An Unrecognised Adverse Drug Reaction of Enalapril Led to Suspicion of Pulmonary Tuberculosis Infection

No Abstract

HLA class II polymorphism in Aka Pygmies and Bantu Congolese and a reassessment of HLA-DRB1 African diversity

HLA-DRB1, -DQB1 and -DPB1 polymorphisms were investigated in two African populations, the Basse Lobaye Aka Pygmies of the Central African Republic, and a Bantu-speaking group from the Democratic Republic of Congo Kinshasa. Allelic and haplotypic frequency distributions reveal marked differences between the two populations in spite of their geographical proximity: the Aka exhibit high frequencies for several alleles, especially at the DPB1 locus (0.695 for DPB1*0402), probably due to rapid genetic drift, while the Bantu distributions are more even. Genetic distances computed from DRB1 allelic frequencies among 21 populations from North and sub-Saharan Africa were applied to a multidimensional scaling analysis. African populations genetic structure is significantly shaped by linguistic differentiation, as confirmed by an analysis of molecular variance. However, selective neutrality tests indicate that many African populations exhibit an excess of heterozygotes for DRB1, which is likely to explain the genetic similarity observed between some North African and Bantu populations. Overall, this study shows that natural selection must be taken into account when interpreting the patterns of HLA diversity, but that this effect is probably minor in relation to the stochastic events of human population differentiations

Resistance to antiretroviral drugs in treated and drug-naive patients in the Democratic Republic of Congo

Background: We studied virological outcome and drug resistance in patients on antiretroviral therapy (ART) in health care centers in the Democratic Republic of Congo and looked for the presence of drug resistance in antiretroviral-naive patients attending the same clinics. Methods: In 2008, we conducted a cross-sectional survey among patients on ART for >= 12 months in 4 major cities [Kinshasa (n = 289), Matadi (n = 198), Lubumbashi (n = 77), and Mbuji-Mayi (n = 103)]. Genotypic drug resistance tests were done with an in-house assay on samples with viral load > 1000 copies/mL. ART-naive patients (n = 283) were also consecutively enrolled in the same clinics. Results: Of the 667 patients on ART, > 98% received Lamivudine + Stavudine/azidothymidine + Nevirapine/Efavirenz as first-line regimen and 74.4% were women. Median time on ART was 25 months [interquartile ratio (IQR), 19-32] in Kinshasa, 26 months (IQR, 19-32) in Matadi, 27 months (IQR, 19-44) in Lubumbashi, and 19 months (IQR, 16-24) in Mbuji-Mayi. A total of 97 patients (14.6%) had viral load > 1000 copies/mL, and among the 93 successfully sequenced samples, 78 (83.9%) were resistant to at least 1 drug of their ART regimen: 68 harbored resistance mutations to nucleoside reverse transcriptase inhibitor (NRTI) and nonnucleoside reverse transcriptase inhibitor (NNRTI), 2 to NRTI only, 7 to NNRTI only, and 1 to NRTI + NNRTI + protease inhibitor. The majority of patients, 70/78 (89.7%), were resistant to at least 2 of the 3 drugs from their treatment. The use of next-generation NNRTI, etravirine was already compromised for 19.2% (15/78) of the patients and 7 patients had the K65R mutation compromising the use of tenofovir in second-line regimens. The proportion of antiretroviral-resistant patients increased over time from 8.4% to 18.6% for patients on ART for 12-23 months or > 35 months (P = 0.013), respectively. Virological failure and rates of drug resistance were significantly higher among men than women, 19.9% versus 8.8%, respectively (P = 0.0001). Among the 253 recently diagnosed patients, 20 (7.9%) harbored resistance mutations. Conclusions: The accumulation of drug resistance mutations with time on ART needs further attention, and surveillance should be reinforced in ART programs in sub-Saharan Africa

One-year follow-up of vaccine therapy in hiv-infected immune-deficient individuals: A new strategy

Immunization of AIDS/ARC patients with autologous cells expressing HIV antigens, although providing clinical and biological benefits, fails to restore cellular immunity. The latter result is due partly to the antiproliferative effect of HIV-1 on activated T-cells (immune suppression), which leads to blockade of specific immune reactions. To overcome immune suppression, a new vaccine strategy was designed consisting of an immunization against HIV-1 combined with components of the T-cell-suppressive (antiproliferative) network. This new vaccine treatment proved to be innocuous in mice, monkeys, and two non-HIV-infected humans. A Phase I clinical trial was performed in six patients previously under cellular immunotherapy and still presenting a cellular immune defect. Preliminary results confirmed, after a 1-year follow-up of the patients, the safety of the new vaccine, which also partially restored the cellular immune response, including anti-HIV HLA-restricted cell-mediated cytotoxicity, delayed hypersensitivity to recall antigens, and proliferation of T-cells specifically activated by recall antigens. © 1992 Raven Press, New York.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

A group specific anamnestic immune reaction against HIV-1 induced by a candidate vaccine against AIDS

The first experimental immunization of humans against the AIDS retrovirus, HIV-1, was started in a series of HIV seronegative, healthy volunteers in November 19861. For the primary vaccination recombinant vaccinia virus (V25)2 expressing the complete gp160 env protein3 of the HTLV-IIIB strain4,5 of HIV-1 was introduced by scarification. This elicited a weak primary response which we subseqently attempted to enhance by additional immunizations (boosting), using four different immunization protocols. We report here that intravenous injection of paraformaldehyde-fixed autologous cells infected in vitro with V25 (individual D.Z.) gave the best results. This individual received second and third boosts of intramuscular gp160 derived from an HTLV-IIIB clone using the hybrid vaccinia virus/bacteriophage T7 expression system6. An anamnestic humoral and cellular immune reaction was achieved for over one year after the original vaccination, with high levels of antibodies to the viral envelope, and neutralizing antibodies against divergent HIV-1 strains such as HTLV-III B4,5,7 and HTLV-IIIRF (also called HTLV-III HAT)3,5 after the first boost. In addition, group-specific cell-mediated immunity and cell-mediated cytotoxicity against infected T4 cells were obtained after the primary vaccine and enhanced by the boosts. Finally, skin tests showed both immediate and delayed hypersensitivity to gp160 in vivo. Although this protocol is not practical for a large scale vaccine trial, our results show for the first time that an immune state against HIV can be obtained in man. © 1988 Nature Publishing Group.SCOPUS: ar.jinfo:eu-repo/semantics/publishe