Inulin glasses for the stabilization of therapeutic proteins

Troglitazone is a ligand for the peroxisome proliferator activated receptor gamma (PPARγ) that decreases growth of human prostate cancer cells in vitro and in vivo. However, the mechanism by which troglitazone reduces prostate cancer cell growth is not fully understood. To understand the signaling pathways involved in troglitazone-induced decreases in prostate cancer growth, we examined the effect of troglitazone on androgen-independent C4-2 human prostate cancer cells. Initial experiments revealed troglitazone inhibited C4-2 cell proliferation by arresting cells in the G(0)/G(1) phase of the cell cycle and inducing apoptosis. Since the proto-oncogene product c-Myc regulates both apoptosis and cell cycle progression, we next examined whether troglitazone altered expression of c-Myc. Troglitazone decreased c-Myc protein levels as well as expression of downstream targets of c-Myc in a dose-dependent manner. In C4-2 cells, troglitazone-induced decreases in c-Myc protein involve proteasome-mediated degradation of c-Myc protein as well as reductions in c-Myc mRNA levels. It appears that troglitazone stimulates degradation of c-Myc by increasing c-Myc phosphorylation, for the level of phosphorylated c-Myc was elevated in prostate cancer cells exposed to troglitazone. While troglitazone dramatically decreased the amount of c-Myc within C4-2 cells, the PPARγ ligands ciglitazone, rosiglitazone and pioglitazone did not reduce c-Myc protein levels. Furthermore the down-regulation of c-Myc by troglitazone was not blocked by the PPARγ antagonist GW9662 and siRNA-mediated decreases in PPARγ protein. Thus, our data suggest that troglitazone reduces c-Myc protein independently of PPARγ.

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Thiazolidinediones regulate expression of cell cycle proteins in human prostate cancer cells via PPARγ-dependent and PPARγ-independent pathways

Lyles¹,

Akinyeke²,

Moss³

et al. 2009

Cell Cycle

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Thiazolidinediones (TZDs) are peroxisome proliferator activated receptor gamma (PPARgamma) ligands that have been reported to reduce proliferation of human prostate cancer cells. However, the mechanisms by which TZDs inhibit prostate cancer cell proliferation are not fully understood. In addition, it is not known if the anti-proliferative effects of TZDs require activation of PPARgamma or are mediated by PPARgamma-independent pathways. The goals of this study were to assess whether TZDs regulate expression of proteins that control the transition from G1 to S phase of the cell cycle and define the role of PPARgamma in these TZD-induced responses in androgen-independent human prostate cancer cell lines. Western blot analysis revealed that growth inhibitory concentrations of the TZDs rosiglitazone and ciglitazone induced expression of the cyclin dependent kinase inhibitor p21 and decreased cyclin D1 levels in the androgen independent PC-3 cell line. Phosphorylation of retinoblastoma protein at Serine 780 was also reduced in PC-3 cells exposed to ciglitazone. Furthermore, growth inhibitory concentrations of ciglitazone increased p21 and lowered cyclin D1 expression within C4-2 cells. PPARgamma-directed siRNAs inhibited the ability of rosiglitazone to regulate expression of cyclin D1 and p21. However, knockdown of PPARgamma did not significantly reduce ciglitazone-induced alterations in cyclin D1 and p21. Furthermore PPARgamma siRNA did not prevent inhibition of PC-3 cell proliferation by either TZD. Thus, activation of PPARgamma is involved in rosiglitazone-induced alterations in cell cycle protein expression. However, the alterations in protein expression and proliferation induced by ciglitazone occur primarily via PPARgamma-independent signaling pathways.

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Apolipoprotein E4 mediates insulin resistance-associated cerebrovascular dysfunction and the post-prandial response

Johnson

Torres

Boutros

et al. 2017

J Cereb Blood Flow Metab

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Metabolic dysfunction, commonly a result of diets high in saturated fats and sugar, is associated with impaired cognitive function and an increased risk of age-related cognitive decline (ACD) and Alzheimer's disease (AD). Compared to the E3 isoform of apolipoprotein (apoE), the E4 isoform is a major genetic risk factor for ACD, AD, and for developing cognitive impairments following various environmental challenges, including dietary challenges such as a high-fat diet (HFD). Both insulin resistance (IR) and E4 are associated with metabolic and vascular impairments. Deficits in cerebral metabolism and cerebrovascular function have been proposed as initiating events leading to these impairments. In the current study, we employed a model of human apoE targeted replacement mice and HFD-induced obesity to study the potential link between E4 and IR, at rest and following a postprandial challenge. HFD-induced IR was associated with impaired cognition, reduced cerebral blood volume and decreased glucose uptake. These effects were more profound in E4 than E3 mice. Furthermore, the cognitive, metabolic and cerebrovascular responses to an exogenous glucose load showed an apoE isoform-dependent response, with E4, but not E3 mice, acutely benefiting from a spike in blood glucose.

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The PPAR Gamma Agonist Troglitazone Regulates Erk 1/2 Phosphorylation via a PPARγ-Independent, MEK-Dependent Pathway in Human Prostate Cancer Cells

et al. 2012

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Thiazolidinediones (TZDs) dramatically reduce the growth of human prostate cancer cells in vitro and in vivo. To determine whether the antitumor effects of TZDs were due in part to changes in the MEK/Erk signaling pathway, we examined the regulation of Erk phosphorylation by the TZD troglitazone within the PC-3 and C4-2 human prostate cancer cell lines. Western blot analysis revealed troglitazone-induced phosphorylation of Erk in both PC-3 and C4-2 cells. Troglitazone-induced increases in Erk phosphorylation were suppressed by the MEK inhibitor U0126 but not by the PPARγ antagonist GW9662. Pretreatment with U0126 did not alter the ability of troglitazone to regulate expression of two proteins that control cell cycle, p21, and c-Myc. Troglitazone was also still effective at reducing PC-3 proliferation in the presence of U0126. Therefore, our data suggest that troglitazone-induced Erk phosphorylation does not significantly contribute to the antiproliferative effect of troglitazone.

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Tunde Akinyeke

Metformin targets c-MYC oncogene to prevent prostate cancer

Troglitazone suppresses c-Myc levels in human prostate cancer cells via a PPARγ-independent mechanism

Thiazolidinediones regulate expression of cell cycle proteins in human prostate cancer cells via PPARγ-dependent and PPARγ-independent pathways

Apolipoprotein E4 mediates insulin resistance-associated cerebrovascular dysfunction and the post-prandial response

The PPAR Gamma Agonist Troglitazone Regulates Erk 1/2 Phosphorylation via a PPARγ-Independent, MEK-Dependent Pathway in Human Prostate Cancer Cells

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