Project description:Complementation can maintain a quasispecies of drug sensitive and resistant HIV

Project description:Genome wide DNA methylation profiling of monocytes from insulin sensitive and insulin resistant HIV-infected patients. The Illumina Infinium Human Methylation 450k Beadchip was used to obtain DNA methylation profiling across 450,000+ CpGs. Samples included monocytes from 37 HIV-infected individuals, of which 14 were insulin resistant and 23 were insulin sensitive, monocytes from 9 HIV-seronegative individuals, of which 4 were insulin sensitive and 5 insulin resistant, and FACS monocyte subsets (classical, intermediate, and non-classical monocytes) from two healthy donors.

Project description:Drug resistance is a major public health challenge in Leishmaniasis chemotherapy, particularly in the case of emerging Leishmania/HIV-1 co-infections. Recently, we have delineated the mechanism of cell death induced by the HIV-1 protease inhibitor, Nelfinavir, in the Leishmania parasite. In order to investigate the underlying molecular mechanism involved in Nelfinavir resistance, in vitro Nelfinavir resistant amastigotes were developed by direct drug pressure in culture. RNA expression profiling analyses of closely related Leishmania species were used as a screening tool to compare Nelfinavir-resistant and -sensitive parasites in order to identify candidate genes involved in drug resistance, and several genes were found to be differentially expressed. Comparative gene hybridization (CGH) analyses of Nelfinavir-resistant and -sensitive Leishmania using whole-genome 60-mer oligonucleotide microarrays were also carried out. RNA expression profiles and the CGH of Nelfinavir resistant vs sensitive Leishmania amastigotes suggest that parasites regulate mRNA levels either by modulating gene copy numbers through chromosome aneuploidy, or gene deletion/duplication by homologous recombination. Interestingly, supernumerary chromosomes 6 and 11 in the resistant parasites lead to upregulation of the ABC class of transporters, which are involved in vesicular trafficking. Transporter assays using radiolabeled Nelfinavir suggest that the drug accumulates in greater amounts in the resistant parasites and in a time dependent manner. Furthermore, high-resolution electron microscopy showed an increased number of vacuoles in Nelfinavir-resistant parasites. Together these results suggest that Nelfinavir is rapidly and dramatically sequestered in these intracellular vesicles. Two condition experiment: NFV-sensitive vs resistant. Biological replicates: Three. One dye swap.

Project description:Drug resistance is a major public health challenge in Leishmaniasis chemotherapy, particularly in the case of emerging Leishmania/HIV-1 co-infections. Recently, we have delineated the mechanism of cell death induced by the HIV-1 protease inhibitor, Nelfinavir, in the Leishmania parasite. In order to investigate the underlying molecular mechanism involved in Nelfinavir resistance, in vitro Nelfinavir resistant amastigotes were developed by direct drug pressure in culture. RNA expression profiling analyses of closely related Leishmania species were used as a screening tool to compare Nelfinavir-resistant and -sensitive parasites in order to identify candidate genes involved in drug resistance, and several genes were found to be differentially expressed. Comparative gene hybridization (CGH) analyses of Nelfinavir-resistant and -sensitive Leishmania using whole-genome 60-mer oligonucleotide microarrays were also carried out. RNA expression profiles and the CGH of Nelfinavir resistant vs sensitive Leishmania amastigotes suggest that parasites regulate mRNA levels either by modulating gene copy numbers through chromosome aneuploidy, or gene deletion/duplication by homologous recombination. Interestingly, supernumerary chromosomes 6 and 11 in the resistant parasites lead to upregulation of the ABC class of transporters, which are involved in vesicular trafficking. Transporter assays using radiolabeled Nelfinavir suggest that the drug accumulates in greater amounts in the resistant parasites and in a time dependent manner. Furthermore, high-resolution electron microscopy showed an increased number of vacuoles in Nelfinavir-resistant parasites. Together these results suggest that Nelfinavir is rapidly and dramatically sequestered in these intracellular vesicles. Two condition experiment: NFV-sensitive vs resistant. Biological replicates: Three. One dye swap.

Project description:The response of human immunodeficiency virus type 1 (HIV-1) quasispecies to antiretroviral therapy is influenced by the ensemble of mutants that composes the evolving population. Low-abundance subpopulations within HIV-1 quasispecies may determine the viral response to the administered drug combinations. However, routine sequencing assays available to clinical laboratories do not recognize HIV-1 minority variants representing less than 25% of the population. Although several alternative and more sensitive genotyping techniques have been developed, including next-generation sequencing (NGS) methods, they are usually very time consuming, expensive and require highly trained personnel, thus becoming unrealistic approaches in daily clinical practice. Here we describe the development and testing of a HIV-1 genotyping DNA microarray that detects and quantifies, in majority and minority viral subpopulations, relevant mutations and amino acid insertions in 42 codons of the pol gene associated with resistance and multidrug resistance to protease (PR) and reverse transcriptase (RT) inhibitors. A customized bioinformatics protocol has been implemented to analyze the microarray hybridization data by including a new normalization procedure and a stepwise filtering algorithm which resulted in the highly accurate (96.33%) detection of positive/negative signals. This microarray has been tested with 57 subtype B HIV-1 clinical samples extracted from multi-treated patients, showing an overall identification of 95.53% and 89.24% of the queried PR and RT codons, respectively, and enough sensitivity to detect minority subpopulations representing as low as 5-10% of the total quasispecies. Such a genotyping platform represents an efficient diagnostic and prognostic tool useful to personalize antiviral treatments in clinical practice.

