Frank Tallet scite author profile

International audienceAlphaviruses, including Chikungunya virus (CHIKV), produce a transient illness in humans, but severe forms leading to chronic incapacitating arthralgia/arthritis have been reported by mechanisms largely ill-characterized. The pathogenesis of CHIKV was addressed in a prospective cohort study of 49 hospitalized patients from Reunion Island subsequently categorized into two distinct groups at 12 mo postinfection. Comprehensive analyses of the clinical and immunological parameters throughout the disease course were analyzed in either the “recovered” or the “chronic” groups to identify prognostic markers of arthritis-like pathology after CHIKV disease. We found that the chronic group consisted mainly of more elderly patients (\textgreater60 y) and with much higher viral loads (up to 1010 viruses per milliliter of blood) during the acute phase. Remarkably, a rapid innate immune antiviral response was demonstrated by robust dendritic/NK/CD4/CD8 cell activation and accompanied by a rather weak Th1/Th2 cytokine response in both groups. Interestingly, the antiviral immune response witnessed by high levels of IFN-α mRNA in PBMCs and circulating IL-12 persisted for months only in the chronic group. CHIKV (RNA and proteins) was found in perivascular synovial macrophages in one chronic patient 18 mo postinfection surrounded by infiltrating NK and T cells (CD4++ but rare cytotoxic CD8). Fibroblast hyperplasia, strong angiogenesis, tissue lesions given the high levels of matrix metalloproteinase 2, and acute cell death [high cleaved poly(ADP-ribose) polymerase staining] were observed in the injured synovial tissue. These observed cellular and molecular events may contribute to chronic arthralgia/arthritis targeted by methotrexate used empirically for effective treatment but with immunosuppressive function in a context of viral persistence

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Signaling pathways involved in LPS induced TNFalpha production in human adipocytes

Hoareau¹,

Bencharif²,

Rondeau³

et al. 2010

J Inflamm

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BackgroundThe development of obesity has been linked to an inflammatory process, and the role of adipose tissue in the secretion of pro-inflammatory molecules such as IL-6 or TNFalpha has now been largely confirmed. Although TNFalpha secretion by adipose cells is probably induced, most notably by TLR ligands, the activation and secretion pathways of this cytokine are not yet entirely understood. Moreover, given that macrophagic infiltration is a characteristic of obesity, it is difficult to clearly establish the level of involvement of the different cellular types present within the adipose tissue during inflammation.MethodsPrimary cultures of human adipocytes and human peripheral blood mononuclear cells were used. Cells were treated with a pathogen-associated molecular pattern: LPS, with and without several kinase inhibitors. Western blot for p38 MAP Kinase was performed on cell lysates. TNFalpha mRNA was detected in cells by RT-PCR and TNFalpha protein was detected in supernatants by ELISA assays.ResultsWe show for the first time that the production of TNFalpha in mature human adipocytes is mainly dependent upon two pathways: NFkappaB and p38 MAP Kinase. Moreover, we demonstrate that the PI3Kinase pathway is clearly involved in the first step of the LPS-pathway. Lastly, we show that adipocytes are able to secrete a large amount of TNFalpha compared to macrophages.ConclusionThis study clearly demonstrates that the LPS induced activation pathway is an integral part of the inflammatory process linked to obesity, and that adipocytes are responsible for most of the secreted TNFalpha in inflamed adipose tissue, through TLR4 activation.

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Anti‐inflammatory Effect of Palmitoylethanolamide on Human Adipocytes

Hoareau¹,

Buyse

Festy³

et al. 2009

Obesity

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Obesity leads to the appearance of an inflammatory process, which can be initiated even with a moderate weight gain. Palmitoylethanolamide (PEA) is an endogenous lipid, secreted by human adipocytes, that possesses numerous anti‐inflammatory properties. The main purpose of this study was to investigate the anti‐inflammatory effect of PEA on human adipocytes, as well as in a murine model. The production of tumor necrosis factor–α (TNF‐α) by lipopolysaccharide (LPS)‐treated human subcutaneous adipocytes in primary culture and CF‐1 mice was investigated by enzyme‐linked immunosorbent assay. The effects of PEA on adipocyte TNF‐α secretion were explored as well as some suspected PEA anti‐inflammatory pathways: nuclear factor–κB (NF‐κB) pathway, peroxisome proliferator‐activated receptor–α (PPAR‐α) gene expression, and TNF‐α‐converting enzyme (TACE) activity. The effects of PEA on the TNF‐α serum concentration in intraperitoneally LPS‐treated mice were also studied. We demonstrate that the LPS induced secretion of TNF‐α by human adipocytes is inhibited by PEA. This action is neither linked to a reduction in TNF‐α gene transcription nor to the inhibition of TACE activity. Moreover, PPAR‐α is not implicated in this anti‐inflammatory activity. Lastly, PEA exhibits a wide‐reaching anti‐inflammatory action as the molecule is able to completely inhibit the strong increase in TNF‐α levels in the serum of mice treated with high doses of LPS. In view of its virtual lack of toxicity, PEA might become a potentially interesting candidate molecule in the prevention of obesity‐associated insulin resistance.

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Oxidative stresses induced by glycoxidized human or bovine serum albumin on human monocytes

Rondeau¹,

Singh²,

Caillens

et al. 2008

Free Radical Biology and Medicine

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Effect of the Cannabinoid Receptor-1 antagonist SR141716A on human adipocyte inflammatory profile and differentiation

et al. 2011

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BackgroundObesity is characterized by inflammation, caused by increase in proinflammatory cytokines, a key factor for the development of insulin resistance. SR141716A, a cannabinoid receptor 1 (CB1) antagonist, shows significant improvement in clinical status of obese/diabetic patients. Therefore, we studied the effect of SR141716A on human adipocyte inflammatory profile and differentiation.MethodsAdipocytes were obtained from liposuction. Stromal vascular cells were extracted and differentiated into adipocytes. Media and cells were collected for secretory (ELISA) and expression analysis (qPCR). Triglyceride accumulation was observed using oil red-O staining. Cholesterol was assayed by a fluorometric method. 2-AG and anandamide were quantified using isotope dilution LC-MS. TLR-binding experiments have been conducted in HEK-Blue cells.ResultsIn LPS-treated mature adipocytes, SR141716A was able to decrease the expression and secretion of TNF-a. This molecule has the same effect in LPS-induced IL-6 secretion, while IL-6 expression is not changed. Concerning MCP-1, the basal level is down-regulated by SR141716A, but not the LPS-induced level. This effect is not caused by a binding of the molecule to TLR4 (LPS receptor). Moreover, SR141716A restored adiponectin secretion to normal levels after LPS treatment. Lastly, no effect of SR141716A was detected on human pre-adipocyte differentiation, although the compound enhanced adiponectin gene expression, but not secretion, in differentiated pre-adipocytes.ConclusionWe show for the first time that some clinical effects of SR141716A are probably directly related to its anti-inflammatory effect on mature adipocytes. This fact reinforces that adipose tissue is an important target in the development of tools to treat the metabolic syndrome.

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Frank Tallet

Persistent Chronic Inflammation and Infection by Chikungunya Arthritogenic Alphavirus in Spite of a Robust Host Immune Response

Signaling pathways involved in LPS induced TNFalpha production in human adipocytes

Anti‐inflammatory Effect of Palmitoylethanolamide on Human Adipocytes

Oxidative stresses induced by glycoxidized human or bovine serum albumin on human monocytes

Effect of the Cannabinoid Receptor-1 antagonist SR141716A on human adipocyte inflammatory profile and differentiation

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