OBJECTIVE: To investigate the virological and immunological impact of a structured treatment interruption (STI) in a cohort of HIV-1 chronically infected patients with a further long-lasting effective virus suppression. METHODS: Twelve HIV-1 chronically infected adults who had maintained viral suppression (< 20 copies/ml) for more than 2 years, as well as a CD4:CD8 ratio > 1 for a median time of 22 months, were included in the study. Participants interrupted their antiretroviral treatment during a maximum period of 30 days or until a viral load rebound > 3000 copies/ml was detected. The same prior antiretroviral regimen was resumed after STI. Kinetics of plasma viral rebound was evaluated every 2 days during the treatment interruption period. Flow cytometry and cell proliferation assays were performed before and after STI. Genotypic resistance was assessed at the time of treatment resumption. RESULTS: No adverse events occurred during the interruption period. In two patients no viral rebound was detected after 30 days of treatment interruption. In the remaining 10 patients, viral load became detectable (> 20 copies/ml) at a median time of 14 days after treatment interruption. Afterwards, viral load increased exponentially with a mean t1/2 of 1.6 days. Treatment was successfully resumed in all patients. No resistance-conferring mutations associated with the pre-interruption antiretroviral regimen were detected. The percentage of CD4 and CD8 lymphocytes did not vary during the STI period; however, the level of expression of T-cell activation antigen CD38 on CD8 T cells increased significantly in response to viral rebound. Four patients gained T-helper cell responses to recall antigens (tuberculin and tetanus toxoid), two of who developed an HIV-specific response to p24. CONCLUSIONS: STI in chronically HIV-1-infected patients is not associated with reductions in CD4 T lymphocytes or to clinical complications in this group of patients after 2 years of effective plasma viral suppression. Viral load rebounds in most but not all patients, without evidence of selection of resistance-conferring mutations. Thereafter, viraemia can be effectively controlled by antiretroviral agent reintroduction. HIV-specific T-helper cell responses may be achieved after one cycle of treatment interruption suggesting some degree of immune-stimulation. These data do not discard consecutive cycles of STI as a therapeutic strategy to boost HIV-specific immunity in order to maintain viral replication under effective control.
OBJECTIVE: To investigate the virological and immunological impact of a structured treatment interruption (STI) in a cohort of HIV-1 chronically infectedpatients with a further long-lasting effective virus suppression. METHODS: Twelve HIV-1 chronically infected adults who had maintained viral suppression (< 20 copies/ml) for more than 2 years, as well as a CD4:CD8 ratio > 1 for a median time of 22 months, were included in the study. Participants interrupted their antiretroviral treatment during a maximum period of 30 days or until a viral load rebound > 3000 copies/ml was detected. The same prior antiretroviral regimen was resumed after STI. Kinetics of plasma viral rebound was evaluated every 2 days during the treatment interruption period. Flow cytometry and cell proliferation assays were performed before and after STI. Genotypic resistance was assessed at the time of treatment resumption. RESULTS: No adverse events occurred during the interruption period. In two patients no viral rebound was detected after 30 days of treatment interruption. In the remaining 10 patients, viral load became detectable (> 20 copies/ml) at a median time of 14 days after treatment interruption. Afterwards, viral load increased exponentially with a mean t1/2 of 1.6 days. Treatment was successfully resumed in all patients. No resistance-conferring mutations associated with the pre-interruption antiretroviral regimen were detected. The percentage of CD4 and CD8 lymphocytes did not vary during the STI period; however, the level of expression of T-cell activation antigen CD38 on CD8 T cells increased significantly in response to viral rebound. Four patients gained T-helper cell responses to recall antigens (tuberculin and tetanus toxoid), two of who developed an HIV-specific response to p24. CONCLUSIONS: STI in chronically HIV-1-infectedpatients is not associated with reductions in CD4 T lymphocytes or to clinical complications in this group of patients after 2 years of effective plasma viral suppression. Viral load rebounds in most but not all patients, without evidence of selection of resistance-conferring mutations. Thereafter, viraemia can be effectively controlled by antiretroviral agent reintroduction. HIV-specific T-helper cell responses may be achieved after one cycle of treatment interruption suggesting some degree of immune-stimulation. These data do not discard consecutive cycles of STI as a therapeutic strategy to boost HIV-specific immunity in order to maintain viral replication under effective control.
Authors: G M Ortiz; M Wellons; J Brancato; H T Vo; R L Zinn; D E Clarkson; K Van Loon; S Bonhoeffer; G D Miralles; D Montefiori; J A Bartlett; D F Nixon Journal: Proc Natl Acad Sci U S A Date: 2001-10-30 Impact factor: 11.205
Authors: Koen K A Van Rompay; Raman P Singh; Walid Heneine; Jeffrey A Johnson; David C Montefiori; Norbert Bischofberger; Marta L Marthas Journal: J Virol Date: 2006-07 Impact factor: 5.103
Authors: James A McKinnell; James H Willig; Andrew O Westfall; Christa Nevin; Jeroan J Allison; James L Raper; Michael J Mugavero; Michael S Saag Journal: AIDS Patient Care STDS Date: 2010-02 Impact factor: 5.078