UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The M2 isoenzyme of pyruvate kinase (M2-PK) is specifically expressed in tumor cells (TU M2-PK) and may therefore provide a tumor marker for malignancies. We have investigated the plasma concentrations of TU M2-PK in patients with renal cell carcinoma (RCC), transitional cell carcinoma of the bladder (BCA), prostate cancer (PCA) and benign prostatic hyperplasia (BPH). TU M2-PK was quantified with a commercially available enzyme-linked immunosorbent assay (ELISA) kit. Using this ELISA kit, plasma samples of 57 healthy individuals were compared to 63 patients with RCC, 36 patients with BCA, 58 patients with PCA and 28 patients with BPH. Patients with carcinomas were subdivided into those patients with nonmetastatic and those with metastatic disease. Only patients with RCC (nonmetastatic and metastatic) showed significantly increased concentrations of TU M2-PK compared to normal individuals. In metastatic RCC, TU M2-PK levels were highest and were also significantly enhanced compared to nonmetastatic RCC. The sensitivity for nonmetastatic RCC was 27.5% and for metastatic RCC 66.7% at the 95% reference value of the control group. In BCA, PCA and BPH, no significant differences could be detected. Our results indicate that TU M2-PK concentrations in plasma may be a potential biomarker of advanced RCC.
Tumour Biol
PMID:Tumor M2 pyruvate kinase in plasma of patients with urological tumors. 1155 57

The metabolism of tumor cells (tumor metabolome) is characterized by a high concentration of glycolytic enzymes including pyruvate kinase isoenzyme type M2 (M2-PK), a high glutaminolytic capacity, high fructose 1,6-bisphosphate (FBP) levels and a low (ATP+GTP):(CTP+UTP) ratio. The sequence of events required for the establishment of the tumor metabolome is presently unknown. In non-transformed rat kidney (NRK) cells we observed a high glutaminolytic flux rate and a low (ATP+GTP):(CTP+UTP) ratio, whereas FBP levels and M2-PK activity are still extremely low. After stable expression of oncogenic ras in NRK cells a strong upregulation of FBP levels and of M2-PK activity was observed. Elevated FBP levels induce a tetramerization of M2-PK and its migration into the glycolytic enzyme complex. AMP levels increase whereas UTP and CTP levels strongly decrease. Thus, ras expression completes the glycolytic part of tumor metabolism leading to the inhibition of nucleic acid synthesis and cell proliferation. The HPV-16 E7 oncoprotein, which cooperates with ras in cell transformation, directly binds to M2-PK, induces its dimerization and restores nucleic acid synthesis as well as cell proliferation. Apparently, the combination of the different metabolic effects of ras and E7 constructs the perfect tumor metabolome as generally found in tumor cells.
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PMID:Metabolic cooperation between different oncogenes during cell transformation: interaction between activated ras and HPV-16 E7. 1168 68

Cell proliferation is a process that consumes large amounts of energy. A reduction in the nutrient supply can lead to cell death by ATP depletion, if cell proliferation is not limited. A key sensor for this regulation is the glycolytic enzyme pyruvate kinase, which determines whether glucose carbons are channelled to synthetic processes or used for glycolytic energy production. In unicellular organisms pyruvate kinase is regulated by ATP, ADP and AMP, by ribose 5-P, the precursor of the nucleic acid synthesis, and by the glycolytic intermediate fructose 1,6-P2 (FBP), thereby adapting cell proliferation to nutrient supply. The mammalian pyruvate kinase isoenzyme type M2 (M2-PK) displays the same kinetic properties as the pyruvate kinase enzyme from unicellular organisms. The mammalian M2-PK isoenzyme can switch between a less active dimeric form and a highly active tetrameric form which regulates the channeling of glucose carbons either to synthetic processes (dimeric form) or to glycolytic energy production (tetrameric form). Tumor cells are usually characterized by a high amount of the dimeric form leading to a strong accumulation of all glycolytic phosphometabolites above pyruvate kinase. The tetramer-dimer ratio is regulated by ATP, FBP and serine and by direct interactions with different oncoproteins (pp60v-src, HPV-16 E7). In solid tumors with sufficient oxygen supply pyruvate is supplied by glutaminolysis. Pyruvate produced in glycolysis and glutaminolysis is used for the synthesis of lactate, glutamate and fatty acids thereby releasing the hydrogen produced in the glycolytic glyceraldehyde 3-phosphate dehydrogenase reaction.
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PMID:Pyruvate kinase type M2: a crossroad in the tumor metabolome. 1189 52

