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Publications in Inflammation by NOMIS researchers

Chronic T cell proliferation in brains after stroke could interfere with the efficacy of immunotherapies

NOMIS Researcher(s)

Published in

May 26, 2021

Neuroinflammation is an emerging focus of translational stroke research. Preclinical studies have demonstrated a critical role for brain-invading lymphocytes in post-stroke pathophysiology. Reducing cerebral lymphocyte invasion by anti-CD49d antibodies consistently improves outcome in the acute phase after experimental stroke models. However, clinical trials testing this approach failed to show efficacy in stroke patients for the chronic outcome 3 mo after stroke. Here, we identify a potential mechanistic reason for this phenomenon by detecting chronic T cell accumulation—evading the systemic therapy—in the post-ischemic brain. We observed a persistent accumulation of T cells in mice and human autopsy samples for more than 1 mo after stroke. Cerebral T cell accumulation in the post-ischemic brain was driven by increased local T cell proliferation rather than by T cell invasion. This observation urges re-evaluation of current immunotherapeutic approaches, which target circulating lymphocytes for promoting recovery after stroke.

Research field(s)
Health Sciences, Clinical Medicine, Immunology

DOI
10.1084/jem.20202411

Characterization of Immune Cells from Adipose Tissue

NOMIS Researcher(s)

Published in

September 1, 2019

Adipose tissue (AT) serves a crucial role in maintaining organismal metabolic homeostasis. Studies have demonstrated that AT is populated with a diverse array of immune cells that coordinate and regulate AT function. This adipo-immune system is highly dynamic, reflecting the physiologic state of the organism (e.g., obese, lean, aged, or young) as well as the constant physiologic remodeling of AT associated with the daily rhythms of fasting and feeding. Many of the adaptive and maladaptive functional changes of AT are regulated by changes in the quantity and quality of distinct sets of AT-resident immune cells. Here we present protocols to assess the dynamic state of the immune system within AT by constructing censuses of adipose-resident immune cells (macrophages, dendritic cells, neutrophils, eosinophils, NK cells, innate lymphocytes, T cells, and B cells, etc.) based on flow cytometry, which we term adipo-immune profiles (AIPs). Constructing AIPs can be an integral part of assessment for AT health and function. This article describes the protocols to generate such AIPs. © 2019 by John Wiley & Sons, Inc.

Research field(s)
Health Sciences, Clinical Medicine, Immunology

DOI
10.1002/cpim.86

Depletion of fat-resident T reg cells prevents age-associated insulin resistance

NOMIS Researcher(s)

Published in

December 3, 2015

Age-associated insulin resistance (IR) and obesity-associated IR are two physiologically distinct forms of adult-onset diabetes. While macrophage-driven inflammation is a core driver of obesity-associated IR, the underlying mechanisms of the obesity-independent yet highly prevalent age-associated IR are largely unexplored. Here we show, using comparative adipo-immune profiling in mice, that fat-resident regulatory T cells, termed fT reg cells, accumulate in adipose tissue as a function of age, but not obesity. Supporting the existence of two distinct mechanisms underlying IR, mice deficient in fT reg cells are protected against age-associated IR, yet remain susceptible to obesity-associated IR and metabolic disease. By contrast, selective depletion of fT reg cells via anti-ST2 antibody treatment increases adipose tissue insulin sensitivity. These findings establish that distinct immune cell populations within adipose tissue underlie ageing- and obesity-associated IR, and implicate fT reg cells as adipo-immune drivers and potential therapeutic targets in the treatment of age-associated IR.

Research field(s)
Health Sciences, Clinical Medicine, Immunology

DOI
10.1038/nature16151

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