05 Dec ASH18: RNA Sequencing Identifies More Subtypes of Childhood Leukemia
MedicalResearch.com Interview with:
Charles G. Mullighan, MBBS (Hons), MSc, MD
Member, St. Jude Faculty
Co-Leader, Hematological Malignancies Program
Medical Director, St. Jude Biorepository
William E. Evans Endowed Chair
St. Judes Children’s Research Hospital
MedicalResearch.com: What is the background for this study?
Response: B-lineage acute lymphoblastic leukemia (B-ALL) is the commonest form of ALL, and the commonest childhood tumor. It is a leading cause of childhood cancer death. It consists of multiple subtypes defined by genetic alterations. These are often chromosomal translocations that deregulate oncogenes or form fusion proteins. These alterations are disease initiating events and are associated with distinct patterns of leukemic cell gene expression. Most subtypes also have additional mutations that are important for cells to become fully leukemic.
Identifying these initiating genetic changes is very important to identify patients that are likely to respond or do poorly with conventional therapy (multiagent chemotherapy). Also, some identify new opportunities for targeted therapy. However, using standard genetic testing approaches such as chromosomal cytogenetics, about 30% of B-ALL patients don’t have a subtype classifying alteration.
MedicalResearch.com: What are the main findings?
Response: In this study we used RNA-sequencing of almost 2000 childhood and adult ALL samples, and a range of computational approaches to identify gene rearrangements, fusions, expression and mutation. We identified 23 different subtypes of ALL. Many were not previously identified as the alterations are not apparent on conventional genetic analysis. Also, several subtypes have not one but several gene rearrangements with a single gene that define a single subtype. We also identified several new subtypes where the defining change was not a gene rearrangement but a single point mutation: PAX5 P80R and IKZF1 N159Y. We proved mutations can be leukemic by establishing a mouse model of PAX5 P80R using CRISPR/Cas9 genome editing. The mice developed leukemia that was very similar to human B-ALL.
The new subtypes often had profound associations with outcome. e.g. DUX4 rearrangements were associated with excellent outcome in adults, as well as we had shown in children. Cases with rearrangements of BCL2 and MYC had a dismal outcome.
MedicalResearch.com: What should readers take away from your report?
Response: Genomic analysis is now the standard of care for accurately identifying the range of subtypes of ALL. RNA-sequencing alone can be used to identify multiple different types of genomic alteration important in B-ALL. It is also suitable for use in clinical diagnostic labs.
MedicalResearch.com: What recommendations do you have for future research as a result of this work?
Response: Further work examining more older patients with leukemia; experimental studies examining how the new changes drive leukemia cell growth, and preclinical studies testing new agents in the new subtypes.
MedicalResearch.com: Is there anything else you would like to add?
Response: The study was a collaboration between St Jude, the Children’s Oncology Group, Eastern Cooperative Oncology Group (ECOG), The Alliance – Cancer and Leukemia Group B, and MD Anderson Cancer Center
The data are freely available. https://pecan.stjude.cloud/proteinpaint/study/PanALL
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Last Updated on December 5, 2018 by Marie Benz MD FAAD