Introduction: The bacteriology-virology laboratory of the teaching university hospital of Brazzaville, was equipped with a real-time PCR device like Miniopticon (Biorad? , France). The aim of this work was to do an ev...Introduction: The bacteriology-virology laboratory of the teaching university hospital of Brazzaville, was equipped with a real-time PCR device like Miniopticon (Biorad? , France). The aim of this work was to do an evaluation of the HIV viral load activity, with a view to proposing some recommendations. Material and methods: Retrospective study, January 2013 to March 2015, in patients on first line ARV three-therapy, pre-inclusion therapy checkup in HIV positive patients, but again screening after sexual abuse in women or accident of exposure (AES). A blood sample on EDTA tube was made and RNA extraction with Qiagen kit. Ultrasensitive HIV-RNA quantification was performed using the Generic HIV real-time PCR assay (Biocentric?, Bandol, France). Results: 126 patients were included. The mean age was 37.63 years +/- 10.43 years, sex ratio F/H = 2.3. The HIV viral load was detectable in 94 cases (74.6%). Concerning patients with detectable viral load (copies/ml): 403 to 996 in 35 cases (37.23%), 1411 to 1812 in 41 cases (43.62%) and >1814 in 5 cases (5.32%) (therapeutic failure). Conclusion: This work reports success in the setting up of the molecular biology unit. Procedures that implement information and education actions on the risks associated with AES must be disclosed.展开更多
The virally encoded HIV-1 viral protein R (VPR) is a multifunctional factor that is required for induced HIV-1 pathogenesis. VPR is also a cell-penetrating protein found in biological fluids from HIV-1 infected indivi...The virally encoded HIV-1 viral protein R (VPR) is a multifunctional factor that is required for induced HIV-1 pathogenesis. VPR is also a cell-penetrating protein found in biological fluids from HIV-1 infected individuals. In this regard, we previously published that the C-terminal VPR77-92 sequence from HIV-1 89.6, but not from pNL4.3 strain, is a new pro-apoptotic and protein transduction domain (PTD). Here we report on a sequence analysis of VPR77-92 domain using the Los Alamos HIV-1 sequence database. The analysis showed that the two residues of the domain VPR84 and VPR85 are highly variable and differently biased in HIV-1 clade B and HIV-1 clade C. Furthermore, when Jurkat lymphoblastoid cells or PBMC were incubated with chemically synthesized peptides containing distinct VPR77-92 C-terminal sequences from clades B or C, we found that a clade-dependent polymorphism in VPR84 and VPR85 residues controlled the transducing activity of the C-terminal HIV-1 VPR77-92 domain. Together our data indicate that clade-dependent polymorphism in the VPR84 and VPR85?residues defines the transducing properties mediated by the C-terminal domain of HIV-1 VPR. Identification of this VPR polymorphism suggests new approaches to understand the HIV-1 biology and/or pathogenesis.展开更多
文摘Introduction: The bacteriology-virology laboratory of the teaching university hospital of Brazzaville, was equipped with a real-time PCR device like Miniopticon (Biorad? , France). The aim of this work was to do an evaluation of the HIV viral load activity, with a view to proposing some recommendations. Material and methods: Retrospective study, January 2013 to March 2015, in patients on first line ARV three-therapy, pre-inclusion therapy checkup in HIV positive patients, but again screening after sexual abuse in women or accident of exposure (AES). A blood sample on EDTA tube was made and RNA extraction with Qiagen kit. Ultrasensitive HIV-RNA quantification was performed using the Generic HIV real-time PCR assay (Biocentric?, Bandol, France). Results: 126 patients were included. The mean age was 37.63 years +/- 10.43 years, sex ratio F/H = 2.3. The HIV viral load was detectable in 94 cases (74.6%). Concerning patients with detectable viral load (copies/ml): 403 to 996 in 35 cases (37.23%), 1411 to 1812 in 41 cases (43.62%) and >1814 in 5 cases (5.32%) (therapeutic failure). Conclusion: This work reports success in the setting up of the molecular biology unit. Procedures that implement information and education actions on the risks associated with AES must be disclosed.
文摘The virally encoded HIV-1 viral protein R (VPR) is a multifunctional factor that is required for induced HIV-1 pathogenesis. VPR is also a cell-penetrating protein found in biological fluids from HIV-1 infected individuals. In this regard, we previously published that the C-terminal VPR77-92 sequence from HIV-1 89.6, but not from pNL4.3 strain, is a new pro-apoptotic and protein transduction domain (PTD). Here we report on a sequence analysis of VPR77-92 domain using the Los Alamos HIV-1 sequence database. The analysis showed that the two residues of the domain VPR84 and VPR85 are highly variable and differently biased in HIV-1 clade B and HIV-1 clade C. Furthermore, when Jurkat lymphoblastoid cells or PBMC were incubated with chemically synthesized peptides containing distinct VPR77-92 C-terminal sequences from clades B or C, we found that a clade-dependent polymorphism in VPR84 and VPR85 residues controlled the transducing activity of the C-terminal HIV-1 VPR77-92 domain. Together our data indicate that clade-dependent polymorphism in the VPR84 and VPR85?residues defines the transducing properties mediated by the C-terminal domain of HIV-1 VPR. Identification of this VPR polymorphism suggests new approaches to understand the HIV-1 biology and/or pathogenesis.
