Effects of apricitabine and other nucleoside reverse transcriptase inhibitors on replication of mitochondrial DNA in HepG2 cells.

Several nucleoside reverse transcriptase inhibitors are associated with mitochondrial toxicity resulting from inhibition of DNA polymerase-gamma. This study compared the effects on mitochondrial DNA of apricitabine (previously referred to as AVX754 or SPD754), a novel cytidine analogue under development for the treatment of human immunodeficiency virus (HIV)-1 infection, and other reverse transcriptase inhibitors. Human HepG2 hepatoblastoma were cultured for up to 16 days with test compounds at concentrations of 0.3-300 microM. Mitochondrial DNA replication was assessed by means of a duplex nucleic acid sequence-based amplification technique, which measures the ratio of the number of mitochondrial DNA copies to the number of genomic DNA copies. Apricitabine and tenofovir had no effect on the mitochondrial DNA content. In contrast, alovudine, zalcitabine, didanosine and stavudine markedly reduced mitochondrial DNA content, whereas abacavir, emtricitabine, lamivudine and zidovudine produced slight increases in mitochondrial DNA, which may reflect an adaptive cellular response to mitochondrial dysfunction. These results suggest that apricitabine shows a favorable mitochondrial toxicity profile, which is important for long-term clinical use. Further studies are warranted to define the clinical implications of these findings.

Mitochondrial DNA decline in T cells of HIV-1 seroconverters may be dependent on immune activation.

BACKGROUND: Earlier reports have indicated that human immunodeficiency virus type 1 (HIV-1) infection itself might cause mitochondrial DNA (mtDNA) decline in peripheral blood mononuclear cells (PBMCs). However, the mtDNA dynamics within this heterogeneous cell population during HIV-1 infection are not fully understood. METHODS: mtDNA content was assessed longitudinally in PBMCs and in isolated CD4(+) and CD8(+) T cells from 16 documented HIV-1 seroconverters who were naive to antiretroviral therapy. The correlation between the mtDNA content of CD4(+) and CD8(+) T cells and their immunologically activated proportion was studied. Additionally, mtDNA content was measured within isolated activated and nonactivated CD4(+) and CD8(+) T cells obtained from 5 antiretroviral-naive men with chronic HIV-1 infection. RESULTS: In the seroconverter group, mtDNA content in CD8(+) T cells decreased 5 years after seroconversion (P=.007). mtDNA content in either CD4(+) or CD8(+) T cells did not correlate with the proportion of activated cells within either population. However, for the chronically infected men, mtDNA content in activated CD8(+) T cells was lower than that in nonactivated cells (P=.043). A similar trend was observed in the CD4(+) T cell fraction. CONCLUSIONS: These findings indicate that HIV-1 infection affects mtDNA content, particularly in the most immunologically activated cells. Furthermore, the importance of measuring mtDNA in specific cell fractions rather than in the heterogeneous PBMC population is emphasized.

Statins disrupt CCR5 and RANTES expression levels in CD4(+) T lymphocytes in vitro and preferentially decrease infection of R5 versus X4 HIV-1.

BACKGROUND: Statins have previously been shown to reduce the in vitro infection of human immunodeficiency virus type 1 (HIV-1) through modulation of Rho GTPase activity and lipid raft formation at the cell surface, as well as by disrupting LFA-1 incorporation into viral particles. PRINCIPLE FINDINGS: Here we demonstrate that treatment of an enriched CD4(+) lymphocyte population with lovastatin (Lov), mevastatin (Mev) and simvastatin (activated and non-activated, Sim(A) and Sim(N), respectively) can reduce the cell surface expression of the CC-chemokine receptor CCR5 (P<0.01 for Sim(A) and Lov). The lowered CCR5 expression was associated with down-regulation of CCR5 mRNA expression. The CC-chemokine RANTES protein and mRNA expression levels were slightly increased in CD4(+) enriched lymphocytes treated with statins. Both R5 and X4 HIV-1 were reduced for their infection of statin-treated cells; however, in cultures where statins were removed and where a decrease in CCR5 expression was observed, there was a preferential inhibition of infection with an R5 versus X4 virus. CONCLUSIONS: The results indicate that the modulation of CC-chemokine receptor (CCR5) and CC-chemokine (RANTES) expression levels should be considered as contributing to the anti-viral effects of statins, preferentially inhibiting R5 viruses. This observation, in combination with the immunomodulatory activity exerted by statins, suggests they may possess more potent anti-HIV-1 activity when applied during the early stages of infection or in lowering viral transmission. Alternatively, statin treatment could be considered as a way to modulate immune induction such as during vaccination protocols.

Use of dried spots of whole blood, plasma, and mother's milk collected on filter paper for measurement of human immunodeficiency virus type 1 burden.

