Classification of Philadelphia-Negative MPN As Low Risk and High Risk MPN Based on Peripheral Blood Values and Molecular Genetics Only

Background: Philadelphia-negative myeloproliferative neoplasms (Ph -MPN) are characterized by overproduction of differentiated hematopoietic cells mediated in the majority of cases by mutations in JAK2, MPL or CALR (MPN driver genes). Ph - MPN include polycythemia vera (PV), essential thrombocythemi...

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Published in:Blood 2023-11, Vol.142 (Supplement 1), p.3184-3184
Main Authors: Huber, Sandra, Hoermann, Gregor, Meggendorfer, Manja, Hutter, Stephan, Baer, Constance Regina, Kern, Wolfgang, Haferlach, Torsten, Haferlach, Claudia
Format: Article
Language:English
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Summary:Background: Philadelphia-negative myeloproliferative neoplasms (Ph -MPN) are characterized by overproduction of differentiated hematopoietic cells mediated in the majority of cases by mutations in JAK2, MPL or CALR (MPN driver genes). Ph - MPN include polycythemia vera (PV), essential thrombocythemia (ET), primary myelofibrosis (PMF) and MPN, unclassifiable (MPN-U) which differ in clinical presentation, prognosis, fibrosis and leukemic transformation rate as well as therapeutic options. However, WHO based classification requires experienced pathologists, in particular to diagnose prefibrotic PMF as high risk MPN, and thus remains observer dependent. Aim: Observer independent classification of Ph - MPN solely based on molecular genetics and peripheral blood (PB) parameters. Patients and Methods: We analyzed 267 Ph - MPN cases diagnosed as ET (n=76), PV (n=74), PMF (n=68) or MPN-U (n=49) following the WHO4R classification including only patients with an MPN driver mutation (median age: 68 years [22-91]; female: 41%; median follow-up: 5 years). All samples were analyzed by cytomorphology and whole genome sequencing (median coverage 100x). Mutation status of 20 genes associated with myeloid malignancies were analyzed in detail. Results: Genomic landscape of the MPN cohort showed mutations in JAK2 in 222 (83%) (n=132: single mutation; n=90: either mutation and copy neutral loss of heterozygosity or mutation and 9p gain), in CALR in 36 (14%), and in MPL in 9 (3%) patients. The median number of mutations per patient was two (range: 1-6). Within the cohort, 141 patients (53%) harbored MPN driver mutations only, while in 126 (47%) one to 5 additional mutations were found. The most frequent additional mutations were ASXL1 (n=50), TET2 (n=49; thereof 15 biallelic), SRSF2 (n=26), DNMT3A (n=18), U2AF1 (n=11) and TP53 (n=9; thereof 3 biallelic). Regarding PB parameters, high WBC (≥11×10 9/ L) were detected in 127 patients (48%), high PLT (≥450×10 9/ L) in 116 (43%) and anemia (HB 1% (n=57; HR: 1.904) showed significant associations with OS (for all p
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2023-174872