Soluble LR11/SorLA represses thermogenesis in adipose tissue and correlates with BMI in humans.

Thermogenesis in brown adipose tissue (BAT) is an important component of energy expenditure in mammals. Recent studies have confirmed its presence and metabolic role in humans. Defining the physiological regulation of BAT is therefore of great importance for developing strategies to treat metabolic diseases. Here we show that the soluble form of the low-density lipoprotein receptor relative, LR11/SorLA (sLR11), suppresses thermogenesis in adipose tissue in a cell-autonomous manner. Mice lacking LR11 are protected from diet-induced obesity associated with an increased browning of white adipose tissue and hypermetabolism. Treatment of adipocytes with sLR11 inhibits thermogenesis via the bone morphogenetic protein/TGFβ signalling pathway and reduces Smad phosphorylation. In addition, sLR11 levels in humans are shown to positively correlate with body mass index and adiposity. Given the need for tight regulation of a tissue with a high capacity for energy wastage, we propose that LR11 plays an energy conserving role that is exaggerated in states of obesity.AW and AVP were supported by FP7 – BetaBAT, BBSRC (BB/J009865/1), the British Heart Foundation (PG/12/53/29714) and MDU MRC. MJ and HB were supported by Japan Health and Labour Sciences Research grant (H22-rinkensui-ippan-001) and Grants-in–aid for Scientific Research from Japanese Ministry of Education, Culture, Sports, Science and Technology (24390231 and 24790907). VP was supported by Wellcome Trust and the Cambridge Overseas Trust. JR was supported by Ministerio de Educación, through “Programa Nacional de Movilidad de Recursos Humanos del Plan Nacional de I-D+i 2008-2011 (Subprograma de Estancias de Movilidad en el Extranjero “José Castillejo” para jóvenes Doctores, ref: JC2011-0248). SV was supported by MRC. WJS was supported by the Austrian Science Fund (FWF P-20218 and P-20455). Animal work was performed at the MDU DMC Core facilities.This is the final version of the article. It first appeared from NPG via http://dx.doi.org/10.1038/ncomms995

Soluble LR11/SorLA represses thermogenesis in adipose tissue and correlates with BMI in humans

Thermogenesis in brown adipose tissue (BAT) is an important component of energy expenditure in mammals. Recent studies have confirmed its presence and metabolic role in humans. Defining the physiological regulation of BAT is therefore of great importance for developing strategies to treat metabolic diseases. Here we show that the soluble form of the low-density lipoprotein receptor relative, LR11/SorLA (sLR11), suppresses thermogenesis in adipose tissue in a cell-autonomous manner. Mice lacking LR11 are protected from diet-induced obesity associated with an increased browning of white adipose tissue and hypermetabolism. Treatment of adipocytes with sLR11 inhibits thermogenesis via the bone morphogenetic protein/TGFb signalling pathway and reduces Smad phosphorylation. In addition, sLR11 levels in humans are shown to positively correlate with body mass index and adiposity. Given the need for tight regulation of a tissue with a high capacity for energy wastage, we propose that LR11 plays an energy conserving role that is exaggerated in states of obesity

Bartonella henselae Infection as a Cause of Fever of Unknown Origin

Fourteen of 41 patients (34%) with a serological diagnosis of Bartonella henselae infection were found to have prolonged fever or fever of unknown origin, suggesting that generalized systemic B. henselae infection is not rare in immunocompetent healthy individuals

