Doctoral Degrees (Haematological Pathology)
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Browsing Doctoral Degrees (Haematological Pathology) by Subject "Flow cytometry"
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- ItemInvestigating platelet function and immune activation in HIV-infection(Stellenbosch : Stellenbosch University, 2015-04) Nkambule, Bongani Brian; Ipp, Hayley; Davison, Glenda; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Haematological Pathology.ENGLISH ABSTRACT: Introduction In the era of antiretroviral therapy (ART), people living with Human Immunodeficiency Virus (HIV) now have prolonged life spans. An emerging trend of non- acquired immune deficiency syndrome (AIDS) related complications now prevails in the aging HIV infected population. Increased levels of inflammation and chronic immune activation are associated with HIV infection. In the era of ART people living with HIV are at an increased risk of cardiovascular disease (CVD). Platelets play a pivotal role in both inflammation and immune activation and upon activation platelets degranulate and secrete various inflammatory, coagulatory and adhesion molecules. Activated platelets express surface P-selectin (CD62P) and are a key component of the coagulation pathway and serve as a link between inflammation and thrombosis. Activated platelets have been implicated in inflammatory and cardiovascular disease and have been identified as immune cells that play a crucial role in pathogen recognition and modulation of immune cells during infections. Several antiviral and antibacterial properties of platelet alpha granule contents have been established. Platelet aggregometry remains the most widely used technique to evaluate platelet function even though this technique is limited by many pre-analytical variables. Platelet flow cytometry on the other hand offers a rapid measurement of platelet function in their physiological environment with minimal artefactual activation. Few studies have however reported on standardized methods to evaluate platelet function in the context of HIV. Platelet function remains unclear and data on HIV infected treatment naïve individuals remains scarce. The aim of this project was to examine the relationship between platelet function and immune activation in patients with HIV Materials and methods This study consisted of five sub-studies, firstly platelet indices and levels of platelet activation were determined in a cohort of 330 participants (185 HIV infected ARV naïve and 145 uninfected healthy controls) using; flow cytometry and haemotology analyzers. The relationship between these indices and markers of platelet activation, disease progression and immune activation were assessed. Furthermore, levels of platelet activation and aggregation were evaluated in a cohort of 82 participants (41 HIV infected (ARV naïve) individuals and 41 uninfected healthy controls), using a novel whole blood flow cytometry based functional assay. These baseline levels were then correlated with markers of immune activation and disease progression in HIV. In a subsequent study, platelet function in a cohort consisting of 58 HIV infected (ARV naïve) and 38 uninfected controls was evaluated using flow cytometry. Platelet response was measured post stimulation with adenosine diphosphate (ADP) at concentrations known to induce reversible (0.04mM) and irreversible (0.2mM) platelet aggregation. In order to assess platelet function in HIV, platelet response was evaluated in a cohort consisting of 58 HIV infected (ARV naïve) and 38 uninfected controls. Platelets were activated using varying concentrations of ADP, arachidonic acid (AA) and collagen and platelet function was measured using flow cytometry. Levels of circulating platelet leukocyte aggregates (PLAs) were also measured using flow cytometry in a cohort consisting of 35 HIV-infected (ARV naïve) individuals and 32 uninfected healthy controls. Associations between PLAs, immune activation and disease progression in HIV infected individuals were determined. The final study evaluated platelet aggregates, platelet derived microparticles (PMPs) and microparticles (MPs) in a cohort consisting of 46 HIV infected (ARV-naïve) and 40 uninfected healthy controls. Associations between MPs, PMPs, platelet aggregates and markers of immune activation and disease progression were evaluated. Results HIV infected individuals showed decreased mean platelet volume levels (HIV mean 7.91 ± 0.85 vs. 8.52 ± 1.12, p<0.0001) that directly correlated with CD4 counts (r=-0.2898, p=0.0075) and viral load (r=0.2680, p=0.0177). Platelet distribution width (PDW) levels directly correlated (r=0.3455, p=0.0362) with active coagulation and inversely correlated (r=-0.3666, p=0.0463) with platelet aggregation. HIV infected individuals showed increased levels of platelet activation (%CD62P median 11.33[5.96-29.36] vs. control group 2.48[1.56-6.04], p=0.0001). In HIV, platelet function is retained and platelets showed increased response to submaximal concentrations of endogenous agonists. HIV infected individuals showed increased levels of circulating platelet monocyte aggregates (25.26[16.16-32.28] vs. control group 14.12[8.36- 18.83], p=0.0001) that directly correlated with markers of immune activation; %CD38/8 (r=0.54624, p=0.0155), viral load (r=0.633, p<0.009). Furthermore we report on increased levels of circulating MPs (median %MPs 1.7[0.95-2.83] vs. Control group 1.12[0.63-1.57], p=0.0160); PMPs (median %PMPs 26.64[11.33-36.62] vs. Control group 20.02[18.08-26.08], p=0.0133); activated PMPs (median CD62P MFI 3.81[3.46-4.54] vs. Control group 3.41[3.16-3.6], p=0.0037) and platelet aggregates (Median %CD62P 14.10[5.49-39.94] vs. Control group 0.17[0.10-10.99], p= 0.0097) in HIV infected asymptomatic individuals. Conclusion This study supports the potential use of the MPV and PDW as readily available markers of platelet activation and immune activation in HIV. We also showed elevated levels of activated platelets in HIV infected individuals that were hyper responsive to endogenous agonists in a concentration dependent manner. Platelet flow cytometry is a rapid and valuable technique in the evaluation of platelet function in HIV. The measurement of platelet function using flow cytometry allows the evaluation of platelet signalling pathways that may be modified in HIV infected individuals. Lastly we describe an optimized whole blood flow cytometry based assay for the evaluation of circulating microparticles (MPs), platelet derived microparticles (PMPs) and levels of activated platelets and aggregates which mimics the in vivo physiological environment of MPs. To the best of our knowledge, this study is the first to report on a novel approach in evaluating platelet function in HIV using a series of optimised whole blood flow cytometry based platelet assays. In addition, minimal work has been performed previously on platelet function in the context of HIV-infection; and particularly in a cohort of asymptomatic, untreated patients as defined for this study.