Author:
Doyon-Laliberté Kim,Aranguren Matheus,Byrns Michelle,Chagnon-Choquet Josiane,Paniconi Matteo,Routy Jean-Pierre,Tremblay Cécile,Quintal Marie-Claude,Brassard Nathalie,Kaufmann Daniel E,Poudrier Johanne,Roger Michel
Abstract
AbstractWe have shown that excess B-cell activating factor (BAFF) in the blood of HIV-infected individuals, is concomitant with increased frequencies of precursor-like marginal zone (MZp) B-cells, early on and despite successful antiretroviral therapy (ART). We have recently reported that in HIV-uninfected individuals, MZp possess a strong B-cell regulatory (Breg) potential. As such, MZp B-cells highly express IL-10, the orphan nuclear receptors (NR)4A1, NR4A2, NR4A3, the regulatory molecule CD83, as well as ectonucleotidases CD39 and CD73, all of which are associated with regulation of inflammation. Moreover, the Breg function of MZp B-cells involves CD83 signals. Herein, in order to address the impact of HIV infection and excessive BAFF environment on MZp B-cells and their regulatory capacities, we have performed transcriptomic analyses by RNA-seq of sorted MZp B-cells from the blood of HIV-infected progressors. The Breg profile and function of blood MZp B-cells from HIV-infected progressors were assessed by flow-cytometry and light microscopy high content screening (HCS) analyses, respectively. In addition, the effects of excess BAFF on the Breg profile of MZp B-cells from HIV-uninfected controls were investigated in vitro. We report significant downregulation of NR4A1, NR4A2, NR4A3 and CD83 gene transcripts in blood MZp B-cells from HIV-infected progressors when compared to HIV-uninfected controls. NR4A1, NR4A3 and CD83 protein expression levels and Breg function were also downregulated in blood MZp B-cells from HIV-infected progressors and not restored by ART. Moreover, we observe decreased expression levels of NR4A1, NR4A3, CD83 and IL-10 by blood and tonsillar MZp B-cells from HIV-uninfected individuals following treatment with excess BAFF, which significantly diminished their regulatory function. These findings suggest that excess BAFF contributes to the alteration of the Breg potential of MZp B-cells, which could lead to a loss of “immune surveillance”, during HIV infection and possibly in other situations where BAFF is found in excess.Author SummaryThe precursor-like marginal zone (MZp) B-cell population, we previously described in human blood and tonsils, presents with an important regulatory “Breg” potential, depicted by elevated nuclear receptor (NR)4As expression levels, similarly to Tregs, and to our knowledge currently underexplored in human Breg studies. Herein, we present the impact that a chronic inflammatory context such as HIV-infection, and its excessive B-cell activating factor (BAFF) environment, may exert on the Breg capacities of MZp, both ex vivo and in vitro, significantly affecting their NR4As expression levels and Breg function. These findings are of growing significance, especially with the recently described importance of MZ B-cell NR4A1 expression in atherosclerosis immune surveillance. The finding that immune surveillance may be altered in circumstances of chronic inflammation and excessive BAFF, is of pivotal interest, as treated HIV-infected individuals often prematurely develop co-morbidities associated with aging such as cardiovascular diseases (CVD). Moreover, excess BAFF has been reported in several inflammatory autoimmune contexts where CVD is the leading cause of death.
Publisher
Cold Spring Harbor Laboratory