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- Title
Antigen Presentation and T-Cell Activation Are Critical for RBP4-Induced Insulin Resistance.
- Authors
Moraes-Vieira, Pedro M.; Castoldi, Angela; Aryal, Pratik; Wellenstein, Kerry; Peroni, Odile D.; Kahn, Barbara B.
- Abstract
Adipose tissue (AT) inflammation contributes to impaired insulin action, which is a major cause of type 2 diabetes. RBP4 is an adipocyte- and liver-derived protein with an important role in insulin resistance, metabolic syndrome, and AT inflammation. RBP4 elevation causes AT inflammation by activating innate immunity, which elicits an adaptive immune response. RBP4-overexpressing mice (RBP4-Ox) are insulin resistant and glucose intolerant and have increased AT macrophages and T-helper 1 cells. We show that high-fat diet-fed RBP4(-/-) mice have reduced AT inflammation and improved insulin sensitivity versus wild type. We also elucidate the mechanism for RBP4-induced macrophage antigen presentation and subsequent T-cell activation. In RBP4-Ox, AT macrophages display enhanced c-Jun N-terminal kinase, extracellular signal-related kinase, and p38 phosphorylation. Inhibition of these pathways and of NF-κB reduces activation of macrophages and CD4 T cells. MyD88 is an adaptor protein involved in proinflammatory signaling. In macrophages from MyD88(-/-) mice, RBP4 fails to stimulate secretion of tumor necrosis factor, IL-12, and IL-6 and CD4 T-cell activation. In vivo blockade of antigen presentation by treating RBP4-Ox mice with CTLA4-Ig, which blocks costimulation of T cells, is sufficient to reduce AT inflammation and improve insulin resistance. Thus, MyD88 and downstream mitogen-activated protein kinase and NF-κB pathways are necessary for RBP4-induced macrophage antigen presentation and subsequent T-cell activation. Also, blocking antigen presentation with CTLA4-Ig improves RBP4-induced insulin resistance and macrophage-induced T-cell activation.
- Subjects
ADIPOSE tissues; INFLAMMATION; TYPE 2 diabetes risk factors; METABOLIC syndrome; FAT cells; ANIMALS; ANTIGEN presenting cells; BONE marrow; CARRIER proteins; CELL culture; CELLULAR immunity; DIET; IMMUNITY; IMMUNOLOGY technique; INSULIN resistance; MACROPHAGES; RESEARCH methodology; MICE; OBESITY; SPLEEN; T cells; TISSUE culture; GENETIC carriers; GLUCOSE intolerance
- Publication
Diabetes, 2016, Vol 65, Issue 5, p1317
- ISSN
0012-1797
- Publication type
journal article
- DOI
10.2337/db15-1696