. (* Co-first author) http://doi.org/10.1038/s44318-024-00299-8 IV. Vaid R*, Thombare K*, Ayyalusamy R, Fischer M and Mondal T. Deciphering m6A-modified gene signatures in neuroblastoma subtypes: from identification to functional characterization. Manuscript. (* Co-first author)
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Biomedicine. Department of Laboratory Medicine
Disputation
Fredagen den 13 december 2024, kl. 13.00, Gösta Sandels, Medicinaregatan 9, Göteborg
Date of defence
2024-12-13
ketan.thombare@gu.se
Date
2024-11-21Author
Thombare, Ketan
Keywords
Neuroblastoma
m6A
alternative lengthening of telomeres
MYCN
METTL3
TERRA
hnRNPA2B1
trunk neural crest cells
sympathetic neurons
Publication type
Doctoral thesis
ISBN
978-91-8069-987-7 (PRINT)
978-91-8069-988-4 (PDF)
Language
eng