Pyruvate Dehydrogenase and Pyruvate Dehydrogenase Kinase Expression in Non Small Cell Lung Cancer and Tumor-Associated Stroma

AbstractPyruvate dehydrogenase (PDH) catalyzes the conversion of pyruvate to acetyl-coenzyme A, which enters into the Krebs cycle, providing adenosine triphosphate (ATP) to the cell. PDH activity is under the control of pyruvate dehydrogenase kinases (PDKs). Under hypoxic conditions, conversion of pyruvate to lactate occurs, a reaction catalyzed by lactate dehydrogenase 5 (LDH5). In cancer cells, however, pyruvate is transformed to lactate occurs, regardless of the presence of oxygen (aerobic glycolysis/Warburg effect). Although hypoxic intratumoral conditions account for HIFia stabilization and induction of anaerobic metabolism, recent data suggest that high pyruvate concentrations also result in HIFia stabilization independently of hypoxia. In the present immunohistochemical study, we provide evidence that the PDH/PDK pathway is repressed in 73% of non small cell lung carcinomas, which may be a key reason for HIFia stabilization and “aerobic glycolysis.” However, about half of PDHdeficient carcinomas are not able to switch on the HIF pathway, and patients harboring these tumors have an excellent postoperative outcome. A small subgroup of clinically aggressive tumors maintains a coherent PDH and HIF/LDH5 expression. In contrast to cancer cells, fibroblasts in the tumor-supporting stroma exhibit an intense PDH but reduced PDK1 expression favoring maximum PDH activity. This means that stroma may use lactic acid produced by tumor cells, preventing the creation of an intolerable intratumoral acidic environment at the same time

Upregulated hypoxia inducible factor-1α and -2α pathway in rheumatoid arthritis and osteoarthritis

The pathogenesis of rheumatoid arthritis (RA) and osteoarthritis (OA) remains obscure, although angiogenesis appears to play an important role. We recently confirmed an overexpression of two angiogenic factors, namely vascular endothelial growth factor (VEGF) and platelet-derived endothelial cell growth factor (PD-ECGF), by the lining and stromal cells of the synovium in both conditions. Because hypoxia inducible factor (HIF)-1α and HIF-2α are essential in regulating transcription of the VEGF gene, active participation of HIF-α molecules in the pathogenesis of these arthritides is anticipated. We investigated the immunohistochemical expression of HIF-1α and HIF-2α in the synovium of 22 patients with RA, 34 patients with OA and 22 'normal' nonarthritic individuals, in relation to VEGF, VEGF/KDR (kinase insert domain protein receptor) vascular activation, PD-ECGF and bcl-2. A significant cytoplasmic and nuclear overexpression of HIF-1α and HIF-2α was noted in the synovial lining and stromal cells of both diseases relative to normal. Overexpression of HIF-αs was related to high microvessel density, high PD-ECGF expression and high VEGF/KDR receptor activation, suggesting HIF-α-dependent synovial angiogenesis in OA. By contrast, the activation of the angiogenic VEGF/KDR pathway was persistently increased in RA, as indeed was microvessel density and the expression of PD-ECGF, irrespective of the extent of HIF-α expression, indicating a cytokine-dependent angiogenesis. In all cases, the VEGF/KDR vascular activation was significantly lower in OA than in RA, suggesting a relative failure of the HIF-α pathway to effectively produce a viable vasculature for OA, which is consistent with the degenerative nature of the disease. The activation of the HIF-α pathway occurs in both RA and OA, although for unrelated reasons

Effects of HIF-1α and HIF2α on Growth and Metabolism of Clear-Cell Renal Cell Carcinoma 786-0 Xenografts

In cultured clear-cell renal carcinoma (CCRCC) 786-0 cells transfected with HIF1α (HIF-1+), HIF-2α (HIF-2+), or empty vector (EV), no significant differences were observed in the growth rates in vitro, but when grown in vivo as xenografts HIF-2α significantly increased, and HIF-1α significantly decreased growth rates, compared to EV tumors. Factors associated with proliferation were increased and factors associated with cell death were decreased in HIF-2+ tumors. Metabolite profiles showed higher glucose and lower lactate and alanine levels in the HIF-2+ tumors whilst immunostaining demonstrated higher pyruvate dehydrogenase and lower pyruvate dehydrogenase kinase 1, compared to control tumors. Taken together, these results suggest that overexpression of HIF-2α in CCRCC 786-0 tumors regulated growth both by maintaining a low level of glycolysis and by allowing more mitochondrial metabolism and tolerance to ROS induced DNA damage. The growth profiles observed may be mediated by adaptive changes to a more oxidative phenotype

Carbonic anhydrase IX promotes tumor growth and necrosis in vivo and inhibition enhances anti-VEGF therapy.

