Endosialin/CD248/tumor endothelial marker 1 is classified as a C-type lectin-like transmembrane receptor, found on the plasma membrane of activated mesenchymal cells, which binds to fibronectin. Although endosialin is expressed at high levels in stem-like cells of sarcomas, its role has not been fully uncovered. The present study aimed to determine whether endosialin expression is associated with tumor progression and metastasis, and whether endosialin has the potential to act as a novel therapeutic target in osteosarcoma (OS) using MORAb-004/ontuxizumab, a humanized monoclonal antibody, which targets the type C lectin domain of endosialin. The results demonstrated that endosialin was highly expressed in OSs with metastatic disease. Furthermore, MORAb-004 had no cytostatic effect on OS cells in vitro and did not change the expression of stem cells and differentiation markers; however, it inhibited migration of OS cells. Taken together, these results suggest that endosialin may play a role in migration, and may be involved in the metastatic process of OSs. Furthermore, MORAb-004 reduces the motility of OS cells, and suppresses invasion and the development of metastatic lesions.
Abstract. The β2-adrenergic receptor (β2AR) mediates the effects of chronic stress in several neoplasms, however, β2AR signaling is impaired by hypoxia in various tissues. While hypoxia is a common feature significant in the progression of solid tumors, little is known about the effect of hypoxia on β2AR signaling in the tumor microenvironment. Previously, it has been reported that the systemic administration of mesenchymal stem cells (MSCs) increased the engraftment and metastatic colonization of rat osteosarcoma (OS) cells. In the current study, the effect of MSCs on the hypoxia-induced desensitization of the β2AR in OS cells was investigated. Epinephrine, norepinephrine and isoproterenol increased the cellular proliferation of the rat OS cell line COS1NR and rat MSCs in a dose-dependent and β2AR antagonist-sensitive manner. While isoproterenol had significant proliferative effects on MSCs under normoxic and hypoxic conditions, COS1NR cells did not respond under hypoxic conditions. A sensitivity assay for the β2AR revealed that hypoxia impaired the sensitivity of COS1NR cells, whereas hypoxia did not affect MSCs. An immunoassay revealed no significant change in the expression of hypoxia-inducible factor-1α (HIF1α) in COS1NR cells, whilst an immunoassay demonstrated a 15% increase in MSCs following isoproterenol stimulation. In COS1NR cells co-cultured with MSCs under hypoxic conditions, isoproterenol caused a significant increase in proliferation and this effect was inhibited by an anti-interleukin (IL)-6 antibody. A tumor formation assay in syngeneic rats revealed that the systemic administration of MSCs enhances the growth of OS and the effect of MSCs was inhibited by IL-6 neutralization.In conclusion, MSCs are resistant to the hypoxia-induced desensitization to β2AR. Hypoxia caused a siginificant desensitization of the β2AR in COS1NR cells alone, whereas MSCs may support tumor progression through cellular interactions.
To investigate the mechanism of glucose intolerance in patients with Graves' disease, a 2-hour oral glucose tolerance test and euglycemic glucose clamp study using Biostator were performed in patients with Graves' disease and control subjects. 80 per cent of the patients showed impaired glucose tolerance. Insulinogenic index in the patients with borderline or diabetic glucose response was lower than that in subjects with normal glucose response. Insulinogenic index was inversely correlated with sigma PG during the test. Despite normal basal plasma glucose concentrations, basal plasma insulin levels in the patients with Graves' disease were higher than in the controls. Using the euglycemic glucose clamp technique, the glucose utilization rate (M value), the metabolic clearance rate of glucose (MCRG) and the insulin sensitivity index (M/I x 100) in the patients with Graves' disease were lower than in the controls. After treatment with antithyroid drug in 3 patients, glucose tolerance completely normalized, and there was a significant increase in the M value and the MCRG and a significant decrease in the metabolic clearance rate of insulin (MCRI) compared to the values before treatment. In the patients with Graves' disease, basal serum glucagon levels were higher than in the controls, and glucagon suppression during insulin infusion was found to be decreased. From these data, it is concluded that the decrease in glucose tolerance in patients with Graves' disease can be explained by 1) the impairment of early insulin release response to rapid intestinal glucose absorption, 2) increased insulin metabolic clearance and 3) hyperglucagonemia.
