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Literature DB >> 36266272

Proteogenomics refines the molecular classification of chronic lymphocytic leukemia.

Sophie A Herbst^1,2,3,4,5, Mattias Vesterlund⁶, Alexander J Helmboldt², Rozbeh Jafari⁶, Ioannis Siavelis⁶, Matthias Stahl⁶, Eva C Schitter¹, Nora Liebers^1,2,3,4, Berit J Brinkmann^1,2,3,5,7, Felix Czernilofsky¹, Tobias Roider^1,2,3, Peter-Martin Bruch^1,2,3, Murat Iskar⁸, Adam Kittai⁹, Ying Huang⁹, Junyan Lu^2,3, Sarah Richter¹, Georgios Mermelekas⁶, Husen Muhammad Umer⁶, Mareike Knoll¹, Carolin Kolb¹, Angela Lenze¹, Xiaofang Cao⁶, Cecilia Österholm¹⁰, Linus Wahnschaffe¹¹, Carmen Herling¹¹, Sebastian Scheinost⁴, Matthias Ganzinger¹², Larry Mansouri¹⁰, Katharina Kriegsmann¹, Mark Kriegsmann¹³, Simon Anders¹⁴, Marc Zapatka⁸, Giovanni Del Poeta¹⁵, Antonella Zucchetto¹⁶, Riccardo Bomben¹⁶, Valter Gattei¹⁶, Peter Dreger¹, Jennifer Woyach⁹, Marco Herling¹¹, Carsten Müller-Tidow^1,2,3, Richard Rosenquist^10,17, Stephan Stilgenbauer¹⁸, Thorsten Zenz^4,19, Wolfgang Huber^2,3, Eugen Tausch¹⁸, Janne Lehtiö²⁰, Sascha Dietrich^{21,22,23,24,25}.

Abstract

Cancer heterogeneity at the proteome level may explain differences in therapy response and prognosis beyond the currently established genomic and transcriptomic-based diagnostics. The relevance of proteomics for disease classifications remains to be established in clinically heterogeneous cancer entities such as chronic lymphocytic leukemia (CLL). Here, we characterize the proteome and transcriptome alongside genetic and ex-vivo drug response profiling in a clinically annotated CLL discovery cohort (n = 68). Unsupervised clustering of the proteome data reveals six subgroups. Five of these proteomic groups are associated with genetic features, while one group is only detectable at the proteome level. This new group is characterized by accelerated disease progression, high spliceosomal protein abundances associated with aberrant splicing, and low B cell receptor signaling protein abundances (ASB-CLL). Classifiers developed to identify ASB-CLL based on its characteristic proteome or splicing signature in two independent cohorts (n = 165, n = 169) confirm that ASB-CLL comprises about 20% of CLL patients. The inferior overall survival in ASB-CLL is also independent of both TP53- and IGHV mutation status. Our multi-omics analysis refines the classification of CLL and highlights the potential of proteomics to improve cancer patient stratification beyond genetic and transcriptomic profiling.

Entities: Chemical

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Year: 2022 PMID： 36266272 PMCID： PMC9584885 DOI： 10.1038/s41467-022-33385-8

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 17.694

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