ININFA   02677
INSTITUTO DE INVESTIGACIONES FARMACOLOGICAS
Unidad Ejecutora - UE
artículos
Título:
Efavirenz is a substrate and in turn modulates the expression of the efflux
Autor/es:
PERONI R.N.; DI GENNARO SS; HOCHT C; CHIAPPETTA DA; RUBIO MC; SOSNIK A.; BRAMUGLIA G.
Revista:
BIOCHEMICAL PHARMACOLOGY
Editorial:
PERGAMON-ELSEVIER SCIENCE LTD
Referencias:
Lugar: NY; Año: 2011 vol. 82 p. 1227 - 1233
ISSN:
0006-2952
Resumen:
The oral bioavailability of the antiretroviral efavirenz (EFV) undergoes high inter and intra-individual
variability, this fact supporting its therapeutic drug monitoring. Previously, it was demonstrated that the
encapsulation of EFV within polymeric micelles increases the oral bioavailability of the drug. The breast
cancer resistant protein (BCRP, ABCG2) is known to be inhibited by EFV in vitro. Since ABCG2 is profusely
expressed in the gastrointestinal tract, the aim of the present work was to thoroughly investigate
whether the intestinal permeability of EFV is modulated by ABCG2. The functional role of ABCG2 in
mediating the transport of EFV at the intestinal level was consistent with the following findings: (a) an
ABCG2 inhibitor, fumitremorgin C (510 mM), significantly potentiated the mucosal-to-serosal
permeation of the drug in everted gut sacs; (b) a five-day oral treatment with 20 mg/kg EFV promotes
the over-expression of ABCG2 in about 100%, this phenomenon being accompanied by a clear decline in
the intestinal permeability of the antiretroviral and (c) the normalization of the ABCG2 expression within
24 h after the last administration of EFV was coincident with the recovery of the ability of the drug to
permeate through the small intestine wall. Interestingly, no interactions between EFV and P-glycoprotein
(ABCB1) were apparent. Since the intestinal permeability of a drug could be associated with its in vivo
absorbability, we suggest that the oral absorption of EFV is affected by modifications in the ABCG2
intestinal expression contributing to the intra-individual bioavailability variations.mM), significantly potentiated the mucosal-to-serosal
permeation of the drug in everted gut sacs; (b) a five-day oral treatment with 20 mg/kg EFV promotes
the over-expression of ABCG2 in about 100%, this phenomenon being accompanied by a clear decline in
the intestinal permeability of the antiretroviral and (c) the normalization of the ABCG2 expression within
24 h after the last administration of EFV was coincident with the recovery of the ability of the drug to
permeate through the small intestine wall. Interestingly, no interactions between EFV and P-glycoprotein
(ABCB1) were apparent. Since the intestinal permeability of a drug could be associated with its in vivo
absorbability, we suggest that the oral absorption of EFV is affected by modifications in the ABCG2
intestinal expression contributing to the intra-individual bioavailability variations.