St the mean CD96 MFI in the EC group (mean MFI = 606) was comparable to healthy controls and was significantly higher than that of the NC group (p , 0.01). To determine if the lower frequencies in CD96-expressing CD8+ T cells were a reflection of changes in the total T cell composition commonly seen in HIV-1 infected individuals, we also assessed absolute numbers of CD96+ T cells. We found that the number of CD8+ T cells expressing CD96 was similar in both HIV-1 groups and healthy controls suggesting that the total CD8+ T cell subset population was expanded in HIV-1 infected patients, with an increased CD96 negative population (data not shown). In contrast to CD96 expression and a previous report [19] CD226 expression on CD8+ T cells was unchanged in all HIV-1 infected subjects (data not shown). All together these results show that even though CD96 is considered a T cell activation marker, HIV-1 infection, in particular uncontrolled infection, appears to AZP-531 supplier promote downregulation of CD96 expression. Furthermore, despite the close relationship and similar characteristics of CD96 and CD226, they are differentially affected by HIV-1 infection.and TCM CD8+ T cells were significantly lower than in healthy controls, the majority of cells in these subsets maintained CD96 expression. The CD96 MFI in all subsets was comparable between EC and healthy controls (Fig. 1E). In the NC group, the CD96 MFI was slightly reduced in the TCM cell subset compared to healthy controls (p , 0.05). Additionally the CD96 MFI in the TEM cell subset was significantly lower in the NC group compared to both healthy controls (p , 0.001) and the EC group (p , 0.01). Since we had observed that the CD96 MFI for the total CD8+ T cell 15481974 population was higher in the EC group than in the NC group (Fig. 1C), this suggests that the difference in CD96 MFI between these groups was predominantly attributed to differential CD96 expression within the TEM population. Collectively, these results also indicate that CD8+ T cell differentiation alone is not sufficient to down-regulate CD96 expression.CD96 is Down-regulated Following Stimulation with LPSChronic immune activation is a well-established characteristic of HIV-1 infection and has been associated with factors such as inflammatory responses, the presence of LPS in plasma as a consequence of microbial translocation [20] and low levels of virus replication [21,22] resulting in continuous antigen stimulation of T cells. We assessed the immune activation status of individuals in our cohort measured by presence of CD38 and HLA-DR doublepositive CD8+ T cells and observed that immune activation was significantly higher in both the EC group (p , 0.05) and NC group (p , 0.001) compared to healthy individuals (Fig. 2A). AZP-531 However, the EC group had significantly lower immune activation compared to the NC group (p , 0.01). Furthermore, we found that immune activation was negatively correlated to both frequency of CD96+ CD8+ T cells (data not shown) and CD96 MFI (Fig. 2B, r = -0.46 p = 0.003, n = 40). However, there was no correlation between immune activation and CD96 MFI for the NC group alone. To determine if some of the stimuli related to immune activation may influence CD96 expression on CD8+ T cells, we stimulated PBMCs from healthy individuals in vitro with LPS, IL-12/IL-18, PHA or CD3 in combination with CD28. The frequency of CD96+CD8+ T cells was significantly lower after LPS (mean = 49.7 ), PHA (mean = 35.3 ) and anti-CD3/28 (mean = 45.St the mean CD96 MFI in the EC group (mean MFI = 606) was comparable to healthy controls and was significantly higher than that of the NC group (p , 0.01). To determine if the lower frequencies in CD96-expressing CD8+ T cells were a reflection of changes in the total T cell composition commonly seen in HIV-1 infected individuals, we also assessed absolute numbers of CD96+ T cells. We found that the number of CD8+ T cells expressing CD96 was similar in both HIV-1 groups and healthy controls suggesting that the total CD8+ T cell subset population was expanded in HIV-1 infected patients, with an increased CD96 negative population (data not shown). In contrast to CD96 expression and a previous report [19] CD226 expression on CD8+ T cells was unchanged in all HIV-1 infected subjects (data not shown). All together these results show that even though CD96 is considered a T cell activation marker, HIV-1 infection, in particular uncontrolled infection, appears to promote downregulation of CD96 expression. Furthermore, despite the close relationship and similar characteristics of CD96 and CD226, they are differentially affected by HIV-1 infection.and TCM CD8+ T cells were significantly lower than in healthy controls, the majority of cells in these subsets maintained CD96 expression. The CD96 MFI in all subsets was comparable between EC and healthy controls (Fig. 1E). In the NC group, the CD96 MFI was slightly reduced in the TCM cell subset compared to healthy controls (p , 0.05). Additionally the CD96 MFI in the TEM cell subset was significantly lower in the NC group compared to both healthy controls (p , 0.001) and the EC group (p , 0.01). Since we had observed that the CD96 MFI for the total CD8+ T cell 15481974 population was higher in the EC group than in the NC group (Fig. 1C), this suggests that the difference in CD96 MFI between these groups was predominantly attributed to differential CD96 expression within the TEM population. Collectively, these results also indicate that CD8+ T cell differentiation alone is not sufficient to down-regulate CD96 expression.CD96 is Down-regulated Following Stimulation with LPSChronic immune activation is a well-established characteristic of HIV-1 infection and has been associated with factors such as inflammatory responses, the presence of LPS in plasma as a consequence of microbial translocation [20] and low levels of virus replication [21,22] resulting in continuous antigen stimulation of T cells. We assessed the immune activation status of individuals in our cohort measured by presence of CD38 and HLA-DR doublepositive CD8+ T cells and observed that immune activation was significantly higher in both the EC group (p , 0.05) and NC group (p , 0.001) compared to healthy individuals (Fig. 2A). However, the EC group had significantly lower immune activation compared to the NC group (p , 0.01). Furthermore, we found that immune activation was negatively correlated to both frequency of CD96+ CD8+ T cells (data not shown) and CD96 MFI (Fig. 2B, r = -0.46 p = 0.003, n = 40). However, there was no correlation between immune activation and CD96 MFI for the NC group alone. To determine if some of the stimuli related to immune activation may influence CD96 expression on CD8+ T cells, we stimulated PBMCs from healthy individuals in vitro with LPS, IL-12/IL-18, PHA or CD3 in combination with CD28. The frequency of CD96+CD8+ T cells was significantly lower after LPS (mean = 49.7 ), PHA (mean = 35.3 ) and anti-CD3/28 (mean = 45.
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