Upregulation of HOXA3 by Isoform-Specific Wilms Tumor 1 Drives Chemotherapy Resistance in Acute Myeloid Leukemia

Abstract

Abstract Upregulation of the Wilms' Tumor 1 (WT1) gene is common in acute myeloid leukemia and is associated with poor prognosis. WT1 produces 12 primary transcripts through different translation initiation sites and alternative splicing. We found that overexpression of short WT1 transcripts lacking exon 5 with and without the KTS motif (sWT1+/- and sWT1-/-) led to reduced cell growth. However, only sWT1+/- resulted in decreased CD71 expression, G1 arrest, and cytarabine resistance. Primary AML patient cells with low CD71 expression exhibit relative resistance to cytarabine, suggesting that CD71 may serve as a potential biomarker for chemotherapy. RNAseq differential gene expression analysis identified two transcription factors, HOXA3 and GATA2, that are specifically upregulated in sWT1+/- cells. Overexpression of either HOXA3 or GATA2 reproduced the effects of sWT1+/-, including decreased cell growth, G1 arrest, reduced CD71 expression, and cytarabine resistance. Furthermore, sWT1+/-, HOXA3, and GATA2 regulate cell growth and cytarabine sensitivity in a context-dependent manner, likely dependent on HOXA3 expression. HOXA3 expression correlates with chemotherapy response and overall survival in NPM1-negative leukemia specimens. Overexpression of HOXA3 leads to drug resistance against a broad spectrum of chemotherapeutic agents. Our results suggest that WT1 modulates drug sensitivity in an isoform-specific manner by promoting HOXA3 expression.