Masters Degrees (Medical Virology)
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Browsing Masters Degrees (Medical Virology) by browse.metadata.advisor "Ipp, Hayley"
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- ItemB lymphocyte activation and exhaustion in chronic HIV : novel surrogate markers of generalised immune activation and selective modulation of aberrant B cell responses using vasoactive intestinal peptide (VIP)(Stellenbosch : Stellenbosch University, 2015-04) Reid, Timothy Dawson; Glashoff, Richard H.; Ipp, Hayley; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.ENGLISH ABSTRACT: Introduction: Chronic HIV-1 infection is characterized by immune activation and dysregulation of immune homeostasis, which impacts on multiple immune cell types. The B-cell compartment, which plays an important role in the producing neutralizing antibodies, is also dysregulated in HIV- 1 infection. In this study we investigated peripheral blood B-cell subset distribution, and changes in expression of cellular activation, inhibition, and apoptosis signaling markers in both untreated chronic HIV-1 infected individuals and healthy uninfected controls. The neuropeptide immune modulator, vasoactive intestinal peptide (VIP) is known to selectively down-regulate activation of CD4+ T-cells in various disease settings including HIV-1, however to our knowledge, no studies have investigated the effect of VIP inhibition on B-cell activation. Materials & Methods: A total of 21 HIV+ve (CD4 count >250 cells/µl), and 19 HIV-ve individuals were recruited from the Emavundleni voluntary testing and counseling clinic in Crossroads, Western Province, South Africa. Whole blood was stained to distinguish B-cell subsets (activated memory (AM: CD21-CD27+), resting memory (RM: CD21+CD27+), mature naïve (MN: CD21+CD27-), or tissue-like memory (TLM: CD21loCD27lo). In addition expression of markers of B-cell activation (CD126, CD86, CD38, CD284, CD287), inhibition (CD72, CD85j, CD300a, CD305, CD307d), and apoptosis signaling (CD95), was assessed ex vivo by flow cytometry (BD FACSCanto II). For determination of functional responsiveness isolated B-cells (RosetteSep, Stemcell Technologies) were cultured for 18h (37°C, 5%CO2) without stimulation or stimulated with TLR ligands (LPS or R848). Stimulation experiments were also performed in the presence or absence of VIP. Results: Chronic HIV-1 infection affected B-cell subset distribution. The percentage (%) of TLM was increased by 59.24%, and %RM was decreased by 22.73% (both p<0.01). Total expression of the VIP receptor VPAC2 was decreased by 47.35% (p=0.0296). Subsets had a mixed phenotype ex vivo; HIV infection upregulated CD38 (by 59.56%, p=0.0004), CD72 (by 60.70%, p=0.0396), CD307d (by 68.63%, p=0.0015) on AM, while RM B-cells had increased expression of TLR4 (by 107.04%, p=0.0057) and TLR7 (by 208.14%, p=0.0199). TLM B cells (i.e. exhausted phenotype) displayed upregulated TLR7 (by 550%, p=0.0128) and CD307d (by 72.40% p=0.045) expression. MN B-cells had increased CD72 expression (by 70.98%, p=0.0026). R848 upregulated CD86 expression by 42.20% on AM (p<0.01), and by 56.06% on RM B-cells (p<0.01), which was significantly downregulated with VIP inhibition (both p<0.05). Similarly, CD95 expression on RM, TLM, and MN B-cells increased by 31.10% (p<0.001), 21.46% (p<0.01), and 39.92% (p<0.01) with R848 stimulation respectively, which was also significantly downregulated with VIP inhibition. Conclusion: These data indicate that B-cells in untreated HIV infection display increased levels of activation, and also the potential for increased susceptibility to apoptosis as evidenced by increased FAS (CD95) expression. VIP significantly down-regulated markers of activation, inhibition, and apoptosis signaling. Dysregulation of B-cells is thus apparent in asymptomatic stable chronic HIV-1 infection, which may impact on both inefficient neutralizing antibody production and hypergammaglobulinemia. The ability of VIP to prevent stimulationassociated marker upregulation may indicate that VIP is a potential therapeutic agent. Its immuno-modulatory properties were demonstrated to limit B-cell hyperactivation, and selectively down-regulate apoptosis and mark it out for further investigation.
- ItemErythrocyte apoptosis (erythroptosis) and anaemia in chronic HIV-1 infection : relationship with immune activation and viraemia(Stellenbosch : Stellenbosch University, 2013-12) Loots, Stanley; Glashoff, Richard H.; Ipp, Hayley; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology, Medical Virology.ENGLISH ABSTRACT: Chronic HIV-1 infection is characterized by extensive inflammation/immune activation and also by anaemia. Macrophages and neutrophils produce reactive oxygen species (ROS) which can cause damage to surrounding cells, including erythrocytes. Damaged erythrocytes may die by apoptosis (erythroptosis) or be tagged for clearance by monocytes/ macrophages. In this study we investigated HIV-1-associated anaemia and erythroptosis in asymptomatic, untreated HIV-1 infected individuals and how it relates to oxidative stress and immune activation.
- ItemMonocytes in chronic HIV-1 infection : changes in phenotypic marker expression and their relationship with immune activation(Stellenbosch : Stellenbosch University, 2014-12) Poovan, Karmistha; Glashoff, Richard; Ipp, Hayley; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology, Medical Virology.ENGLISH ABSTRACT: HIV-infection is characterized by depletion of CD4+ T-cells from the gut-associated lymphoid tissue (GALT) which causes irreparable gastrointestinal tract damage and subsequent microbial translocation of bacterial products such as lipopolysaccharide (LPS), a component of Gram-negative bacteria, into systemic circulation. HIV infection also affects the functions and relative population sizes of various immune cells, such as monocytes. Monocytes are important innate immune cells as they are often the first cells recruited to sites of infection and inflammation. They then either promote inflammatory processes; elicit adaptive immune responses, through their antigen presenting ability; aid in pathogen and debris clearance or aid in damage repair. This cross-sectional study investigated functional changes to monocytes and monocyte subsets (CD14+CD16- and CD14+CD16+) in HIV+, treatment naïve individuals and healthy uninfected controls, using whole blood assays and isolated monocytes. A number of chemokine receptors associated with function and homing, and specific gut-homing receptors, were investigated. Monocyte activation, apoptotic potential and intracellular monocyte cytokine production were also investigated. All markers were evaluated using multi-parameter flow cytometry. Monocyte responsiveness to in vitro LPS stimulation and expression of the afore-mentioned chemokine receptors to viral load, CD4+ count and CD38/8 T-cell expression was also assessed. During HIV-infection monocytes appeared primed to exit systemic circulation and migrate towards the gut, as seen through elevated CD62-L (p < 0.005) and CCR7 (p < 0.005), whereas the CD14+CD16+ subset was increased (p = 0.0461) and exhibited a higher activation status through increased CD69 expression (p < 0.005) compared to the CD14+CD16- subset. An interesting observation was the significantly increased IL-10 production by the CD14+CD16+ subset (p < 0.005). An elevated CCR5 expression in total monocytes (p < 0.005) was also seen. After LPS stimulation, the HIV+ group displayed unique and significant percentage increases in the total monocyte population. The findings of the current study suggest that monocyte functionality may be retained during HIV-infection and that CD14+CD16+ monocytes play a vital role during HIV-infection evidenced by their preferential expansion and priming for GALT migration. The production of IL-10 by this subset further highlights their importance and emphasizes the need for future studies on the role of these cells in chronic stable HIV-1 infection and whilst disease progresses.