Screening of biomarkers for liver adenoma in low-dose-rate γ-ray-irradiated mice

<p><b>Purpose:</b> Chronic low-dose-rate (20 mGy/day) γ-irradiation increases the incidence of hepatocellular adenomas (HCA) in female B6C3F1 mice. The purpose of this study is to identify potential serum biomarkers for these HCAs by a new approach.</p> <p><b>Material and methods:</b> Microarray analysis were performed to compare the gene expression profiles of HCAs from mice exposed to low-dose-rate γ-rays with those of normal livers from non-irradiated mice. From the differentially expressed genes, those for possibly secretory proteins were selected. Then, the levels of the proteins in sera were analysed by ELISA.</p> <p><b>Results:</b> Microarray analysis identified 4181 genes differentially expressed in HCAs (>2.0-fold). From these genes, those for α-fetoprotein (Afp), α-1B-glycoprotein (A1bg) and serine peptidase inhibitor Kazal type-3 (Spink3) were selected as the genes for candidate proteins. ELISA revealed that the levels of Afp and A1bg proteins in sera significantly increased and decreased, respectively, in low-dose-rate irradiated mice with HCAs and also same tendency was observed in human patients with hepatocellular carcinomas.</p> <p><b>Conclusion:</b> These results indicate that A1bg could be a new serum biomarker for liver tumor. This new approach of using microarray to select genes for secretory proteins is useful for prediction of novel tumor markers in sera.</p

Therapeutic Effect of SHI-219, A Novel Water Soluble Prodrug of EG626 (Phtalazinol), on Mouse Dextran Sodium Sulfate -Induced Colitis

Cytokines such as IL-1β, tumor necrosis factor (TNF)-α, IL-6 and IL-8 are increased, and leukotriene (LT)B4, thromboxane (TX)B2 and PGE2 participate in inflamed colonic mucosa after administration of mouse dextran sodium sulfate (DSS). EG626 (Phthalazinol), has been shown to inhibit cyclic AMP phosphodiesterase in arteries and platelets, has an effect of anti-inflammation. The effect of SHI-219, a novel water soluble prodrug of EG626, was examined in mouse DSS-induced colitis using drinking water containing 5% DSS. When SHI-219 was given everyday, the disease activity index (DAI) representing clinical symptoms improved and the histological score decreased; furthermore, IL-1β, IL-6, and TNF-α concentrations in rectal mucosa were lower compared with the Control group. Also TXB2 and LTB4 concentrations in rectal mucosa were lower, but PGE2 concentrations in rectal mucosa were not inhibited. And then Cyclooxygenase (COX)-2 expression also correlated with the degree of inflammation in the intestinal mucosa in the SHI-219 -treated group, indicating that SHI-219 did not inhibit COX-2 expression by immunohistochemical staining. These results suggest that administration of SHI-219 may be effective in ulcerative colitis

Metformin reduces circulating malondialdehyde-modified low-density lipoprotein in type 2 diabetes mellitus

Purpose: Type 2 diabetes is known to be associated with increasing cardiovascular mortality. Malondialdehyde-modified LDL (MDA-LDL) is an oxidized LDL and is increased in patients with diabetes or hypertriglyceridemia. Elevated MDA-LDL has been reported to be a risk factor of atherosclerosis or cardiovascular disease. Sitagliptin is a dipeptidyl peptidase-4 inhibitor and a new class of hypoglycemic agents. In this study, the effects of increasing the dose of metformin and add-on sitagliptin on MDA-LDL were examined in type 2 diabetes patients. Methods: Seventy patients with type 2 diabetes, inadequately controlled despite on-going treatment with metformin 500 mg/day, were enrolled in this randomized controlled trial. The patients received additional metformin (500 mg/day) or sitagliptin (50 mg/day) for 6 months, and changes in metabolic parameters including MDA-LDL were evaluated. Results: After 6 months of treatment, add-on sitagliptin (n=35) improved fasting blood glucose (FBG) and hemoglobin A1c (HbA1c) to significantly greater extent than increasing the dose of metformin (n=35). There were no differences in total cholesterol and low-density lipoprotein cholesterol levels between two groups. MDA-LDL levels (mean±S.E.) decreased significantly with increasing the dose of metformin (from 94.40±6.35 to 77.83±4.74 U/L, P 0.05). Multiple linear regression analysis identified increasing the dose of metformin treatment as the only independent factor associated with decreased MDA-LDL (β coefficient 0.367, P < 0.0119), and no significant correlation between change in MDA-LDL and fasting blood glucose or HbA1c. Conclusion: These results suggest that increasing the dose of metformin improves serum MDA-LDL levels in type 2 diabetes mellitus