Dose-limiting toxicity poses a major limitation to the clinical utility of targeted cancer therapies, often arising from target engagement in non-malignant tissues. This obstacle can be minimized by targeting cancer dependencies driven by proteins with tissue- and/or tumor-restricted expression. Here, the inventors show that in acute myeloid leukemia (AML), suppression of the myeloid-restricted PIK3CG/p110/�/�-PIK3R5/p101 axis blocks AKT signaling, compromises cell fitness, and sensitizes to established AML therapies. Importantly, the inventors find that existing small molecule inhibitors against PIK3CG are insufficient to achieve a sustained longterm anti-leukemic effect. To address this concern, the inventors developed a proteolysis targeting chimera (PROTAC) heterobifunctional molecule that specifically degrades PIK3CG and potently suppresses AML progression alone and in combination with venetoclax in human AML cell lines, primary AML patient samples, and syngeneic mouse models.