The high-affinity receptor for IgG, FcgammaRI, shares its capacity to bind IgG2a immune complexes (IgG2a-IC) with the low-affinity receptor FcgammaRIII and complement factors, hampering the definition of its biological role. Moreover, in vivo, FcgammaRI is occupied by monomeric IgG2a, reducing its accessibility to newly formed IgG2a-IC. By using a variety of FcgammaR(-/-) mice, we demonstrate that in the absence of FcgammaRI, the IgG2a-IC-induced cellular processes of phagocytosis, cytokine release, cellular cytotoxicity, and antigen presentation are impaired. FcgammaRI(-/-) mice showed impaired hypersensitivity responses, strongly reduced cartilage destruction in an arthritis model, and impaired protection from a bacterial infection. We conclude that FcgammaRI contributes substantially to a variety of IgG2a-IC-dependent immune functions and immunopathological responses.
Leptin is an adipocyte-secreted hormone, the circulating levels of which correlate
closely with overall adiposity. Although rare mutations in the leptin (LEP)
gene are well known to cause leptin deficiency and severe obesity, no common loci
regulating circulating leptin levels have been uncovered. Therefore, we performed a
genome-wide association study (GWAS) of circulating leptin levels from 32,161
individuals and followed up loci reaching
P<10−6 in 19,979 additional individuals.
We identify five loci robustly associated (P<5 ×
10−8) with leptin levels in/near LEP,
SLC32A1, GCKR, CCNL1 and FTO. Although the
association of the FTO obesity locus with leptin levels is abolished by
adjustment for BMI, associations of the four other loci are independent of
adiposity. The GCKR locus was found associated with multiple metabolic traits
in previous GWAS and the CCNL1 locus with birth weight. Knockdown experiments
in mouse adipose tissue explants show convincing evidence for adipogenin, a
regulator of adipocyte differentiation, as the novel causal gene in the
SLC32A1 locus influencing leptin levels. Our findings provide novel
insights into the regulation of leptin production by adipose tissue and open new
avenues for examining the influence of variation in leptin levels on adiposity and
metabolic health.
Using three different Fcγ receptor (FcγR)-deficient mouse strains, we examined the induction of autoimmune hemolytic anemia by each of the four immunoglobulin (Ig)G isotype-switch variants of a 4C8 IgM antierythrocyte autoantibody and its relation to the contributions of the two FcγR, FcγRI, and FcγRIII, operative in the phagocytosis of opsonized particles. We found that the four IgG isotypes of this antibody displayed striking differences in pathogenicity, which were related to their respective capacity to interact in vivo with the two phagocytic FcγRs, defined as follows: IgG2a > IgG2b > IgG3/IgG1 for FcγRI, and IgG2a > IgG1 > IgG2b > IgG3 for FcγRIII. Accordingly, the IgG2a autoantibody exhibited the highest pathogenicity, ∼20–100-fold more potent than its IgG1 and IgG2b variants, respectively, while the IgG3 variant, which displays little interaction with these FcγRs, was not pathogenic at all. An unexpected critical role of the low-affinity FcγRIII was revealed by the use of two different IgG2a anti–red blood cell autoantibodies, which displayed a striking preferential utilization of FcγRIII, compared with the high-affinity FcγRI. This demonstration of the respective roles in vivo of four different IgG isotypes, and of two phagocytic FcγRs, in autoimmune hemolytic anemia highlights the major importance of the regulation of IgG isotype responses in autoantibody-mediated pathology and humoral immunity.
