Effect of boosted fosamprenavir or lopinavir-based combinations on whole-body insulin sensitivity and lipids in treatment-naive HIV-type-1-positive men.

BACKGROUND: Antiretroviral therapy is associated with metabolic complications, including dyslipidaemia, body fat changes and insulin resistance. Healthy volunteer studies have demonstrated a decrease in glucose disposal associated with dosing with specific antiretrovirals. METHODS: HIV-type-1-positive male participants were randomized to receive tenofovir disoproxil fumarate and lamivudine, with either fosamprenavir (FPV)/ritonavir or lopinavir (LPV)/ritonavir twice daily. A hyperinsulinaemic euglycaemic clamp was performed at baseline and at 2 weeks after commencing treatment. The homeostasis model assessment index for insulin resistance (HOMA-IR) was also calculated at these time points. Changes in lipids and lipoprotein subfractions (by nuclear magnetic resonance spectroscopy) were assessed. A pharmacokinetic assessment was undertaken at week 2. RESULTS: A total of 27 participants were enrolled. There was no significant change in whole-body insulin sensitivity or HOMA-IR from baseline or between groups. Total cholesterol increased significantly, by 6.6% with FPV and 10.9% with LPV. The changes in lipids and lipoprotein subfractions were similar between groups with increases in triglycerides, very low-density lipoprotein (VLDL) and chylomicrons, and low-density lipoprotein (LDL) particles. Although the total high-density lipoprotein (HDL) particles were not significantly altered, a decrease in small HDL particles was seen. Changes in VLDL and chylomicron particles in both groups and triglycerides and small HDL particles in the LPV group were statistically significant. CONCLUSIONS: In HIV-type-1-positive men initiating antiretroviral therapy with FPV- or LPV-based regimens, there were no significant changes in whole-body insulin sensitivity after 2 weeks. A proatherogenic lipid profile characterized by increases in triglycerides, VLDL and chylomicron particles and LDL particles, and a decrease in small HDL particles, was observed in both groups.

A rapid and sensitive HPLC-MS method for the detection of plasma and cellular rifampicin.

Rifampicin is active against both intracellular and extracellular Mycobacterium tuberculosis. The ability to measure rifampicin drug concentrations in both plasma and in cells may be useful in evaluating the suitability of dosage regimens for populations and individuals. Here a novel simple, precise and accurate method for the quantification of rifampicin in both cells and plasma is reported. Sample proteins were precipitated with acetonitrile containing the internal standard and then diluted with water. Aliquots of supernatant were then injected into the HPLC-MS system for chromatographic separation and detection. Rifampicin calibration curves encompassed concentrations from 100 to 12,800 ng/mL. Intra- and inter-assay precision and accuracy were determined using low, medium and high concentration quality control samples and was found to be within 10% in all cases. Rifampicin concentrations were found to be unaffected by freeze-thaw cycles, but were significantly affected by heat-inactivation (58 degrees C, 40 min). This assay was successfully utilised to determine the pharmacokinetic profile of rifampicin in plasma and peripheral blood mononuclear cells (PBMC) in 8 tuberculosis patients receiving rifampicin over an 8h period.

Intracellular disposition and metabolic effects of zidovudine, stavudine and four protease inhibitors in cultured adipocytes.

OBJECTIVE: The pathogenesis of lipodystrophy caused by the HIV protease inhibitors (PIs) and nucleoside reverse transcriptase inhibitors (NRTIs) is unclear. We have investigated the disposition of these drugs in adipocytes and the consequent effect on adipocyte metabolism and viability. DESIGN: Laboratory study utilizing two murine cell lines, 3T3-L1 and 3T3-F442A. METHODS: Intracellular NRTI phosphate and PI concentrations were determined by HPLC and HPLC-MS/MS, respectively. The cytotoxicity of the drugs was examined on the different adipogenic stages together with their effects on glucose uptake plus or minus insulin, and on glycerol and triglyceride levels. RESULTS: There was rapid intracellular accumulation and phosphorylation of [3H]-zidovudine and -stavudine to their phosphate metabolites in adipocytes. The NRTIs were not cytotoxic, did not affect preadipocyte protein synthesis and did not inhibit adipogenesis or induce lipolysis. PIs accumulated in adipocytes (nelfinavir>saquinavir>ritonavir>indinavir). All PIs, except indinavir, were cytotoxic and inhibited adipogenesis, increased lipolysis and impaired preadipocyte protein synthesis. PIs inhibited glucose uptake in the rank order: indinavir>saquinavir>ritonavir>nelfinavir. CONCLUSION: These data demonstrate that PIs may play a role in the insulin resistance observed in lipodystrophy by affecting glucose uptake, adipogenesis and lipolysis. NRTIs alone do not seem to have any effect on adipocyte metabolism despite undergoing phosphorylation to their triphosphorylated anabolites, although their effects in combination with PIs in perturbing adipocyte metabolism warrants further investigation.

Intracellular accumulation of human immunodeficiency virus protease inhibitors.

Intracellular accumulation of the protease inhibitors (PIs) saquinavir (SQV), ritonavir (RTV), and indinavir (IDV) was determined in 50 human immunodeficiency virus-positive patients. Following extraction, PIs were quantified by mass spectrometry. Paired plasma and intracellular samples were collected over a full dosing interval from patients (13 on SQV, 6 on RTV, 8 on IDV, 16 on SQV plus RTV, 7 on IDV plus RTV) with a plasma viral load of <400 copies/ml. Data were expressed as intracellular/plasma drug concentration ratios. A hierarchy of intracellular accumulation was demonstrated by the following medians: 9.45 for SQV > 1.00 for RTV > 0.51 for IDV. Coadministration of RTV did not boost ratios of SQV or IDV within the cell or in plasma, although absolute plasma and intracellular SQV concentrations were increased by RTV. Seven individuals receiving SQV in hard-gel capsule form (median, 32 months) had higher intracellular/plasma drug ratios than all other patients receiving SQV (median, 17.62 versus 4.83; P = 0.04), despite consistently low plasma SQV concentrations. How this occurs may provide insight into the mechanisms that limit adequate drug penetration into sanctuary sites.