11 matching studies

Sponsor Condition of Interest
Identification of post-translation drivers of immune cell misregulation
Rockefeller University Normal immunity
Methods for exerting control over relative quantities and activation states of different immune cell populations have the potential to positively impact autoimmunity cancer neurodegeneration infection and other human diseases. While large-scale transcriptional analyses have been invaluable for enha1 expand

Methods for exerting control over relative quantities and activation states of different immune cell populations have the potential to positively impact autoimmunity cancer neurodegeneration infection and other human diseases. While large-scale transcriptional analyses have been invaluable for enhancing our understanding of the molecular complexity of immune cell misregulation the extent to which they correlate with changes in protein biochemistry to create a landscape of new opportunities for targeting and selectively manipulating diverse immune cell states with small molecules remains largely unexplored. Furthermore the production of alternatively spliced protein isoforms(changes in RNA splicing) or additional changes following protein biosynthesis (also called post-translational modifications) that are associated with immune pathologies are also frequently poorly understood. This study aims to address this knowledge gap by applying advanced platforms that take advantage of chemical modification of proteins isolated from immune cells and further analysis of these modifications using modern mass-spectrometry tools to uncover previously overlooked alternative splicing or post-translational drivers of immune pathologies and leverage this knowledge for the development of advanced small molecule modulators of immune protein function that form chemical bonds with the respective protein targets.

Type: Observational

open study

HIV-1 RNA Plasma Levels and HIV-1 Integration Sites in HIV-1 Infected Subjects
Rockefeller University Human Immunodeficiency Virus
HIV-1 integrates into host cellular DNA and can persist in a latent state. Antiretroviral therapy (ART) might alter HIV-1 integration site selection. Current antiretroviral regimens are effective in lowering circulating HIV-1 RNA levels to less than 20 copies/ml but in approximately 50% of individu1 expand

HIV-1 integrates into host cellular DNA and can persist in a latent state. Antiretroviral therapy (ART) might alter HIV-1 integration site selection. Current antiretroviral regimens are effective in lowering circulating HIV-1 RNA levels to less than 20 copies/ml but in approximately 50% of individuals persistent low-level viremia can be detected despite years of suppressive ART. Moreover as anti-HIV-1 immune responses develop during the course of infection HIV-1 strains mutate to escape both humoral and cellular immune responses. style=>This study aims at evaluating circulating HIV-1 RNA levels by a single copy assay as well as characterize the HIV latent reservoir including quantification of infected cells and analyzing HIV-1 integration patterns of untreated and ART-treated participants. We will also evaluate the presence of cell-free HIV-1 DNA in plasma from people living with HIV which can serve as a biomarker of HIV-1-induced cell death. Lastly the study also aims at evaluating the sensitivity of viral strains to anti-HIV-1 broadly neutralizing antibodies.

Type: Observational

open study