PURPOSE: Bevacizumab, an anti-VEGFA antibody, inhibits the developing vasculature of tumors, but resistance is common. Antiangiogenic therapy induces hypoxia and we observed increased expression of hypoxia-regulated genes, including carbonic anhydrase IX (CAIX), in response to bevacizumab treatment in xenografts. CAIX expression correlates with poor prognosis in most tumor types and with worse outcome in bevacizumab-treated patients with metastatic colorectal cancer, malignant astrocytoma, and recurrent malignant glioma. EXPERIMENTAL DESIGN: We knocked down CAIX expression by short hairpin RNA in a colon cancer (HT29) and a glioblastoma (U87) cell line which have high hypoxic induction of CAIX and overexpressed CAIX in HCT116 cells which has low CAIX. We investigated the effect on growth rate in three-dimensional (3D) culture and in vivo, and examined the effect of CAIX knockdown in combination with bevacizumab. RESULTS: CAIX expression was associated with increased growth rate in spheroids and in vivo. Surprisingly, CAIX expression was associated with increased necrosis and apoptosis in vivo and in vitro. We found that acidity inhibits CAIX activity over the pH range found in tumors (pK = 6.84), and this may be the mechanism whereby excess acid self-limits the build-up of extracellular acid. Expression of another hypoxia inducible CA isoform, CAXII, was upregulated in 3D but not two-dimensional culture in response to CAIX knockdown. CAIX knockdown enhanced the effect of bevacizumab treatment, reducing tumor growth rate in vivo. CONCLUSION: This work provides evidence that inhibition of the hypoxic adaptation to antiangiogenic therapy enhances bevacizumab treatment and highlights the value of developing small molecules or antibodies which inhibit CAIX for combination therapy

Cytoplasmic location of factor-inhibiting hypoxia-inducible factor is associated with an enhanced hypoxic response and a shorter survival in invasive breast cancer

INTRODUCTION: Hypoxia-inducible factor (HIF)-1alpha levels in invasive breast carcinoma have been shown to be an adverse prognostic indicator. Cellular HIF-1alpha activity is regulated by factor-inhibiting hypoxia-inducible factor 1 (FIH-1). In hypoxia, FIH-1 hydroxylation of Asn803 within the C-terminal transactivation domain does not occur and HIF-1alpha forms a fully active transcriptional complex. The present study investigates the role of FIH-1 in invasive breast carcinoma and its correlation with hypoxia. METHODS: Microarrayed tissue cores from 295 invasive carcinomas were stained for FIH-1, for HIF-1alpha and for carbonic anhydrase 9. FIH-1 expression was correlated with standard clinicopathological parameters and with the expression of the surrogate hypoxic markers HIF-1alpha and carbonic anhydrase 9. RESULTS: FIH-1 was positive in 239/295 (81%) tumours, 42/295 (14%) exclusively in the nucleus and 54/295 (18%) exclusively in the cytoplasm. Exclusive nuclear FIH-1 expression was significantly inversely associated with tumour grade (P = 0.02) and risk of recurrence (P = 0.04), whereas exclusive cytoplasmic FIH-1 was significantly positively associated with tumour grade (P = 0.004) and carbonic anhydrase 9 expression (P = 0.02). Patients with tumours that excluded FIH-1 from the nucleus had a significantly shorter survival compared with those with exclusive nuclear expression (P = 0.02). Cytoplasmic FIH-1 expression was also an independent poor prognostic factor for disease-free survival. CONCLUSION: FIH-1 is widely expressed in invasive breast carcinoma. As with other HIF regulators, its association between cellular compartmentalization and the hypoxic response and survival suggests that tumour regulation of FIH-1 is an additional important mechanism for HIF pathway activation