[Objective] Mitochondria are the places for the energy production of the cells, while reactive oxygen species (ROS) are also produced alongside. In recent years, it has been reported that cancer stem cells metabolize predominantly through oxidative phosphorylation (OXPHOS) rather than glycolysis in certain cancer cells. Targeting OXPHOS achieved by suppression of ATP synthesis through mitochondrial ATP synthase could be a potential therapeutic option against cancer stem cells. In the current study, we have identified the mitochondria metabolism as the potential therapeutic target in osteosarcoma (OS) stem cells, presenting the synergistic effects of combination of OXPHOS inhibition by pterostilebene (PTE) with c-Myc inhibitor, which target both OXPHOS-dominant cancer stem cells and glycolysis-dominant non-cancer stem cells as a ‘two hit’ or ‘dual inhibition’ of metabolic pathways, OXPHOS and glycolysis. [Materials & Methods] Using human OS cell lines of SaOS2, U2OS and MG63 cells, cell survival and the ability of sphere formation was assessed with or without PTE, and the expression of stem cell markers mRNA such as Oct3, NS, CD44 was examined by RT-PCR. Next, the activity of mitochondrial ATP synthase, mitochondrial respiration capacity of oxygen consumption rate, and the amount of ATP as well as ROS production were measured under the treatment of PTE. Furthermore, we examined the synergistic effect of PTE with cMyc transcription inhibitors of JQ1 or Honokiol (HNK). [Results] PTE treatment on human OS cell lines reduced the viabilities of all cell lines in dose-dependent manner and expression of stem cell marker and the ability of sphere formation were also decrease in terms of sphere number and size. PTE reduced the activity of F0F1-ATP synthase; Complex V predominantly, and the mitochondrial oxygen consumption rates and synthetic amount of ATP were also decreased in spheroid condition. These results suggest that PTE possibly targets stem cell population which preferably relies on OXPHOS, suppressing ATP synthesis via F0F1-ATP synthase inhibition as well as increased ROS production in OS cells and changes metabolic flax to glycolysis dependent feature. The dual inhibition of OXPHOS by PTE and c-Myc inhibition by HNK or JQ1 showed the synergistically inhibition of OS cell growth in a dose-dependent manner. [Discussion] Prognosis of the patients with osteosarcoma has reached to plateau without any breakthroughs over the last quarter century, and nearly 30% of patients still have to face very severe poor prognosis, especially with metastatic disease. Current study suggests that modulation of metabolic flux by c-Myc and OXPHOS inhibitors showed a greater synergistic effect with ‘two metabolic hit’ or ‘dual metabolic inhibition’ of distinct metabolic features and it could be a novel therapeutic strategy against osteosarcoma, possibly targeting both stem-like cell population and general tumor cell population. Citation Format: Shingo Kishi, Kanya Honoki, Shinji Tsukamoto, Hiromasa Fujii, Yumiko Kondo, Yasuhito Tanaka, Hiroki Kuniyasu. Dual inhibition of distinct metabolic features targets osteosarcoma stem cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 801.
The difference in the acute metabolic change in ketone bodies between patients with insulin-dependent diabetes mellitus (IDDM) and non-insulin-dependent diabetes mellitus (NIDDM) was investigated in this study. The subjects employed were 7 patients with IDDM losing residual insulin secretion and 7 patients with NIDDM matched to the former patients for age, body mass index, duration of diabetes, daily insulin dosage, fasting plasma glucose and HbA1c. Blood samples were drawn at 3A.M. and 7A.M. on the same day, and plasma glucose, acetoacetic acid (AcAc), 3-beta-hydroxybutylic acid (3-OHBA), free fatty acid (FFA), glycerol, cortisol and growth hormone (GH) concentrations were determined. Plasma total ketone bodies (AcAc and 3-OHBA), 3-OHBA and FFA concentrations at 7A.M. were significantly higher in the patients with IDDM than in those with NIDDM (p < 0.05), while there were no significant differences in any other parameters at 3A.M. between the patients with IDDM and those with NIDDM. The ratios of 7A.M. value/3A.M. value of total ketone bodies, AcAc and 3-OHBA concentrations were also more significantly elevated in the patients with IDDM than in those with NIDDM. It was observed that the ratio of 3-OHBA was more than 2.0 in all of the patients with IDDM and less than 2.0 in all of the patients with NIDDM, the difference being significant with p < 0.001.(ABSTRACT TRUNCATED AT 250 WORDS)
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