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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Genetic studies report the existence of a mutant allele Delta32 of
CCR5 chemokine receptor
gene at high allele frequencies (approximately 10%) in Caucasian populations. The presence of this allele is believed to provide partial or full resistance to
HIV
. In this study, we look at the impact of education, temporarily effective vaccines and therapies on the dynamics of
HIV
in homosexually active populations. In our model, it is assumed that some individuals possess one or two mutant alleles (like Delta32 of CCR5) that prevent the successful invasion or replication of
HIV
. Our model therefore differentiates by genetic and epidemiological status and naturally ignores the reproduction process. Furthermore,
HIV
infected individuals are classified as rapid, normal or slow progressors. In this complex setting, the basic reproductive number R0 is derived in various situations. The separate or combined effects of therapies, education, vaccines, and genetic resistance are analyzed. Our results support the conclusions of Hsu Schmitz that some integrated intervention strategies are far superior to those based on a single approach. However, treatment programs may have effects which counteract each other, as may genetic resistance.
...
PMID:Effects of education, vaccination and treatment on HIV transmission in homosexuals with genetic heterogeneity. 1473 80
Transducing macrophages and other phagocytic cells has been problematic because these cells are largely nondividing and can phagocytose and degrade viral gene delivery vectors. Because of their carriage of the
CCR5 chemokine receptor
that functions as a coreceptor for most clinical strains of
HIV
, these cells are also key targets in early
HIV infection
and dissemination. We describe here a strategy to transduce these phagocytes, reduce cell membrane CCR5, and protect from infection with R5-tropic
HIV
. Recombinant Tag-deleted SV40 vectors were used to transduce unselected CCR5-bearing cell lines and primary cells with >98% efficiency. rSV40s were designed to express two different anti-CCR5 small interfering RNAs (siRNAs), driven by the adenoviral VA1 polymerase III (pol III) promoter, which localizes the transcripts in the cytoplasm. Transduction with both siRNAs substantially reduced CCR5 mRNA, which in turn decreased detectable cell membrane CCR5. Both CCR5+ cell lines and primary cells were used: SupT1/CCR5 cells, monocyte-derived macrophages (MDM), and primary human brain microglia. In addition, one siRNA, siRNA R5 #5, was designed to recognize conserved sequences in both murine and human CCR5 mRNA and effectively reduced CCR5 transcript in cells of both species. These siRNAs largely protected CCR5+ cell lines and primary human macrophages and brain microglia from challenge with R5-tropic
HIV
. Therefore, strategies to target CCR5 using rSV40-delivered, VA promoter-driven siRNAs may be useful therapeutic options for treating
HIV infection
.
...
PMID:Targeting CCR5 with siRNAs: using recombinant SV40-derived vectors to protect macrophages and microglia from R5-tropic HIV. 1500 Aug 19
The
CCR5 chemokine receptor
is important for most clinical strains of
HIV
to establish infection. Individuals with naturally occurring polymorphisms in the CCR5 gene who have reduced or absent CCR5 are apparently otherwise healthy, but are resistant to
HIV infection
. With the goal of reducing CCR5 and protecting CCR5+ cells from R5-tropic
HIV
, we used Tag-deleted SV40-derived vectors to deliver several anti-CCR5 transgenes: 2C7, a single-chain Fv (SFv) antibody; VCKA1, a hammerhead ribozyme; and two natural CCR5 ligands, MIP-1alpha and MIP-1beta, modified to direct these chemokines, and hence their receptor to the endoplasmic reticulum. These transgenes were delivered using recombinant, Tag-deleted SV40-derived vectors to human CCR5+ cell lines and primary cells: monocyte-derived macrophages and brain microglia. All transgenes except MIP-1alpha decreased CCR5, as assayed by immunostaining, Northern blotting, and cytofluorimetry (FACS). Individually, all transgenes except MIP-1alpha protected from low challenge doses of
HIV
. At higher dose
HIV
challenges, protection provided by all transgenes diminished, the SFv and the ribozyme being most potent. Vectors carrying these two transgenes were used sequentially to deliver combination anti-CCR5 genetic therapy. This approach gave approximately additive reduction in CCR5, as measured by FACS and protected from higher dose
HIV
challenges. Reducing cell membrane CCR5 using anti-CCR5 transgenes, alone or in combinations, may therefore provide a degree of protection from R5-tropic strains of
HIV
.
