EC:3.6.3.14 - FACTA Search

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Query: EC:3.6.3.14 (ATP synthase)
7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A study of mitochondrial oxidative phosphorylation in biopsies from human hepatocellular carcinoma is presented. Tumour mitochondria as compared to control liver mitochondria, besides a reduced activity of complex IV (cytochrome c oxidase) of the respiratory chain, show a decreased phosphorylative capacity. This appears to be mainly related to a defective F o F(1) ATP synthase complex. Use of an antibody against the F(1) portion of the complex demonstrate a definite decrease for the beta subunit of F(1) in tumour mitochondria.
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PMID:Oxidative phosphorylation and F(O)F(1) ATP synthase activity of human hepatocellular carcinoma. 913 48

Cancer cells, despite growing aerobically, have the propension to utilize the glycolytic pathway as energy source. This biochemical phenotype is accompanied by a decreased content of mitochondria and, paradoxically, by enhanced transcription of nuclear and mitochondrial-encoded genes for the enzymes of oxidative phosphorylation (OXPHOS). The role of OXPHOS enzymes in normal and neoplastic cell growth has been studied in liver regeneration and human hepatocellular carcinoma. In early liver regeneration characterized by active mtDNA replication, a decrease in the content and activity of ATP synthase occurs while transcription of the ATPsyn beta nuclear gene is activated. Translation of ATP synthase subunits seems, on the contrary, to be less effective in this phase. In the second replicative phase of liver regeneration, the repression of ATPsyn beta translation is relieved and normal cell growth starts. In this replicative phase the recovery of the liver mass appears to be directly related to the recovery of the OXPHOS capacity. Mitochondria isolated from biopsies of human hepatocellular carcinoma exhibit a decreased rate of respiratory ATP synthesis (OXPHOS) and a decreased ATPase activity. The decline in the activity of the ATP synthase is found to be associated with a decreased content of the ATPsyn beta in the inner mitochondrial membrane. In neoplastic tissue the ATPase inhibitor protein (IF1) is overexpressed. This could contribute to prevent hydrolysis of glycolytic ATP in cancer cells. A peptide segment of IF1 (IF1-(42-58)-peptide), constructed by chemical synthesis, proved to be equally effective as IF1 in inhibiting the ATPase activity of the ATP synthase complex in the mitochondrial membrane deprived of IF1. The synthetic peptide might turn out to be a useful tool to develop immunological approaches for the control of neoplastic growth.
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PMID:Oxidative phosphorylation enzymes in normal and neoplastic cell growth. 938 98

The analysis of the expression of oxidative phosphorylation genes in the liver during development reveals the existence of two biological programs involved in the biogenesis of mitochondria. Differentiation is a short-term program of biogenesis that is controlled at post-transcriptional levels of gene expression and is responsible for the rapid changes in the bioenergetic phenotype of mitochondria. In contrast, proliferation is a long-term program controlled both at the transcriptional and post-transcriptional levels of gene expression and is responsible for the increase in mitochondrial mass in the hepatocyte. Recently, a specific subcellular structure involved in the localization and control of the translation of the mRNA encoding the beta-catalytic subunit of the H(+)-ATP synthase (beta-mRNA) has been identified. It is suggested that this structure plays a prominent role in the control of mitochondrial biogenesis at post-transcriptional levels. The fetal liver has many phenotypic manifestations in common with highly glycolytic tumor cells. In addition, both have a low mitochondrial content despite a paradoxical increase in the cellular representation of oxidative phosphorylation transcripts. Based on the paradigm provided by the fetal liver we hypothesize that the aberrant mitochondrial phenotype of fast-growing hepatomas represents a reversion to a fetal program of expression of oxidative phosphorylation genes by the activation, or increased expression, of an inhibitor of beta-mRNA translation.
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PMID:Mitochondrial biogenesis in the liver during development and oncogenesis. 938 97

The effect of local anesthetic ropivacaine on the energy metabolism of Ehrlich ascites tumor cells has been investigated. Ropivacaine impaired energy metabolism of Ehrlich ascites tumor cells by affecting primarily mitochondrial metabolism. Even at low concentrations ropivacaine decreased the rate of oxygen uptake, but its effect was remarkably higher on the uncoupled respiration and, in both cases, it was strongly enhanced by hydrophobic anion tetraphenylboron (TPB-). The decrease of oxygen uptake was ascribed to an impairment of electron transport from site 1- and 2-entering substrates to respiratory chain. The inhibition of respiration, coupled to a true uncoupling mechanism by an electrophoretic mechanism, impaired ADP phosphorylation, decreased ATP content, and collapsed mitochondrial membrane potential. Ropivacaine, at all concentrations tested, stimulated aerobic lactate production, and this increase, in addition to the inhibition of respiration, was also due to an activation of mitochondrial ATPase.
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PMID:Effect of local anesthetic ropivacaine on the energy metabolism of Ehrlich ascites tumor cells. 1033 52

