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Abstract
Recent studies have shown that a high proportion of patients with acute promyelocytic leukemia (APL) achieve complete remission after treatment with all-trans retinoic acid (RA). Nevertheless, despite an initial good response, most patients who received continuous treatment with all-trans RA relapsed and develop RA-resistant disease. The detailed mechanisms for this development of RA resistance by APL cells are still unclear. Several possible mechanisms have been considered to explain in vitro resistance to RA. One obvious explanation is the generation of new mutations in the retinoid receptors. However, UF-1 cells (the first permanent APL cell line with RA-resistant features) had no point mutations in the lig-and-binding domain of the RAR-α gene. Another potential mechanism for clinical RA resistance is the pharmacologic alteration in the metabolism of all-trans RA. Continuous treatment with all-trans RA in APL is associated with a progressive reduction of the plasma concentrations of RA. Induction of cytochrome P-450, cellular RA-binding protein (CRABP) and P-glycoprotein resulted in lower plasma and cellular levels of active retinoids. Thus, acquired resistance to RA may be explained at least in part by drug metabolism in leukemic cells.