...
PMID:Protecting from R5-tropic HIV: individual and combined effectiveness of a hammerhead ribozyme and a single-chain Fv antibody that targets CCR5. 1529 15
The
CCR5 chemokine receptor
is expressed on a wide range of immune cell types and binding to this receptor mediates cellular entry by the majority of
HIV
isolates. Blocking viral entry via this receptor reduces the viral load in patients infected with
HIV
, suggesting that a CCR5 antagonist could become a key component in the treatment of
HIV
-compromised patients. A number of CCR5 antagonists are currently in clinical trials. This review details the status of leading agents and highlights recent advances in the development of new CCR5 antagonists.
...
PMID:CCR5 antagonists for the treatment of HIV. 1560 Feb 41
The
CCR5 chemokine receptor
is exploited by
HIV
-1 to gain entry into CD4+ T cells. A deletion mutation (Delta32) confers resistance against
HIV
by obliterating the expression of the receptor on the cell surface. Intriguingly, this allele is young in evolutionary time, yet it has reached relatively high frequencies in Europe. These properties indicate that the mutation has been under intense positive selection.
HIV
-1 has not exerted selection for long enough on the human population to drive the CCR5-Delta32 allele to current frequencies, fueling debate regarding the selective pressure responsible for rise of the allele. The allele exists at appreciable frequencies only in Europe, and within Europe, the frequency is higher in the north. Here we review the population genetics of the CCR5 locus, the debate over the historical selective pressure acting on CCR5-Delta32, the inferences that can potentially be drawn from the geographic distribution of CCR5-Delta32 and the role that other genetic polymorphisms play in conferring resistance against
HIV
. We also discuss parallel evolution that has occurred at the CCR5 locus of other primate species. Finally, we highlight the promise that therapies based on interfering with the CCR5 receptor could have in the treatment of
HIV
.
...
PMID:The evolutionary history of the CCR5-Delta32 HIV-resistance mutation. 1571 76
CCR5 antagonists represent promising anti-
HIV
agents. Yet, if the
CCR5 chemokine receptor
plays a positive role in hepatitis C virus (HCV) infection, CCR5 antagonists might be contraindicated in HCV/
HIV
-coinfected subjects. Therefore, we tested the hypothesis that the level of T-cell surface CCR5 expression, which might determine the intensity of HCV-specific T-cell recruitment into the liver, and thereby the efficiency of the anti-HCV response, could determine HCV disease evolution. For this purpose, we compared CCR5 density, measured by quantitative flow cytometry at the surface of nonactivated (human leukocyte antigen-D-related [HLA-DR]-) T cells of 51 HCV/
HIV
patients, with HCV load, serum aminotransferase levels, and liver histology (inflammatory activity, fibrosis, and rate of fibrosis progression). DR-CD4+ T-cell surface CCR5 density, which correlated with DR-CD8+ T-cell surface CCR5 density and was stable over time in HCV/
HIV
-coinfected individuals, did not correlate with any of the biologic parameters of HCV infection analyzed and was not linked to the capacity to clear the virus. In conclusion, we failed to demonstrate any impact of interindividual variability in T-cell surface CCR5 density on HCV infection, which would have argued against the use of CCR5 antagonists in
HIV
/HCV-coinfected subjects.
...
PMID:T-Cell surface CCR5 density is not correlated with hepatitis severity in hepatitis C virus/HIV-coinfected individuals: implications for the therapeutic use of CCR5 antagonists. 1573 49
Lentiviral vectors are among the most efficient tools for gene delivery into mammalian cells. A major goal of lentiviral gene delivery systems is to develop vectors that can efficiently target specific cell types. In the present work, we attempt to generate viral particles for targeting gene delivery. We have used CCR5-positive cells as the target for our strategy. Therefore, we developed a novel Sindbis pseudotyped lentiviral vector where the Sindbis receptor binding envelope protein was modified to directly encode a single-chain antibody fragment (scFv) against the
CCR5 chemokine receptor
. We have generated two chimeric scFv-Sindbis envelopes, varying the length of the peptide linker that connects the heavy chain and light chain of anti-CCR5 scFv. The two chimeric scFv-Sindbis envelopes were successfully incorporated into lentiviral-derived vectors, and the resulting pseudotyped viral particles showed specific targeting to CCR5-expressing cells. However, our data demonstrate that the length of the peptide linker significantly affects the efficiency of infection. Pseudotyped viral particles, which display single-chain antibody fragments with longer peptide linkers, allowed higher titers of infection. The present study can be a model strategy for specific gene delivery mediated by lentiviral vectors pseudotyped with Sindbis envelope displaying scFv that recognizes specific cellular surface proteins. Furthermore, this strategy has the potential to become a powerful approach for targeting gene delivery in anti-
HIV
gene therapy due to the important role of CCR5 expression in disease progression.
