Replication analysis should confirm the novel results obtained in this study prior to its application in the clinical practice to achieve a safer LPV/r-based combined antiretroviral therapy.
Cytochrome P450 (CYP) 3A4 has been considered to be the most important enzyme system for metabolism of lopinavir/ritonavir (LPV/r), a widely used HIV protease inhibitor (PI) recommended during pregnancy. Herein we present a clinical case of a pregnant HIV-infected woman who was taking standard doses of LPV/r, 400/100 mg twice daily. The trough plasma concentrations for LPV were fourfold above that recommended for PI-pretreated patients and toxicity associated with LPV/r and PI regimens was observed. These high concentrations continued after delivery in spite of a dosage reduction. The pharmacogenetic analysis revealed a genetic polymorphism in the CYP3A4 gene that encodes a non-functional protein. The pharmacokinetic study could indicate the occurrence of a phenomenon of non-linear pharmacokinetics which would justify why dosage reduction after pregnancy did not proportionally affect the patient's degree of exposure to the drug. In addition, an increment in CYP3A activity during pregnancy could explain lower LPV/r exposure during this period compared to postpartum, despite the impaired activity of CYP3A4 caused by the polymorphism.
Despite the known benefits and the experienced use of lopinavir/ritonavir (LPV/r) in the management of HIV infection, important interindividual variability in the pharmacokinetics (PKs) and the response to treatment with standard doses of this drug has been observed. Host genetic factors have been recently suggested as being responsible for part of this variability as they may affect the expression and functional activity of many proteins involved in the kinetic behavior, the immune recovery or the adverse effects related to LPV/r. Here, we present a genetic association study in 106 HIV-infected individuals collected over a period of 5 years with the aim of identifying and confirming single nucleotide polymorphisms (SNPs) with a significant influence on the PK parameters of LPV/r, the immunovirological response or toxicity derived from treatment with the studied drug. Genotyping was performed by MALDI-TOF and KASPar; LPV/r plasma concentrations were quantified using high-performance liquid chromatography with an ultraviolet detection system and the PK parameters were estimated using Bayesian algorithms. Genetic association analysis was performed with SPSS. The most significant associations were found between SNPs in the dopamine receptor D3 gene and the PK of LPV/r. Additionally, other suggestive relationships were established between genetic factors and the response during treatment with this drug. Thereby, identifying HIV-infected individuals who are at increased risk of achieve non-optimal LPV/r plasma concentrations with the emergence of toxicity, drug resistance or absence of clinical response could be helpful as a tool to optimize the LPV/r-based antiretroviral therapy.
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