The synthesis of keratin is considered to occur in epithelial and epidermal cells. Previous studies have not reported on keratin synthesis within melanocytes that derive from neural crest cells. Epithelial and neural crest cells originally develop from ectodermal tissue. We previously reported that the expression of keratin is a universal phenomenon seen in cultured melanoma cell lines, as demonstrated by two-dimensional polyacrylamide gel electrophoresis, western blot, and electron microscopy analyses. To further investigate the specificity of keratin function in melanocytic cells, we first examined the presence of keratin proteins in cultured human melanocytes, and unexpectedly found keratin subunits in melanocytes by the above-mentioned procedures. The keratin (K) subunits were composed of K1, K5, K8, K10, K14, K16, and K18, together with vimentin. Neural crest cells, which contain immature embryonic melanocytes developing from ectoderm, already expressed keratins; however, under electron microscopy, the expressed keratin did not form filamentous structures. Although the ATP synthase alpha-chain, which is expressed universally in cultured epidermal tumor cell lines, was also expressed in cultured melanocytes and neural crest cells, a novel malignant melanoma-related protein (MMRP) was absent in melanocytes and neural crest cells. We concluded that keratin subunits are present in both cells, but do not construct keratin filaments.
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PMID:Keratin subunit expression in human cultured melanocytes and mouse neural crest cells without formation of filamentous structures. 1053 84

Human p43 is associated with macromolecular tRNA synthase complex and known as a precursor of endothelial monocyte-activating polypeptide II (EMAP II). Interestingly, p43 is also secreted to induce proinflammatory genes. Although p43 itself seems to be a cytokine working at physiological conditions, most of the functional studies have been obtained with its C-terminal equivalent, EMAP II. To gain an insight into the working mechanism of p43/EMAP II, we used EMAP II and searched for an interacting cell surface molecule. The level of EMAP II-binding molecule(s) was significantly increased in serum-starved tumor cells. Thus, the EMAP II-binding molecule was isolated from the membrane of the serum-starved CEM cell. The isolated protein was determined to be the alpha subunit of ATP synthase. The interaction of EMAP II and alpha-ATP synthase was confirmed by enzyme-linked immunosorbent assay and in vitro pull down assays and blocked with the antibodies raised against EMAP II and alpha-ATP synthase. The binding of EMAP II to the surface of serum-starved cells was inhibited in the presence of soluble alpha-ATP synthase. EMAP II inhibited the growth of endothelial cells, and this effect was relieved by soluble alpha-ATP synthase. Anti-alpha-ATP synthase antibody also showed an inhibitory effect on the proliferation of endothelial cells mimicking the activity of EMAP II. These results suggest the potential interaction of p43/EMAP II with alpha-ATP synthase and its role in the proliferation of endothelial cells.
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PMID:Interaction of the C-terminal domain of p43 and the alpha subunit of ATP synthase. Its functional implication in endothelial cell proliferation. 1174 79

Antiangiogenic agents target migratory and proliferative endothelial cells (EC) in the process of forming new vessels, resulting in growth inhibition or cell death. Here we have shown that the antiangiogenic activity of angiostatin on EC is enhanced in culture when the microenvironmental extracellular pH (pH(e)) is reduced to levels similar to that of many tumors. In a migration/scratch assay and during tube formation, angiostatin in combination with reduced pH(e) synergistically resulted in an increased EC death--an effect not seen with either stimulus individually. Lowering of pH(e) decreased intracellular pH (pH(i)), and a further lowering of pH(i) occurred when low pH(e) was combined with angiostatin. These data suggest that low pH(e) plays a role in the relative specificity and efficacy of angiostatin for tumor neovasculature and indicate roles for both pH(e) and pH(i) in the mechanism of angiostatin action. A receptor for angiostatin, the alpha-subunit of ATP synthase, was found on the surface of EC. We show that cell surface receptor distribution is increased on Matrigel, a basement-like matrix, as opposed to fibronectin or RGD peptide substrates, and redistributed to a more punctuate appearance at low pH(e). Furthermore, positive cell surface histochemical staining for alpha-ATP synthase was blocked by preincubation with angiostatin. These data indicate that substrate and pH(e) are critical parameters in the evaluation of this antiangiogenic substance, and probably for others as well.
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PMID:Effects of microenvironmental extracellular pH and extracellular matrix proteins on angiostatin's activity and on intracellular pH. 1188 84

