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Analysis of CCR5 diversity in the South African populationBarmania, Fatima 07 August 2012 (has links)
Infection with the human immunodeficiency virus (HIV) constitutes a global pandemic, and South Africa forms part of the region known to house over two-thirds of HIV infected individuals worldwide. In the early stages of infection, the C-C chemokine receptor type five (CCR5) is the major HIV-1 co-receptor. The importance of this receptor in HIV infection and disease progression was recognised with the discovery of the CCR5 delta 32 (Δ32) allele. Individuals homozygous for this mutation lack functional CCR5 receptors. Consequently, they are almost completely resistant to HIV infection, while the absence of CCR5 has minimal effects on health. Heterozygous individuals display decreased cell surface CCR5 which slows disease progression. Phenotypic expression of CCR5 is heterogeneous and its relation to genetic mutations in the CCR5 gene is not currently known for the South African population. This together with the effect of CCR5 expression on HIV infection provided the rationale for investigating both the phenotypic and genotypic distribution of CCR5. The aim of this study was therefore 1) to investigate CCR5 phenotypic expression on cluster differentiation four (CD4) T-lymphocytes in a group of South African individuals and 2) to analyse the genetic variation in a South African cohort. Flow cytometric methods were used to measure the phenotypic distribution of CCR5 in 245 individuals by assessing both the percentage of CD4+CCR5+ T-cells and CCR5 density. Sixty five individuals, mostly found within the lower CCR5 receptor density range were selected for DNA sequencing. The study found considerable variability in CCR5 expression with South African individuals expressing relatively high CD4+CCR5+ T-cell percentages. Ethnicity was established as a significant variable affecting CCR5 expression with Black African individuals displaying higher (p <0.05) CD4+CCR5+ T-cell percentages and densities than Caucasians. Genotypic data revealed 70 single nucleotide polymorphisms (SNPs), four insertions and the ∆32 deletion. Results showed that Black African individuals have greater genetic diversity with 39 mutations exclusive to this group. The ∆32 mutation was not detected in the Black African group but was identified in the Caucasian group at a frequency of 18.6 %. Twelve novel mutations were identified in this study with two in the open reading frame (ORF). It is evident from the data that the variability in CCR5 phenotypic expression is difficult to correlate with specific mutations in the gene. This thesis provides information on CCR5 distribution and diversity in the South African population which will be of value to patients, clinicians and health policy officials. / Dissertation (MSc)--University of Pretoria, 2011. / Immunology / Unrestricted
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Coreceptor usage and sensitivity to neutralization of HIV-1 and HIV-2 /Shi, Yu, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.
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Modulação da severidade da doença periodontal experimental por células CCR5+ / Modulation of experimental periodontal disease severity by CCR5+ cellsFerreira Junior, Samuel de Barros 25 May 2009 (has links)
As doenças periodontais (DP) afetam os tecidos de suporte dos dentes e são desencadeadas por micro-organismos gram-negativos anaeróbios presentes no biofilme periodontal. A evolução da doença é influenciada pela resposta inflamatória e imunológica do hospedeiro e envolve a participação de diversos tipos celulares, que atuam no micro ambiente local modulando a resposta do hospedeiro em busca do controle da infecção. Acredita-se que citocinas inflamatórias, quimiocinas e seus receptores estão envolvidos na migração celular para os tecidos periodontais, contudo, pouco se sabe sobre os mecanismos de determinação de resistência ou susceptibilidade às DP; ou no desencadeamento do dano tecidual decorrente da resposta. Neste projeto, avaliou-se o papel das células CCR5+ na DP experimental induzida pela inoculação oral de Aggregatibacter actinomycetemcomitans em camundongos C57BL/6 wild type e camundongos CCR5-knockout. Os resultados mostram que a maioria das células CCR5+ possuem fenótipo compatível com células T do subtipo Th1, devido a co-expressão de CD3 e CXCR3; além de co-expressarem RANKL. Na ausência das células CCR5+, houve uma significativa diminuição da migração de células inflamatórias totais e RANKL+ para os tecidos periodontais, diminuição da reabsorção óssea alveolar, diminuição dos níveis de expressão de citocinas pró-inflamatórias TNFα-, IL-1β e IFN-γ, assim como diminuição na expressão de MMP-1, MMP-2 e MMP-13. Sua ausência não interferiu no controle da infecção periodontal apesar da diminuição dos níveis de iNOS. Estes resultados conduzem à conclusão de que a maioria das células CCR5+ são células T do subtipo Th1, que atuam como importantes moduladoras das citocinas TNFα-, IL-1β e IFN-γ, das metaloproteinases de matriz MMP-1, MMP-2 e MMP-13, e que também expressam e modulam a expressão de RANKL, tendo participação importante na imunopatogenese da DP experimental, sem interferir no controle da infecção periodontal. Estes fatos tornam as células CCR5+ potenciais alvos para intervenção terapêutica visando ao controle das doenças periodontais. / The periodontal diseases (PD) affect the supportive tissues of the teeth and are triggered by periodontopathogens present in the dental biofilm. The clinical outcome is highly influenced by the host inflammatory and immune response with participation of many cellular types, that act in the local microenvironment modulating the host response to control the infection. Inflammatory cytokines, chemokines and its receptors are thought to be involved in the cellular migration to the periodontal tissues, but there is little knowledge about the mechanisms of determination of resistance or susceptibility to the PD and in the triggering of tissue damage by immune response components. This study evaluated the role of CCR5+ cells in the experimental PD induced by oral inoculation of Aggregatibacter actinomycetemcomitans in C57BL/6 wild type mice and CCR5-knockout mice. The phenotypic analysis of inflammatory infiltrate demonstrated that the most of CCR5+ cells coexpress CD3 and CXCR3, suggesting a phenotype compatible with Th1-type cells, and also co-express RANKL. In the absence of CCR5+ cells there was a significant overall reduction of inflammatory cells and RANKL+ cells influx to the periodontal tissues, reduction in the alveolar bone resorption, reduction in the levels of pro-inflammatory cytokines TNFα-, IL-1β and IFN-γ expression, as a reduction in the expression of MMP-1, MMP-2 and MMP-13. The absence of CCR5+ cells did not impair the control of periodontal infection, despite the reduction of iNOS levels. In conclusion, these data demonstrate that the most of CCR5+ cells are Th1 cells, which act as important modulators of TNFα-, IL-1β and IFN-γ, MMP-1, MMP- 2 and MMP-13 levels, and which also express and modulate the expression of RANKL, playing an important role in the immunopathogenesis of experimental PD, without impairing the control of periodontal infection. These facts point to CCR5+ cells as potentials targets to therapeutic interventions aimed to control periodontal diseases.