Project description:Drug resistance is a major public health challenge in Leishmaniasis chemotherapy, particularly in the case of emerging Leishmania/HIV-1 co-infections. Recently, we have delineated the mechanism of cell death induced by the HIV-1 protease inhibitor, Nelfinavir, in the Leishmania parasite. In order to investigate the underlying molecular mechanism involved in Nelfinavir resistance, in vitro Nelfinavir resistant amastigotes were developed by direct drug pressure in culture. RNA expression profiling analyses of closely related Leishmania species were used as a screening tool to compare Nelfinavir-resistant and -sensitive parasites in order to identify candidate genes involved in drug resistance, and several genes were found to be differentially expressed. Comparative gene hybridization (CGH) analyses of Nelfinavir-resistant and -sensitive Leishmania using whole-genome 60-mer oligonucleotide microarrays were also carried out. RNA expression profiles and the CGH of Nelfinavir resistant vs sensitive Leishmania amastigotes suggest that parasites regulate mRNA levels either by modulating gene copy numbers through chromosome aneuploidy, or gene deletion/duplication by homologous recombination. Interestingly, supernumerary chromosomes 6 and 11 in the resistant parasites lead to upregulation of the ABC class of transporters, which are involved in vesicular trafficking. Transporter assays using radiolabeled Nelfinavir suggest that the drug accumulates in greater amounts in the resistant parasites and in a time dependent manner. Furthermore, high-resolution electron microscopy showed an increased number of vacuoles in Nelfinavir-resistant parasites. Together these results suggest that Nelfinavir is rapidly and dramatically sequestered in these intracellular vesicles.

Project description:Drug resistance is a major public health challenge in Leishmaniasis chemotherapy, particularly in the case of emerging Leishmania/HIV-1 co-infections. Recently, we have delineated the mechanism of cell death induced by the HIV-1 protease inhibitor, Nelfinavir, in the Leishmania parasite. In order to investigate the underlying molecular mechanism involved in Nelfinavir resistance, in vitro Nelfinavir resistant amastigotes were developed by direct drug pressure in culture. RNA expression profiling analyses of closely related Leishmania species were used as a screening tool to compare Nelfinavir-resistant and -sensitive parasites in order to identify candidate genes involved in drug resistance, and several genes were found to be differentially expressed. Comparative gene hybridization (CGH) analyses of Nelfinavir-resistant and -sensitive Leishmania using whole-genome 60-mer oligonucleotide microarrays were also carried out. RNA expression profiles and the CGH of Nelfinavir resistant vs sensitive Leishmania amastigotes suggest that parasites regulate mRNA levels either by modulating gene copy numbers through chromosome aneuploidy, or gene deletion/duplication by homologous recombination. Interestingly, supernumerary chromosomes 6 and 11 in the resistant parasites lead to upregulation of the ABC class of transporters, which are involved in vesicular trafficking. Transporter assays using radiolabeled Nelfinavir suggest that the drug accumulates in greater amounts in the resistant parasites and in a time dependent manner. Furthermore, high-resolution electron microscopy showed an increased number of vacuoles in Nelfinavir-resistant parasites. Together these results suggest that Nelfinavir is rapidly and dramatically sequestered in these intracellular vesicles.

Project description:An M307 G/A point mutation of FUT1 gene has been considered as a usful marker to select the piglets that are sensitive(GG/AG genotype) or resistant(AA) to Escherichia coli F18 in foreign pig breeds.However,it is not suitable to Chinese native breeds. Duodenal tissues were collected from 8 full-sib pairs of Sutai pigs (a new hybrid between the Duroc and Taihu breeds) at the age of 28-day differing in adhesion phenotype to find the differential genes that can be used as the candidate genes fit for Chinese native breeds. piglets at the age of 28-day sensitive (GG/AG genotype) to Escherichia coli F18 vs resistant(AA) ones.Biological replicates:8 full-sib pairs of Sutai pigs (4 pairs for GG/AA genotype of FUT1 gene, 4 pairs for AG/AA genotype)

Project description:<p>Rare individuals are highly resistant to infection with human immunodeficiency virus (HIV). Studies of candidate genes resulted in the discovery of a 32bp deletion in the CC-chemokine receptor 5 gene (CCR5&#916;32), which rendered this critical co-receptor for primary HIV infection to be non-functional. Pharmacologic and vaccine-induced blockade of CCR5 is being pursued to treat and prevent HIV infection and other conditions.</p> <p>The allele frequency of CCR5&#916;32 among persons of European ancestry is approximately 10%. CCR5&#916;32/&#916;32 homozygotes are almost totally resistant to HIV infection. People with severe hemophilia A require frequent replacement with clotting Factor VIII (FVIII) to control hemorrhage. Prior to the discovery of HIV in 1984 and licensure of recombinant FVIII in the late 1980s, people with severe hemophilia A were treated with plasma-derived FVIII and thus were intensively exposed to HIV. Only 5% of such patients were not infected with HIV. Of these, approximately 1/3 were CCR5&#916;32/&#916;32 homozygotes. The remaining 2/3 of these people who were highly resistant to HIV remain unexplained. This project seeks to discover genome variations among people who are highly resistant to HIV infection. Such variation is likely to serve as a target for reducing the morbidity and incidence of HIV. </p>

Project description:An M307 G/A point mutation of FUT1 gene has been considered as a usful marker to select the piglets that are sensitive(GG/AG genotype) or resistant(AA) to Escherichia coli F18 in foreign pig breeds.However,it is not suitable to Chinese native breeds. Duodenal tissues were collected from 8 full-sib pairs of Sutai pigs (a new hybrid between the Duroc and Taihu breeds) at the age of 28-day differing in adhesion phenotype to find the differential genes that can be used as the candidate genes fit for Chinese native breeds.