Dendritic cells (DCs) are the only APCs capable of initiating adaptive immune responses. The initiation of immune responses requires that DCs 1) internalize and present Ags; and 2) undergo a differentiation process, called “maturation”, which transforms DCs into efficient APCs. DC maturation may be initiated by the engagement of different surface receptors, including certain cytokine receptors (such as TNFR), Toll-like receptors, CD40, and FcRs. The early activation events that link receptor engagement and DC maturation are not well characterized. We found that FcR engagement by immune complexes induced the phosphorylation of Syk, a protein tyrosine kinase acting immediately downstream of FcRs. Syk was dispensable for DC differentiation in vitro and in vivo, but was strictly required for immune complexes internalization and subsequent Ag presentation to T lymphocytes. Importantly, Syk was also required for the induction of DC maturation and IL-12 production after FcR engagement, but not after engagement of other surface receptors, such as TNFR or Toll-like receptors. Therefore, protein tyrosine phosphorylation by Syk represents a novel pathway for the induction of DC maturation.
Synovitis severity on CE-MRI assessed by a new whole knee scoring system by Guermazi et al. is a valid, non-invasive method to determine synovitis as it is significantly correlated with both macroscopic and microscopic features of synovitis in knee OA patients.
Anti-citrullinated protein antibodies (ACPA) are specifi c for rheumatoid arthritis (RA), their presence is predictive for development to RA and have been implicated in diseasepathogenesis in animal studies. Despite the important implications for diagnoses and etiology, the natural development and biology of the ACPA response is poorly studied. Here the authors determined the avidity and avidity maturation of the ACPA response and compared this to the avidity of antibodies against recall-antigens.Our data show that the avidity of ACPA against several citrullinated antigens is considerably lower as compared to the avidity of antibodies against recall antigens such as tetanus toxoid or diphtheria toxoid. Intriguingly, despite high titers and extensive isotype switching, no avidity maturation in the ACPA response was observed during longitudinal follow-up.Our data indicate that the natural evolution of ACPA differs from the development of antibodies against prototype T cell dependent recall antigens. Moreover, these data point to an independency of avidity maturation and isotype-switching where full-isotype switching is taking place in the face of restricted and/or hampered avidity maturation.As avidity maturation of ACPA differs from avidity maturation of antibodies to recall antigens, our data are of relevance to the design of anti-B cell therapeutics.
Objective: Inflammation and innate immune responses may contribute to development and progression of Osteoarthritis (OA). Chondrocytes are the sole cell type of the articular cartilage and produce extracellular-matrix molecules. How inflammatory mediators reach chondrocytes is incompletely understood. Previous studies have shown that chondrocytes express mRNA encoding complement proteins such as C1q, suggesting local protein production, which has not been demonstrated conclusively. The aim of this study is to explore C1q production at the protein level by chondrocytes. Design: We analysed protein expression of C1q in freshly isolated and cultured human articular chondrocytes using western blot, ELISA and flow cytometry. We examined changes in mRNA expression of collagen, MMP-1 and various complement genes upon stimulation with proinflammatory cytokines or C1q. mRNA expression of C1 genes was determined in articular mouse chondrocytes. Results: Primary human articular chondrocytes express genes encoding C1q, C1QA, C1QB, C1QC, and secrete C1q to the extracellular medium. Stimulation of chondrocytes with pro-inflammatory cytokines upregulated C1QA, C1QB, C1QC mRNA expression, although this was not confirmed at the protein level. Extracellular C1q bound to the chondrocyte surface in a dose dependent manner. In a pilot study, binding of C1q to chondrocytes resulted in changes in the expression of collagens with a decrease in collagen type 2 and an increase in type 10. Mouse articular chondrocytes also expressed C1QA, C1QB, C1QC, C1R and C1S at the mRNA level. Conclusions: C1q protein can be expressed and secreted by human articular chondrocytes and is able to bind to chondrocytes impacting collagen expression.
were frozen or incubated for 24h in serum-free media. Visfatin/NAMPT conformation and release in media by the different tissues was evaluated using Western Blot (WB) and ELISA, respectively. In parallel, proteins were extracted from frozen joint tissues to assess the in situ production and conformation of visfatin/NAMPT by WB. NAMPT enzymatic activity was also assessed in OA synovium using Cyclex colorimetric assay. Primary cultures of mouse chondrocytes and osteoblasts were stimulated with recombinant visfatin/NAMPT (5 mg/mL) for 24h. To determine
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