Clinical Trial to Evaluate the Effect of Raltegravir Intensification (1.200 mg QD) on the Gut Microbiota of Chronically HIV-1 Infected Subject Over Time: THE RAGTIME STUDY
brief summary
The project presented here will be the first prospective, randomized evaluation of the effect of ART on the structure and function of the gut microbiome. This study provides a unique opportunity to understand the benefits of ART with high intestinal penetration on the gut microbiome. It is thus a key study to understand the bidirectional interactions between the microbiome and the host in people living with HIV/AIDS.
detailed description
The gut microbiome is essential for the maturation of the neonatal immune system and the adequate development and function of adult immune responses. HIV-1 infection in children and adults exerts a rapid and severe depletion of gut-associated lymphoid tissue, which damages the intestinal barrier, allowing translocation of gut commensal bacteria into the systemic circulation. Bacterial translocation causes chronic inflammation and immune activation, which lead to immune deterioration and premature aging of HIV-1-infected subjects, including metabolic disturbances, cardiovascular diseases, cognitive disorders and HIV-associated cancers. Persistence of residual HIV-1 replication in the presence of ART has been associated to incomplete HIV-1 suppression in gut lymphatic tissues due to suboptimal tissular penetration of PI/s or NNRTIs.
In previous work in our institute, the investigators have observed that HIV-1 infection is independently associated with significant reductions in the gut microbiome richness, which is, in turn, are inversely correlated with systemic inflammation. Reduced microbial richness, for example, has been associated with intestinal inflammatory diseases and well as with metabolic syndrome, diabetes and obesity and correlated with metabolic markers.
Recovering bacterial richness might thus have a positive impact on immune activation, chronic inflammation and the overall health of HIV-infected individuals. However, achieving that goal will possibly require, alongside potential bacterial supplementations, the use of ART with high penetration into gut lymphoid tissue to limit as much as possible the continued damage exerted by residual HIV replication on the GALT. Antiretroviral drugs with higher intestinal penetration like raltegravir may be more effective at recovering the intestinal microbiome composition and function than those with lower gut penetration like darunavir or the NNRTIs. Thereby, raltegravir intensification could be associated with increases in intestinal microbial richness, implying an improvement on intestinal and overall health.
Despite the lack of evidence on that regard, previous studies from our group and others would favor that hypothesis. Residual HIV-1 replication in plasma can be deterred by ART intensification with raltegravir, which is, in part, due to the high penetration of raltegravir in intestinal tissues. Moreover, raltegravir intensification decreases peripheral CD8 T-cell activation CD45RA (-) and creates a transient CD4 T-cell redistribution, which revert after raltegravir withdrawal.
The project presented here will be the first prospective, randomized evaluation of the effect of ART on the structure and function of the gut microbiome. This study provides a unique opportunity to understand the benefits of ART with high intestinal penetration on the gut microbiome. It is thus a key study to understand the bidirectional interactions between the microbiome and the host in people living with HIV/AIDS
official title
Randomized, Double-blind, Placebo-controlled Clinical Trial to Evaluate the Effect of Raltegravir Intensification (1.200 mg QD) on the Gut Microbiota of Chronically HIV-1 Infected Subject Over Time: THE RAGTIME