Acute myeloid leukemia (AML) is an aggressive hematological disorder comprised of a hierarchy of quiescent leukemic stem cells and fast proliferating blasts with limited self-renewal ability. Significant plasticity in the AML epigenome and metabolome results in a high rate of drug resistance and relapse, with extremely low 2-year survival rates in the poorest cytogenetic risk patients. The current backbone of clinical induction chemotherapy reduces total disease burden, but does not deplete leukemic stem cells which reconstitute the disease in vivo, and also suffers from severe toxicity of healthy hematopoietic cells. Whilst much work has been done to identify epigenetic vulnerabilities in AML, little is known about protein dynamics, and here we explored the therapeutic inhibition of highly specific CKS1-dependent protein degradation. We report a dual role for CKS1-depdent protein degradation in specifically targeting AML, whilst protecting normal hematopoietic cells from chemotherapeutic toxicity.