Pleural mesothelioma side populations have a precursor phenotype

DyeCycleViolet was used to set up the side population (SP) functional assay aimed at identifying subpopulations of malignant pleural mesothelioma (MPM) tumor cells with chemoresistance phenotype associated with ABCG2 transporter activity. Self-renewal, chemoresistance and tumorigenicity were tested for SP and non-side population (NSP) cells. Tumors were characterized by mesothelin, calretinin, N-cadherin, D2-40 and Wilms tumor 1 (WT1) immunohistochemistry. Surface expression of mesenchymal stem cell markers CD90, CD73 and CD105 was investigated in SP and NSP cells. We identified SP cells with self-renewal properties and increased chemoresistance in MPM cell lines and tumor-derived primary cell cultures. Compared with the non-SP fraction (NSP), the SP fraction led to the development of tumors including cells with mesothelium precursor phenotype characterized by mesenchymal morphology, being WT1 negative but cytoplasmic D2-40 positive and having a tendency of increased tumorigenicity. The same phenotypic shift was observed in patients with relapsing tumors after chemotherapy. Furthermore, the SP cells were enriched in CD105−/low expressing cells, which were small sized and had increased tumorigenicity compared with CD105high cells. Taken together, our results support the hypothesis that MPM CD105−/low, chemoresistant small sized SP cells may constitute the cellular pool out of which recurrence develops. Further characterization of mechanisms of chemoresistance and self-renewal should lead to targets specific for this subpopulation in MPM patient

Aerobic exercise training enhances the in vivo cholesterol trafficking from macrophages to the liver independently of changes in the expression of genes involved in lipid flux in macrophages and aorta

Abstract\ud \ud Background\ud Regular exercise prevents and regresses atherosclerosis by improving lipid metabolism and antioxidant defenses. Exercise ameliorates the reverse cholesterol transport (RCT), an antiatherogenic system that drives cholesterol from arterial macrophages to the liver for excretion into bile and feces. In this study we analyzed the role of aerobic exercise on the in vivo RCT and expression of genes and proteins involved in lipid flux and inflammation in peritoneal macrophages, aortic arch and liver from wild type mice.\ud \ud \ud Methods\ud Twelve-week-old male mice were divided into sedentary and trained groups. Exercise training was performed in a treadmill (15 m/min, 30 min/day, 5 days/week). Plasma lipids were determined by enzymatic methods and lipoprotein profile by fast protein liquid chromatography. After intraperitoneal injection of J774-macrophages the RCT was assessed by measuring the recovery of 3H-cholesterol in plasma, feces and liver. The expression of liver receptors was determined by immunoblot, macrophages and aortic mRNAs by qRT-PCR. 14C-cholesterol efflux mediated by apo A-I and HDL2 and the uptake of 3H-cholesteryl oleoyl ether (3H-COE)-acetylated-LDL were determined in macrophages isolated from sedentary and trained animals 48 h after the last exercise session.\ud \ud \ud Results\ud Body weight, plasma lipids, lipoprotein profile, glucose and blood pressure were not modified by exercise training. A greater amount of 3H-cholesterol was recovered in plasma (24 h and 48 h) and liver (48 h) from trained animals in comparison to sedentary. No difference was found in 3H-cholesterol excreted in feces between trained and sedentary mice. The hepatic expression of scavenger receptor class B type I (SR-BI) and LDL receptor (B-E) was enhanced by exercise. We observed 2.8 and 1.7 fold rise, respectively, in LXR and Cyp7a mRNA in the liver of trained as compared to sedentary mice. Macrophage and aortic expression of genes involved in lipid efflux was not systematically changed by physical exercise. In agreement, 14C-cholestrol efflux and uptake of 3H-COE-acetylated-LDL by macrophages was similar between sedentary and trained animals.\ud \ud \ud Conclusion\ud Aerobic exercise in vivo accelerates the traffic of cholesterol from macrophages to the liver contributing to prevention and regression of atherosclerosis, independently of changes in macrophage and aorta gene expression.Fundação de Amparo à Pesquisa do Estado de Sao Paulo - FAPESP 12/04831-1 to MP, UFM and MLCCG; FAPESP 07/50387-8 to MP, 2011/15153-1 to PR, 06/52702-5 to DDFMRocco, 13/02854-7 to LS\ud Okuda, 12/19112-0 to AML, 10/50108-4 to GC, 12/18724-2 to KS, 11/04631-0 to DJG, 09/53412-9 to RS Pinto; 12/12088-7 to RTI, 14/07155 to GFConselho Nacional de Desenvolvimento Científico e Tecnológico (158314/\ud 2014-0 to DJG

Role of hedgehog signaling in malignant pleural mesothelioma

PURPOSE: The aim of this study was to assess the activity of hedgehog (HH) signaling pathway in malignant pleural mesothelioma (MPM). EXPERIMENTAL DESIGN: The expression of HH signaling components was assessed by q-PCR and in situ hybridization in 45 clinical samples. Primary MPM cultures were developed in serum-free condition in 3% oxygen and were used to investigate the effects of Smoothened (SMO) inhibitors or GLI1 silencing on cell growth and HH signaling. In vivo effects of SMO antagonists were determined in a MPM xenograft growing in nude mice.RESULTS: A significant increase in GLI1, sonic hedgehog, and human hedgehog interacting protein gene expression was observed in MPM tumors compared to non tumoral pleural tissue. SMO antagonists inhibited GLI1 expression and cell growth in sensitive primary cultures. This effect was mimicked by GLI1 silencing. Reduced survivin and YAP protein levels were also observed. Survivin protein levels were rescued by overexpression of GLI1 or constitutively active YAP1. Treatment of tumor-bearing mice with the SMO inhibitor HhAntag led to a significant inhibition of tumor growth in vivo accompanied by decreased Ki-67 and nuclear YAP immunostaining and a significant difference in selected gene expression profile in tumors.CONCLUSIONS: An aberrant HH signaling is present in MPM and inhibition of HH signaling decreases tumor growth indicating potential new therapeutic approach