We studied the use of dried spots of bodily fluids (plasma, whole blood, and mother's milk) on filter paper as a means of sample collection and storage for human immunodeficiency virus type 1 (HIV-1) viral load testing under stringent field conditions. Plasma placed directly in lysis buffer, which is customarily used for viral load assays, was used for comparison in all our experiments. Utilizing reconstruction experiments, we demonstrate no statistical differences between viral loads determined for plasma and mother's milk spotted on filter paper and those for the same fluids placed directly in lysis buffer. We found that the addition of whole blood directly to lysis buffer was unreliable and could not be considered a feasible option. However, viral load measurements for whole blood spotted onto filter paper correlated with plasma viral load values for both filter spots and lysis buffer (Pearson correlation coefficients, 0.7706 and 0.8155, respectively). In conclusion, dried spots of plasma, whole blood, or mother's milk provide a feasible means for the collection, storage, and shipment of samples for subsequent viral load measurement and monitoring. Virus material spotted and dried on filter paper is a good inexpensive alternative for collecting patient material to monitor the HIV-1 viral load. Measuring the HIV-1 burden from whole blood dried on filter paper provides a suitable alternative for low-technology settings with limited access to refrigeration, as can be found in sub-Saharan Africa.

Real-time nucleic acid sequence-based amplification assay to quantify changes in mitochondrial DNA concentrations in cell cultures and blood cells from HIV-infected patients receiving antiviral therapy.

BACKGROUND: To study the clinical relevance of changes in mitochondrial DNA (mtDNA) in peripheral blood mononuclear cells (PBMCs) attributable to HIV infection and/or combination antiretroviral therapy (cART), a high-throughput molecular assay to quantify mtDNA is required. METHODS: We developed a quantitative real-time duplex nucleic acid sequence-based amplification assay in which both mtDNA and nuclear DNA are simultaneously amplified in 1 tube. The assay could accurately quantify mtDNA in a range of 15-1500 copies of mtDNA per 2 genomic copies with an intrarun variation of 11% and an interrun variation of 16%. We compared this real-time assay with the lactate/pyruvate ratios in fibroblasts incubated with glucose and exposed to zalcitabine. Additionally, we studied the effects of platelet contamination and the in vivo effects of cART on mtDNA in PBMCs from a small group of patients. RESULTS: Decreases in mtDNA preceded the increase in lactate/pyruvate ratios and vice versa when zalcitabine was eliminated from the culture. Platelets affected the mtDNA in PBMCs if >5 platelets per PBMC were present. Within 12 weeks, mtDNA increased and remained increased in PBMCs from patients on continuous treatment with zidovudine/lamivudine/indinavir therapy (P = 0.03), but increased if patients were switched to stavudine/didanosine therapy (P = 0.008). CONCLUSION: After drug exposure, the mtDNA assay can detect changes in mtDNA concentrations in cell lines and PBMCs, when properly controlled for platelet effects, earlier than traditional assays.

Mitochondrial DNA depletion in HIV-infected patients is more pronounced with chronic hepatitis C and enhanced following treatment with pegylated interferon plus ribavirin.

BACKGROUND: Mitochondrial DNA (mtDNA) damage seems to be responsible for many of the toxicities associated with the long-term use of nucleoside analogues in HIV-infected patients. These adverse effects, mainly lipoatrophy, seem to be even more pronounced in subjects with hepatitis C virus (HCV) co-infection. However, there is no information about a possible additive effect of HCV on mtDNA depletion nor about the impact of ribavirin use in HIV/HCV-coinfected individuals. PATIENTS AND METHODS: mtDNA was measured in peripheral blood mononuclear cells (PBMC) collected from 192 individuals classified into 4 groups: HIV-neg/HCV-neg (control group, n = 11), HIV-pos/HCV-neg (56), HIV-neg/HCV-pos (18) and HIV-pos/HCV-pos (107). A duplex real-time NASBA assay was used to quantify mtDNA on maximal platelet-depleted specimens and all experiments were run in duplicate. The mtDNA copy number per cell was estimated taking as reference the nuclear DNA copy number. RESULTS: The mean mtDNA values in the control group was 757 copies/cell, while it was 428, 349 and 296 for HIV-pos, HCV-pos and HIV/HCV-coinfected individuals, respectively (P < 0.001 for all groups relative to the control group). No significant differences were observed when comparing patients with HIV or HCV infections alone, but coinfected individuals showed a lower mtDNA copy number than patients infected with HIV (P < 0.001) or with HCV (P = 0.089). In a subset of 18 patients with HIV/HCV-coinfection, treatment with pegylated interferon plus ribavirin produced a further reduction in mtDNA (mean value, 189 copies/cell; P = 0.009). CONCLUSIONS: HIV and HCV may independently cause mtDNA depletion in PBMC. Coinfection may result in more pronounced mtDNA depletion. The administration of interferon plus ribavirin may further enhance mtDNA depletion. These findings may explain the greater risk of lipoatrophy of antiretroviral therapy in HIV-infected patients with HCV coinfection and why anti-HCV therapy may aggravate this effect.