...
PMID:Cell type-specific targeting with sindbis pseudotyped lentiviral vectors displaying anti-CCR5 single-chain antibodies. 1576 Dec 62
The chemokine receptors CXCR4 and CCR5 are the main coreceptors used by the T-cell-tropic (CXCR4-using, X4) and macrophage-tropic (CCR5-using, R5)
HIV
-1 strains, respectively, for entering their CD4+ target cells. In this review, we focus on the function of these chemokine receptors in
HIV infection
and their role as novel targets for viral inhibition. Besides some modified chemokines with antiviral activity, several low-molecular weight CCR5 and CXCR4 antagonistic compounds have been described with potent antiviral activity. The best CXCR4 antagonists described are the bicyclam derivatives, which consistently block X4 but also R5/X4 viral replication in PBMCs. We believe that chemokine receptor antagonists will become important new antiviral drugs to combat AIDS. Both CXCR4 and
CCR5 chemokine receptor
inhibitors will be needed in combination and even in combinations of antiviral drugs that also target other aspects of the
HIV
replication cycle to obtain optimum antiviral therapeutic effects.
...
PMID:HIV chemokine receptor inhibitors as novel anti-HIV drugs. 1600 54
A 32-basepair deletion polymorphism in the
CCR5 chemokine receptor
gene (CCR5 TROKUT 32) could increase the resistance to
HIV
-1 infection or delayed progression to AIDS. This mutant allele is common among Caucasians of Western European descent, but has not been observed in people of African or Asian ancestry. Genetic studies provided in European countries have shown a highest prevalence in Nordic countries and the lowest in the Southern European and Mediterranean populations. We genotyped 303 randomly selected healthy Croatians for the prevalence of CCR5 TROKUT 32 mutation. CCR5 TROKUT 32 allele frequency in Croatia of 7.1% fits in the observed European north/south gradient. This first report of CCR5 TROKUT 32 mutation in Croatian population provides additional information on its frequency and geographical distribution in Slavic populations in South-Eastern Europe. Moreover, our data may have important implications for the prediction and prevention of
HIV
/AIDS in a tourist country such as Croatia.
...
PMID:Frequency of CCR5 gene 32-basepair deletion in Croatian normal population. 1662 99
The Delta32 mutation at the CCR5 locus is a well-studied example of natural selection acting in humans. The mutation is found principally in Europe and western Asia, with higher frequencies generally in the north. Homozygous carriers of the Delta32 mutation are resistant to
HIV
-1 infection because the mutation prevents functional expression of the
CCR5 chemokine receptor
normally used by
HIV
-1 to enter CD4+ T cells.
HIV
has emerged only recently, but population genetic data strongly suggest Delta32 has been under intense selection for much of its evolutionary history. To understand how selection and dispersal have interacted during the history of the Delta32 allele, we implemented a spatially explicit model of the spread of Delta32. The model includes the effects of sampling, which we show can give rise to local peaks in observed allele frequencies. In addition, we show that with modest gradients in selection intensity, the origin of the Delta32 allele may be relatively far from the current areas of highest allele frequency. The geographic distribution of the Delta32 allele is consistent with previous reports of a strong selective advantage (>10%) for Delta32 carriers and of dispersal over relatively long distances (>100 km/generation). When selection is assumed to be uniform across Europe and western Asia, we find support for a northern European origin and long-range dispersal consistent with the Viking-mediated dispersal of Delta32 proposed by G. Lucotte and G. Mercier. However, when we allow for gradients in selection intensity, we estimate the origin to be outside of northern Europe and selection intensities to be strongest in the northwest. Our results describe the evolutionary history of the Delta32 allele and establish a general methodology for studying the geographic distribution of selected alleles.
...
PMID:The geographic spread of the CCR5 Delta32 HIV-resistance allele. 1621 86
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