A mechanism decreasing oxidative metabolism during normal cell division and growth is expected to direct substrates toward biosyntheses rather than toward complete oxidation to CO(2). Hence, any event decreasing oxidative phosphorylations (OXPHOS) could provide a proliferating advantage to a transformed or tumor cell in an oxidative tissue. To test this hypothesis, we studied mitochondrial enzymes, DNA and OXPHOS protein content in three types of renal tumors from 25 patients. Renal cell carcinomas (RCCs) of clear cell type (CCRCCs) originate from the proximal tubule and are most aggressive. Chromophilic RCCs, from similar proximal origin, are less aggressive. The benign renal oncocytomas originate from collecting duct cells. Mitochondrial enzyme and DNA contents in all tumor types or grades differed significantly from normal tissue. Mitochondrial impairment increased from the less aggressive to the most aggressive RCCs, and correlated with a considerably decreased content of OXPHOS complexes (complexes II, III, and IV of the respiratory chain, and ATPase/ATP synthase) rather than to the mitochondrial content (citrate synthase and mitochondrial (mt)DNA). In benign oncocytoma, some mitochondrial parameters (mtDNA, citrate synthase, and complex IV) were increased 4- to 7-fold, and some were slightly increased by a factor of 2 (complex V) or close to normal (complexes II and III). A low content of complex V protein was found in all CCRCC and chromophilic tumors studied. However F(1)-ATPase activity was not consistently decreased and its impairment was associated with increased aggressiveness in CCRCCs. Immunodetection of free F(1)-sector of complex V demonstrated a disturbed assembly/stability of complex V in several CCRCC and chromophilic tumors. All results are in agreement with the hypothesis that a decreased OXPHOS capacity favors faster growth or increased invasiveness.
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PMID:Low mitochondrial respiratory chain content correlates with tumor aggressiveness in renal cell carcinoma. 1201 48

Mitochondrial H+-ATP synthase is required for cellular energy provision and for efficient execution of apoptosis. Almost one century ago, Otto Warburg proposed the hypothesis that mitochondrial function might be impaired in cancer cells. However, his hypothesis was never demonstrated in human carcinomas. In this study, we have analyzed the expression of the beta-catalytic subunit of the H+-ATP synthase (beta-F1-ATPase) of mitochondria in carcinomas of the human liver, kidney, and colon. We show that carcinogenesis in the liver involves a depletion of the cellular mitochondrial content, as revealed by reduced content of mitochondrial markers, whereas in kidney and colon carcinomas, it involves a selective repression of the expression of the beta-F1-ATPase concurrent with an increase in the expression of the glycolytic glyceraldehyde-3-phosphate dehydrogenase. Both mechanisms limit mitochondrial cellular activity in cancer, strongly supporting Warburg's hypothesis, and suggest a mechanism for the resistance and compromised apoptotic potential of tumor cells. Furthermore, we show that the metabolic state of the cell, as defined by a bioenergetic mitochondrial index relative to the cellular glycolytic potential, provides a signature of carcinogenesis of prognostic value in assessing the progression of colorectal carcinomas.
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PMID:The bioenergetic signature of cancer: a marker of tumor progression. 1243 66

Scabrosin esters (SEs), which have been recently isolated from the lichen Xanthoparmelia scabrosa, belong to the epipolythiodioxopiperazine (ETP) class of secondary metabolites characterized by possession of a reactive disulfide bond. Colony forming assays show that these toxins are active against human tumor cell lines at nanomolar concentrations. Other members of the ETP class of toxins such as gliotoxin have been shown to induce apoptosis in cells, although the cellular target(s) of the ETP toxins is currently unknown. ETP toxins have been shown to inhibit a variety of enzymes via interaction with sensitive cysteine residues. Here we show that the typical scabrosin ester acetate butyrate induces early mitochondrial membrane hyperpolarization assessed by JC-1 staining accompanied by apoptotic cell death. The toxin lowers ATP in intact cells and inhibits the rate of ATP synthesis in permeabilzed cells. Comparison with the effects of the known ATP synthase inhibitor oligomycin B is consistent with ATP synthase as an early target in scabrosin ester-induced cell death.
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PMID:Evidence that the lichen-derived scabrosin esters target mitochondrial ATP synthase in P388D1 cells. 1290 94

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