Infection with HIV-1 induces a decrease in mtDNA.

Cross-sectional studies have suggested that infection with human immunodeficiency virus (HIV) type 1 could reduce the mitochondrial DNA (mtDNA) content of blood cells. We investigated mtDNA content in peripheral blood mononuclear cells (PBMCs) obtained from 36 antiretroviral therapy-naive documented HIV-1 seroconverters, before and after seroconversion. mtDNA content statistically significantly decreased 1 year after seroconversion and showed a nonsignificant decrease during the subsequent 4 years. These findings confirm that infection with HIV-1 may, itself, reduce mtDNA content, at least within PBMCs. This could have implications for the subsequent development of mitochondrial toxicities associated with the use of nucleoside analogue reverse-transcriptase inhibitors.

Evaluation of antiretroviral therapy results in a resource-poor setting in Blantyre, Malawi.

OBJECTIVE: To evaluate treatment results of the paying antiretroviral therapy (ART) clinic of Queen Elizabeth Central Hospital, a large public and teaching hospital in Blantyre, Malawi. The only ART was a fixed drug combination of stavudine, lamivudine and nevirapine. METHODS: Cross sectional study with interviews, laboratory tests (CD4 count, viral load, nevirapine plasma levels, transaminases) and data extraction from files. RESULTS: A total of 422 (59%) of the patients who started ART since 2000 were lost to follow-up. The 176 patients enrolled in the study had good virological and excellent clinical treatment results. The most common side effect was peripheral neuropathy. Nevirapine plasma levels were remarkably high and associated with successful virological treatment results. Two simple adherence questions pertaining to the use of medication in the previous 8 days corresponded well with nevirapine levels. The most important reasons for non-adherence were shortage of drugs in the hospital pharmacy and personal financial constraints. CONCLUSIONS: (1) Many patients were lost to follow-up. (2) High nevirapine levels contributed to good therapy results in those studied. (3) Simple adherence questions predicted subtherapeutic nevirapine levels. (4) Antiretroviral drug supply needs to be uninterrupted and free of charge, to prevent avoidable non-adherence.

Development of a nucleic acid sequence-based amplification assay that uses gag-based molecular beacons to distinguish between human immunodeficiency virus type 1 subtype C and C' infections in Ethiopia.

A gag-based molecular beacon assay utilizing real-time nucleic acid sequence-based amplification technology has been developed to differentiate between the two genetic subclusters of human immunodeficiency virus type 1 (HIV-1) subtype C (C and C') circulating in Ethiopia. Of 41 samples, 36 could be classified as C or C' by sequencing of the gag gene. All 36 isolates were correctly identified by the gag beacon test. Three isolates with genomes that were recombinant in gag were unambiguously typed as belonging to the C' subcluster. Further analysis revealed that these contained the most sequence homology with a reference subcluster C' sequence in the target region of the beacon and hence were correct for the analyzed region. For one sample, sequencing and gag molecular beacon results did not match, while another isolate could not be detected at all by the beacon assay. Overall, high levels of sensitivity and specificity were achieved for both beacons (90.5% sensitivity and 100% specificity for the C beacon and 100% sensitivity and 95.2% specificity for the C' beacon). The availability of a diagnostic test which can quickly and reliably discriminate between C and C' HIV-1 infections in Ethiopia is an important first step toward studying their respective biological characteristics. As the assay is specific to the Ethiopian HIV-1 subtype C epidemic, it will contribute to characterizing the circulating viruses in this population, thereby generating the information necessary for the development of a potential efficacious HIV-1 vaccine appropriate for the Ethiopian context.

HIV type 1 C and C' subclusters based on long terminal repeat sequences in the Ethiopian type 1 subtype C epidemic.

While the Ethiopian HIV-1 epidemic is dominated by subtype C, two distinguishable cocirculating C genotypes have been identified based on sequences of the C2V3 envelope region. In this study we sequenced and analyzed the long terminal repeat (LTR) sequence from 22 Ethiopian HIV-1-positive individuals. The two phylogenetically distinguishable genotypes C (n = 13) and C' (n = 4) are separated by significant bootstrap values. Nucleotide differences between the two groups were identified in the NF-AT, TCF-1alpha, and SP1 transcription factor binding sites, whereas the NF-kappaB and NRE-core sequences were identical between the two groups. Five isolates that could not be classified C or C' were found to be recombinants within the LTR sequence upon boots can analysis. Comparison of all the LTR sequences with their corresponding C2V3 envelope sequence revealed four intersubtype C/C' recombinant isolates. Thus, the prevalence of C/C' recombinant viruses is well over 40%. Interestingly, the C2V3 envelope sequences of all recombinant viruses belonged to the genotype C', whereas every LTR sequence belonged to the genotype C. This result indicates that recombination between the two genotypes is unidirectional, possibly as the result of evolutionary pressure on the respective biological functions of the LTR promoter and the envelope protein.