Optimal maturation of the SIV-specific CD8⁺T-cell response after primary infection is associated with natural control of SIV. ANRS SIC study

Abstract: 27Highly efficient virus-specific CD8 + T-cells are associated with immune control of HIV 28 infection, but it remains unclear how these cells are generated and maintained over time. 29 We used a macaque model of spontaneous control of SIVmac251 infection to monitor the 30 development and evolution of potent antiviral CD8 + T-cell responses. SIV-specific CD8 + T-31 cells emerged during primary infection in all animals. However, the ability of CD8 + T cells to 32 suppress SIV replication was low in early sta… Show more

“…Consistent with Passaes et al (23) , we defined as “controllers” individuals having two consecutive plasma SIV-RNA lower than 400 cp/mL and with no consecutive SIV-RNA higher than 400 cp/mL afterwards, while others were defined as viremic. With this definition, 12 individuals were defined as controllers (3 in the non-M6/high inoculum, 4 in non-M6/low inoculum, 5 in the M6 groups) and 4 were characterized as viremic (3 in the non-M6/high inoculum, 1 in M6/high inoculum, 0 in the non-H6/low inoculum groups).…”

“…Our hypothesis of a central role of the cytotoxic response is also consistent with measurements of CD8 + T-cell cytotoxic activity (Figures 3 and 4). Overall, we found our predictions of the actively producing infected cells half-life to match in several animals the change in ex vivo CD8 + T-cell dependent direct antiviral activity but not with the frequency of SIV-specific CD8 + T cells, indicating that the key determinant of control is not the magnitude per se but rather the cytotoxic potential of the CD8 + T-cell response (23) . However it should be acknowledged that this is not the case for all NHPs.…”

“…In order to develop a model to predict the mechanisms associated with natural control of HIV/SIV infections and to characterize the different cell compartments contributing to HIV/SIV reservoirs, we took advantage of the ANRS SIC study (23) . Briefly, we analyzed the kinetics of SIV-RNA and SIV-DNA of cynomolgus macaques naturally controlling (n=12) and non-controlling (n=4) SIV infection, monitored for virologic and immunologic parameters along 18 months.…”

“…Kinetics of SIV-RNA and SIV-DNA loads are described in (23) (see also Figure S1). In brief, all macaques showed a similar pattern during acute infection, with a median SIV-RNA at peak of 6.2 (min-max: [5.13; 7.09]) log cp/mL and a median time to peak of 14 days ([11-17]).…”

“…Data used in this study were obtained from the ANRS SIC study (23) . Briefly, it included 16 male cynomolgus macaques, all infected intrarectally with SIV mac251 and followed for 18 months after viral exposure without any treatment.…”

Modeling SIV kinetics supports that cytotoxic response drives natural control and unravels heterogeneous populations of infected cells

“…Consistent with Passaes et al (23) , we defined as “controllers” individuals having two consecutive plasma SIV-RNA lower than 400 cp/mL and with no consecutive SIV-RNA higher than 400 cp/mL afterwards, while others were defined as viremic. With this definition, 12 individuals were defined as controllers (3 in the non-M6/high inoculum, 4 in non-M6/low inoculum, 5 in the M6 groups) and 4 were characterized as viremic (3 in the non-M6/high inoculum, 1 in M6/high inoculum, 0 in the non-H6/low inoculum groups).…”

“…Our hypothesis of a central role of the cytotoxic response is also consistent with measurements of CD8 + T-cell cytotoxic activity (Figures 3 and 4). Overall, we found our predictions of the actively producing infected cells half-life to match in several animals the change in ex vivo CD8 + T-cell dependent direct antiviral activity but not with the frequency of SIV-specific CD8 + T cells, indicating that the key determinant of control is not the magnitude per se but rather the cytotoxic potential of the CD8 + T-cell response (23) . However it should be acknowledged that this is not the case for all NHPs.…”

“…In order to develop a model to predict the mechanisms associated with natural control of HIV/SIV infections and to characterize the different cell compartments contributing to HIV/SIV reservoirs, we took advantage of the ANRS SIC study (23) . Briefly, we analyzed the kinetics of SIV-RNA and SIV-DNA of cynomolgus macaques naturally controlling (n=12) and non-controlling (n=4) SIV infection, monitored for virologic and immunologic parameters along 18 months.…”

“…Kinetics of SIV-RNA and SIV-DNA loads are described in (23) (see also Figure S1). In brief, all macaques showed a similar pattern during acute infection, with a median SIV-RNA at peak of 6.2 (min-max: [5.13; 7.09]) log cp/mL and a median time to peak of 14 days ([11-17]).…”

“…Data used in this study were obtained from the ANRS SIC study (23) . Briefly, it included 16 male cynomolgus macaques, all infected intrarectally with SIV mac251 and followed for 18 months after viral exposure without any treatment.…”

Modeling SIV kinetics supports that cytotoxic response drives natural control and unravels heterogeneous populations of infected cells

Immunometabolism and HIV-1 pathogenesis: food for thought

NK cell spatial dynamics and IgA responses in gut-associated lymphoid tissues during SIV infections