Wilms' Tumor 1 Functions As a Tumor Suppressor to Suppress FLT3-STAT Signaling and Epigenetic Remodeling in Acute Myeloid Leukemia (CALGB 8461, 9665 and 20202; Alliance)

The Wilms' Tumor 1 ( WT1) gene is a transcription factor that is recurrently mutated or commonly overexpressed in several cancer types. In acute myeloid leukemia (AML), frequent overexpression of WT1 and poor patient outcomes associated with WT1 mutations highlight its importance in the disease...

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Veröffentlicht in:Blood 2023-11, Vol.142 (Supplement 1), p.4126-4126
Hauptverfasser: Buelow, Daelynn, Yang, Xining, Nicolet, Deedra, Mrózek, Krzysztof, Krowiorz, Kathrin, Bhayadia, Raj, Stromatt, Jack, Denny, Anna, Wiegel, Christoph, Corbett, Colin, Abdelbaky, Salma, Xue, Yonger, Dong, Yizhou, Hui, Jeremy, Shad, Arshia, Gao, Sharon, Wu, Si Wei, van den Bosch, Marion, MacPhee, Liam, Escano, Leo, Blachly, James S., Kolitz, Jonathan E, Blum, William, Baer, Maria R., Klusmann, Jan-Henning, Eisfeld, Ann-Kathrin, Rouhi, Arefeh, Baker, Sharyn D., Kuchenbauer, Florian, Oakes, Christopher C.
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Sprache:eng
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Zusammenfassung:The Wilms' Tumor 1 ( WT1) gene is a transcription factor that is recurrently mutated or commonly overexpressed in several cancer types. In acute myeloid leukemia (AML), frequent overexpression of WT1 and poor patient outcomes associated with WT1 mutations highlight its importance in the disease; however, there are no tailored treatments for these patients. Furthermore, WT1's fundamental role as either an oncogene or tumor-suppressor remains unresolved. Here we examine the roles of both wild-type and mutant WT1 in AML through epigenetic and mechanistic studies. Using our findings we propose a personalized treatment strategy. WT1 mutations are enriched in the NPM1 mut subset of AML; thus we first focused our study on a cohort of 581 patients with de novo AML and NPM1 mutations enrolled on Alliance for Clinical Trials in Oncology studies. Transcriptomic analyses revealed that WT1 mut patientsphenocopied a distinct, aberrant gene expression signature associated with FLT3 internal tandem duplications (ITD), a mutation known to activate STAT signaling and associated with poor outcome in AML. We observed that WT1 expression levels were remarkably elevated in FLT3-ITD patients and were driven by STAT5A binding to the WT1 promoter. STAT5A binding and subsequent WT1 upregulation were blocked by small molecule FLT3 inhibitors. These findings linking FLT3 activity with WT1 expression raise two possibilities: either WT1 is an oncogene cooperating with the FLT3-STAT pathway, or WT1 naturally functions to suppress FLT3 signaling in a negative feedback loop subverted by WT1 mutations. As WT1 interacts with TET2 to facilitate epigenetic remodeling and DNA binding, we performed genome-wide DNA methylation analysis on WT1 mut AML patients and observed selective hypermethylation of WT1 binding motifs consistent with loss of function. We confirmed that WT1 mutations in AML commonly cause truncation of the C-terminal DNA binding domain in our patient cohort. Using co-immunoprecipitation, ChIP-sequencing and luciferase reporter assays, we found that mutant WT1 functions as a dominant-negative, inhibiting WT1 derived from the wild-type allele. Investigation of WT1 target genes by intersecting transcriptomic and DNA methylation profiles identified hypermethylation and downregulation of miR-193a, leading to a significant downregulation of miR-193a-3p in WT1 mut AML patients. Overexpression of wild-type, but not mutated, WT1 rescued miR-193a expression in AML cell lines. Enforced ex
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2023-188892