Recurrent deletions in clonal hematopoiesis are driven by microhomology-mediated end joining

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作者
Tzah Feldman
Akhiad Bercovich
Yoni Moskovitz
Noa Chapal-Ilani
Amanda Mitchell
Jessie J. F. Medeiros
Tamir Biezuner
Nathali Kaushansky
Mark D. Minden
Vikas Gupta
Michael Milyavsky
Zvi Livneh
Amos Tanay
Liran I. Shlush
机构
[1] Weizmann Institute of Science,Department of Immunology
[2] Weizmann Institute of Science,Department of Computer Science and Applied Mathematics
[3] University Health Network (UHN),Princess Margaret Cancer Centre
[4] University of Toronto,Department of Molecular Genetics
[5] University of Toronto,Department of Medical Biophysics
[6] University of Toronto,Department of Medicine
[7] University Health Network,Division of Medical Oncology and Hematology
[8] Tel-Aviv University,Department of Pathology
[9] Tel-Aviv University,Sackler Faculty of Medicine
[10] Weizmann Institute of Science,Department of Biomolecular Sciences
[11] Rambam Healthcare Campus,Division of Hematology
来源
Nature Communications | / 12卷
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摘要
The mutational mechanisms underlying recurrent deletions in clonal hematopoiesis are not entirely clear. In the current study we inspect the genomic regions around recurrent deletions in myeloid malignancies, and identify microhomology-based signatures in CALR, ASXL1 and SRSF2 loci. We demonstrate that these deletions are the result of double stand break repair by a PARP1 dependent microhomology-mediated end joining (MMEJ) pathway. Importantly, we provide evidence that these recurrent deletions originate in pre-leukemic stem cells. While DNA polymerase theta (POLQ) is considered a key component in MMEJ repair, we provide evidence that pre-leukemic MMEJ (preL-MMEJ) deletions can be generated in POLQ knockout cells. In contrast, aphidicolin (an inhibitor of replicative polymerases and replication) treatment resulted in a significant reduction in preL-MMEJ. Altogether, our data indicate an association between POLQ independent MMEJ and clonal hematopoiesis and elucidate mutational mechanisms involved in the very first steps of leukemia evolution.
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