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Modulação da severidade da doença periodontal experimental por células CCR5+ / Modulation of experimental periodontal disease severity by CCR5+ cellsSamuel de Barros Ferreira Junior 25 May 2009 (has links)
As doenças periodontais (DP) afetam os tecidos de suporte dos dentes e são desencadeadas por micro-organismos gram-negativos anaeróbios presentes no biofilme periodontal. A evolução da doença é influenciada pela resposta inflamatória e imunológica do hospedeiro e envolve a participação de diversos tipos celulares, que atuam no micro ambiente local modulando a resposta do hospedeiro em busca do controle da infecção. Acredita-se que citocinas inflamatórias, quimiocinas e seus receptores estão envolvidos na migração celular para os tecidos periodontais, contudo, pouco se sabe sobre os mecanismos de determinação de resistência ou susceptibilidade às DP; ou no desencadeamento do dano tecidual decorrente da resposta. Neste projeto, avaliou-se o papel das células CCR5+ na DP experimental induzida pela inoculação oral de Aggregatibacter actinomycetemcomitans em camundongos C57BL/6 wild type e camundongos CCR5-knockout. Os resultados mostram que a maioria das células CCR5+ possuem fenótipo compatível com células T do subtipo Th1, devido a co-expressão de CD3 e CXCR3; além de co-expressarem RANKL. Na ausência das células CCR5+, houve uma significativa diminuição da migração de células inflamatórias totais e RANKL+ para os tecidos periodontais, diminuição da reabsorção óssea alveolar, diminuição dos níveis de expressão de citocinas pró-inflamatórias TNFα-, IL-1β e IFN-γ, assim como diminuição na expressão de MMP-1, MMP-2 e MMP-13. Sua ausência não interferiu no controle da infecção periodontal apesar da diminuição dos níveis de iNOS. Estes resultados conduzem à conclusão de que a maioria das células CCR5+ são células T do subtipo Th1, que atuam como importantes moduladoras das citocinas TNFα-, IL-1β e IFN-γ, das metaloproteinases de matriz MMP-1, MMP-2 e MMP-13, e que também expressam e modulam a expressão de RANKL, tendo participação importante na imunopatogenese da DP experimental, sem interferir no controle da infecção periodontal. Estes fatos tornam as células CCR5+ potenciais alvos para intervenção terapêutica visando ao controle das doenças periodontais. / The periodontal diseases (PD) affect the supportive tissues of the teeth and are triggered by periodontopathogens present in the dental biofilm. The clinical outcome is highly influenced by the host inflammatory and immune response with participation of many cellular types, that act in the local microenvironment modulating the host response to control the infection. Inflammatory cytokines, chemokines and its receptors are thought to be involved in the cellular migration to the periodontal tissues, but there is little knowledge about the mechanisms of determination of resistance or susceptibility to the PD and in the triggering of tissue damage by immune response components. This study evaluated the role of CCR5+ cells in the experimental PD induced by oral inoculation of Aggregatibacter actinomycetemcomitans in C57BL/6 wild type mice and CCR5-knockout mice. The phenotypic analysis of inflammatory infiltrate demonstrated that the most of CCR5+ cells coexpress CD3 and CXCR3, suggesting a phenotype compatible with Th1-type cells, and also co-express RANKL. In the absence of CCR5+ cells there was a significant overall reduction of inflammatory cells and RANKL+ cells influx to the periodontal tissues, reduction in the alveolar bone resorption, reduction in the levels of pro-inflammatory cytokines TNFα-, IL-1β and IFN-γ expression, as a reduction in the expression of MMP-1, MMP-2 and MMP-13. The absence of CCR5+ cells did not impair the control of periodontal infection, despite the reduction of iNOS levels. In conclusion, these data demonstrate that the most of CCR5+ cells are Th1 cells, which act as important modulators of TNFα-, IL-1β and IFN-γ, MMP-1, MMP- 2 and MMP-13 levels, and which also express and modulate the expression of RANKL, playing an important role in the immunopathogenesis of experimental PD, without impairing the control of periodontal infection. These facts point to CCR5+ cells as potentials targets to therapeutic interventions aimed to control periodontal diseases.
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