Renal cell carcinoma (RCC) expresses an isoform of the glycolytic enzyme pyruvate kinase (type M2). The dimeric form (TuM2-PK) is over expressed in tumor cells and is detectable in blood with a sensitive enzyme-linked immunosorbent assay (ELISA). The aim of the present study was to evaluate the clinical value of TuM2-PK as a tumor marker for RCC. The TuM2-PK concentration in EDTA-plasma was determined quantitatively and immunologically using an ELISA. We measured the TuM2-PK plasma levels of 83 patients before and after surgery. Ninety-seven patients with various non-malignant diseases were also recruited as a control group. The control group displayed mean levels of 11.37 U/ml of TuM2-PK. Values were elevated in patients with RCC prior to surgery (mean 21.88 U/ml). The plasma levels increased after surgery until day 5 (mean 53.97 U/ml). At day 10, marker levels started to decrease without reaching preoperative values (mean 43.5 U/ml). Plasma levels in the renal vein (obtained during surgery) were not different from those in the peripheral blood. Follow-ups after 2-6 months showed a decrease to below preoperative levels (mean 16.3 U/ml). A significant difference was obtained by comparing the patients according to their Robson score. We found a significant difference (P < 0.01, Wilcoxon's two-sample test) in TuM2-PK levels between patients with RCC and the control group. Nevertheless, using the manufacturer's recommended cut-off value (15 U/ml), sensitivity was only 50.6% and specificity was 80.4%. Our results suggest that TuM2-PK is not a suitable tumor marker for RCC.
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PMID:Determination of pyruvate kinase type tumor M2 in human renal cell carcinoma: a suitable tumor marker? 1208 17

This study was designed to investigate the value of tumor M2 pyruvate kinase (tumor M2-PK) determination as an early marker for response to trastuzumab therapy in patients with metastasized breast cancer. Plasma samples of 20 trastuzumab patients were collected immediately after standard hematological investigations. The tumor M2-PK level was quantified using an enzyme linked immunosorbent assay (ScheBo Biotech) and CA 15-3 was measured automatically using the Bayer Immuno 1 immunoanalyzer and the corresponding assay. Each assay was performed in duplicate. The values were analyzed for correlation to the clinical course of each patient. Median observation time was 13 months with a range from 4 to 22 months. In 17/20 (85%) patients, tumor M2-PK determination was a marker for the clinical course of their disease. In this 'tumor M2-PK sensitive' group, 49 known clinical events (remission or progression according to UICC criteria) were recorded. The variation in tumor M2-PK level paralleled 63% of the clinical events (31/49). Our data suggest that tumor M2-PK determination in the plasma of patients with metastasized breast cancer could be a helpful tool for monitoring therapeutic success.
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PMID:Tumor M2 pyruvate kinase--determination in breast cancer patients receiving trastuzumab therapy. 1235 72

Previously we reported that intermittent intraperitoneal administration of ornithine decarboxylase-inducing factor (ODC factor), interleukin 1alpha (IL-1alpha), and tumor-necrosis factor-alpha (TNF-alpha) to normal mice induced biological changes in the hosts which included changes in the pattern of expression of pyruvate kinase (PK) isozymes in the liver and hypertrophy of the spleen. In the study reported here, we investigated the chronic and combined effects of these factors on hepatic enzymes using alzet microosmotic pumps implanted in the subcutis of the backs or abdominal cavities of mice. Continuous administration of ODC factor and recombinant human IL-1alpha (rhIL-1alpha) reduced the activity of L-type PK, which is a glycolysis-related enzyme in the liver, and induced the activity of M2-type PK, a known marker of liver dedifferentiation. Serine dehydratase (SDH) and tyrosine aminotransferase (TAT), enzymes associated with amino acid metabolism, were not significantly influenced at the examined concentration. The simultaneous continuous infusion of ODC factor and rhIL-1alpha or rhTNF-alpha caused alterations in the patterns of expression of PK isozyme activity profiles and reduced overall PK activity. SDH and TAT activities were also significantly induced. Moreover, mice treated with these combined factors displayed many other metabolic changes normally associated with cancer cachexia. These findings suggest that the tumor-derived ODC factor and cytokines such as IL-1alpha and TNF-alpha might function synergistically in the metabolic perturbations observed in Ehrlich ascites tumor bearers.
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PMID:Mechanisms mediating metabolic abnormalities in the livers of Ehrlich ascites tumor-bearing mice. 1266 85

