ABSTRACT
Acute myeloid leukemia (AML) is fatal in majority of adults. Identification of new therapeutic targets and their pharmacologic modulators are needed to improve outcomes. Previous studies had shown that immunization of rabbits with normal peripheral WBCs that had been incubated with fluorodinitrobenzene elicited high titer antibodies that bound to a spectrum of human leukemias. We report that proteomic analyses of immunoaffinity-purified lysates of primary AML cells showed enrichment of scaffolding protein IQGAP1. Immunohistochemistry and gene-expression analyses confirmed IQGAP1 mRNA overexpression in various cytogenetic subtypes of primary human AML compared to normal hematopoietic cells. shRNA knockdown of IQGAP1 blocked proliferation and clonogenicity of human leukemia cell-lines. To develop small molecules targeting IQGAP1 we performed in-silico screening of 212,966 compounds, selected 4 hits targeting IQGAP1-GRD domain, and conducted SAR of ‘fittest hit’ to identify UR778Br, a prototypical agent targeting IQGAP1. UR778Br inhibited proliferation, induced apoptosis, G2/M arrest, and colony formation by leukemia cell-lines and primary-AML while sparing normal marrow cells. IQGAP1/F-actin showed co-localization and UR778Br induced filopodia formation in U937 cells. UR778Br exhibited favorable ADME/T profiles and drug-likeness to treat AML. In summary, AML shows dependency on IQGAP1 and UR778Br, identified through in-silico studies, selectively targeted AML cells while sparing normal marrow.