Identity, Economy, and Secessionism in Comparative Perspective

What motivates the emergence of secessionist movements, and why do individuals support secession once it becomes a salient issue? Scholars have argued that identitarian and economic factors motivate the emergence of secessionism and shape individuals’ preferences on secession, but they have examined only social groups among which secessionist movements have emerged and have not identified the specific ways in which identitarian and economic motivations shape secessionism in different types of regions. My project pioneers a novel approach to secessionism by identifying the universe of potentially secessionist social groups and introducing a theory of why the causal processes motivating secessionism might be different for different regions or groups. Using large-N cross-national analyses, case studies, interviews, and surveys, I examine how cultural identity and economic dynamics shape secessionism across a variety of contexts.I test traditional theories of secessionism using an original dataset containing the universe of potentially secessionist social groups in Europe and the former Soviet Union. To reduce bias from selecting cases on the outcome of interest, my dataset includes a set of groups with potential but unrealized secessionism alongside groups that mobilized for secession. I show that theories that emphasize the role of natural resources and relative deprivation in motivating secessionism lose their explanatory power when tested over this improved sample. I supplement this quantitative analysis by investigating the systematic reasons why economic grievances motivate secessionists in some places while identity-based grievances motivate secessionism in others. Through interviews, ethnographic research, and process tracing, I examine secessionism in Catalonia, Montenegro, Quebec, and Scotland. I show that in Scotland, economic factors have primacy in motivating secessionism, whereas identity-based factors drive secessionism in Quebec. In Catalonia, identitarian and materialist concerns interact to motivate secessionism, while anti-regime pressures encouraged secessionism in Montenegro.I then examine survey data from Catalonia, Northern Ireland, Scotland, and Wales to explore how cultural identity, socioeconomic status, and partisanship predict support for secession. I show that while regional identity is generally a strong predictor of support for secession, socioeconomic status and partisanship are weaker indicators, which problematizes traditional theories of public opinion and suggests that secession is fundamentally distinct from other political issues.This project advances our identification of the causal mechanisms behind secessionism at both the cross-national and individual levels. My cross-national analysis shows that identity and economic factors are indeed important drivers of secessionism, while disaggregating secessionist regions shows how these factors shape secessionism in different contexts

Loss of chaperone protein in human cancer

TRAP1 is a Heat Shock Protein (HSP) chaperone to retinoblastoma but also associated to the tumor necrosis factor receptor. HSPs are primarily up regulated in cancer. Work in our lab noted a down regulation of TRAP1 in some non-small cell lung cancers compared to normal lung. The first aim of this project was to evaluate the effect of the loss of TRAP1 on cell proliferation using a spheroid model. The presence of TRAP1 in spheroids promoted cell proliferation and a faster onset of hypoxia. This suggests an oncogenic role for TRAP1 since rapid hypoxia development equates to poor prognosis. Micro array analysis showed that TRAP1’s loss was associated with increased transcrpition of the Junctional Mediating and Regulatory protein (JMY). JMY possesses an oncogenic property due to its ability to facilitate cell motility. Additionally it has tumor suppressor activity in promoting p53 activation. The second aim of this project was to produce an anti-JMY antibody and use it to characterize JMY and additionally verify the association between TRAP1 and JMY. JMY was found to be widely expressed in normal tissues and in many types of tumors. In neoplastic tissues, comparing primary versus metastatic tumors, JMY was found to have significantly higher expression in the metastatic compared with the primary tumors. A pilot study showed that nuclear co-expression of JMY and P53 was associated with shorter overall survival suggesting that a possible tumorigenesis mechanism could be via a deregulation/mutation of JMY/p53 or both. Finally, using 3 dimensional constructions, I demonstrated the distinct morphological difference between an angiogenic tumor and a non-angiogenic tumor. Additionally, I showed a characteristic cytoplasmic p53 sequestration in the non-angiogenic phenotype that is absent in the angiogenic phenotype. This could be the mechanism that the non-angiogenic tumor uses to adapt to hypoxia. This would imply that there is a potential for cancers to escape therapy by switching between these 2 phenotypes.EThOS - Electronic Theses Online ServiceGBUnited Kingdo

Twenty years after: the beautiful hypothesis and the ugly facts

Abstract The limited clinical benefits from current antiangiogenic therapy for cancer patients have triggered some critical thoughts and insightful investigations aiming to further elucidate the relationship between vessels and cancer. Tumors need blood perfusion but there are mounting evidences that angiogenesis alone does not explain it in all the neoplasms. In this editorial, for a special issue on tumor and vessels published in the Chinese Journal of Cancer, we briefly introduce the history of the evidences that solid tumors can sometimes obtain blood perfusion by alternative approaches other than sprouting angiogenesis, i.e., vessel co-option and vasculogenic mimicry. This editorial provides also the links to several most recently published discoveries and hypotheses on tumor interaction with blood vessels