Tumor markers were used for disease monitoring in lung cancer patients. The goal of this pilot study was to determine the diagnostic efficiency of a new tumor metabolic marker, Tumor M2-pyruvate kinase (Tumor M2-PK) for the detection of tumor growth in inoperable lung cancer patients.Fifty-seven consecutive and primary inoperable lung cancer patients were included in this prospective study. Changes in plasma levels of Tumor M2-PK were compared to the clinical course of the disease. Clinical monitoring was evaluated according to the standard criteria of the WHO. Of the 57 patients, 19 were in remission, 18 showed signs of stable disease and there were 20 tumor progressions under therapy. In the further follow-up after treatment, tumor relapse occurred in 30 patients. Tumor M2-PK was measured in plasma before and after treatment as well as at time of relapse. During tumor remission Tumor M2-PK levels decreased significantly under treatment (P=0.0004). As might be expected, pre- and post-treatment marker concentrations did not differ significantly in patients with stable disease. In progressive lung cancer patients a significant increase in Tumor M2-PK was detectable (P=0.0094). Overall, a decrease of Tumor M2-PK was seen in 17 (89%) of all responders, while an increase could be detected in 16 (80%) of the patients experiencing tumor progression. After treatment tumor relapse occurred in 30 patients. Tumor M2-PK increased significantly (P=0.0201) at time of relapse in 17 patients with non-small cell lung cancers and exceeded the cut-off in 11 of the 17 (65%). In conclusion, Tumor M2-PK proved useful as a diagnostic aid for therapy control in lung cancer patients. This marker can also be used to detect tumor relapse after treatment. Tumor M2-PK could be well suited to complete the present diagnostic panel for monitoring of inoperable lung cancer patients.
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PMID:Tumor M2-pyruvate kinase in the follow-up of inoperable lung cancer patients: a pilot study. 1269 28

The tumor metabolome is characterized by high glycolytic and glutaminolytic capacities, high phosphometabolite levels and a high channelling of glucose carbons to synthetic processes. This allows tumor cells to proliferate under strong variations in oxygen and glucose supply (http://www.metabolic-database.com). One key regulator of the tumor metabolome is the glycolytic isoenzyme pyruvate kinase type M2 (M2-PK) that is generally over-expressed in all tumor cells. M2-PK can occur in a highly active tetrameric form and in a nearly inactive dimeric form. In tumor cells the dimeric form of M2-PK always predominates and has therefore been termed tumor M2-PK. The dimerization of M2-PK is caused by direct interaction of M2-PK with certain oncoproteins. When M2-PK is in its dimeric state energy is produced by glutaminolysis. The metabolic Achilles' heel of the tumor metabolome is its sensitivity to a reduction of NAD levels caused by activation of poly(ADP-ribose) polymerase after DNA damage.
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PMID:The tumor metabolome. 1282 Mar 63

The M2 isoenzyme of pyruvate kinase (M2-PK) is specifically expressed in tumor cells (TuM2-PK) and has been detected in the peripheral blood of patients with renal cell carcinoma (RCC). TuM2-PK is not useful as a biological marker in localized RCC. We analysed TuM2-PK in 68 patients with metastatic RCC after initial surgery and prior to or during chemoimmunotherapy of metastases. In 50 patients, the levels of TuM2-PK were measured during chemoimmunotherapy with interleukin-2, interferon-alpha2a and 5-fluorouracil for up to 8 months and were correlated to response as assessed by radiological imaging techniques. TuM2-PK was quantified with a commercially available enzyme linked immunosorbent assay kit using a cut off of 15 kU/l. In 48 of 68 patients (71%), TuM2-PK was elevated above the cut-off. TuM2-PK was significantly higher in G3 tumors than in G2 tumors. In 34 of 50 patients (68%) undergoing chemoimmunotherapy, a positive correlation between TuM2-PK values and response to treatment was observed. Based on these data, we would not recommend the routine clinical use of TuM2-PK in metastatic RCC at this point.
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PMID:Tumor type M2 pyruvate kinase expression in metastatic renal cell carcinoma. 1451

Type 1 diabetes results from the destruction of insulin-producing pancreatic beta-cells by a beta-cell-specific autoimmune process. Although converting other cell types into insulin-producing cells may compensate for the loss of the beta-cell mass while evading beta-cell-specific T-cell responses, proof-of-principle of this approach in large animal models is lacking. This investigation was initiated to determine whether an insulin-producing human hepatocyte line can control diabetes when transplanted into totally pancreatectomized diabetic pigs. We established a reversibly immortalized human hepatocyte line, YOCK-13, by transferring a human telomerase reverse transcriptase cDNA and a drug-inducible Cre recombinase cassette, followed by cDNA for a modified insulin under the control of the L-type pyruvate kinase (L-PK) promoter. YOCK-13 cells produced small amounts of modified insulin and no detectable endogenous L-PK at low glucose concentrations, whereas they produced large amounts of both modified insulin and L-PK in response to high glucose concentrations. Xenotransplantation of YOCK-13 cells via the portal vein into immunosuppressed, totally pancreatectomized pigs decreased hyperglycemia and prolonged survival without adverse effects such as portal thrombosis, liver necrosis, pulmonary embolism, and tumor development. We suggest that this reversibly immortalized, insulin-secreting human hepatocyte line may overcome the shortage of donor pancreata for islet transplantation into patients with type 1 diabetes.
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PMID:Transplantation of reversibly immortalized insulin-secreting human hepatocytes controls diabetes in pancreatectomized pigs. 1469 4

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