The Brain Entry of HIV-1 Protease Inhibitors is Facilitated when Used in Combination

Overview

Journal Mol Pharm

Publisher American Chemical Society

Specialty Pharmacology

Date 2013 Apr 27

PMID 23617680

Citations 13

Authors

Catia Marzolini

Rita Mueller

Xiaochun Li-Blatter

Manuel Battegay

Anna Seelig

Affiliations

Soon will be listed here.

Abstract

One hypothesis for persisting HIV-associated neurocognitive disorders (HAND) in effectively treated individuals is the limited permeation of antiretroviral agents (ARV) across the blood-brain barrier (BBB). However, the physicochemical factors limiting the brain entry of a given ARV and the mutual interactions of combined drugs on their brain entry have not been properly characterized. Using transporter kinetic measurements, we show that large lipophilic drugs such as protease inhibitors (PI) have strong binding affinities to drug efflux transporters expressed at the BBB and thus are prevented from entering the brain. However, when combined, the PI with the highest binding affinity (i.e., boosting ritonavir) will occupy a large proportion of the transporter binding sites and thus slow down the efflux rate of the coadministered PI thereby facilitating its brain entry. Furthermore, using thermodynamic measurements and computational modeling, we show that ARV with small cross-sectional areas (AD < 70 Å(2)) and octanol-water distribution coefficients (-1 < log D <5) such as most nucleoside analogues have a high passive influx and cross the BBB despite interactions with drug transporters. These data indicate that HIV therapies combining small diffusing molecules with large lipophilic molecules are better suited for brain entry and should be preferred for HAND. This work highlights the role of PI as modulators of drugs' brain entry.

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