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51.
Anticarcinogenic effects of hexaamminecobalt(III) chloride in mice initiated with diethylnitrosamine
Hexaamminecobalt(III) chloride ([Co(NH3)6]Cl3) was investigated for its antineoplastic role in relation to tumor marker enzymes, drug metabolizing enzymes, oxidative stress-related
parameters, and histopathological analysis of liver and lung tissues of mice. Initiation was performed using a single intraperitoneal
injection of diethylnitrosamine (DENA) at a carcinogenic dose of 90 mg/kg body weight. The cobalt complex supplementation
at a dose of 100 ppm in drinking water was given ad libitum throughout the experimental period of 14 weeks. In comparison
to lung, the cobalt complex supplementation was found to reverse DENA-induced biochemical changes more effectively in liver.
Histological examination of liver and lung from DENA-initiated and cobalt-complex-supplemented mice showed considerable protection
in the case of liver compared to that of lung. The involvement of the [Co(NH3)6]Cl3 in modulating several factors associated with carcinogenesis induced by DENA thus showed its anticarcinogenic potential against
chemically induced hepatocarcinogenesis. 相似文献
52.
Cordeiro AT Cáceres AJ Vertommen D Concepción JL Michels PA Versées W 《Journal of molecular biology》2007,372(5):1215-1226
Glucose is an essential substrate for Trypanosoma cruzi, the protozoan organism responsible for Chagas' disease. The glucose is intracellularly phosphorylated to glucose 6-phosphate. Previously, a hexokinase responsible for this phosphorylation has been characterized. Recently, we identified an ATP-dependent glucokinase in T. cruzi exhibiting a tenfold lower substrate affinity compared to the hexokinase. Both enzymes, which belong to very different groups of the same family, are located inside glycosomes, the peroxisome-like organelles of Kinetoplastida that are known to contain the first seven glycolytic steps as well as enzymes of the oxidative branch of the pentose phosphate pathway. Here, we present the crystallographic structure of T. cruzi glucokinase, in complex with glucose and ADP. The structure suggests a loose tetrameric assembly formed by the association of two tight dimers. TcGlcK was previously reported to exist in a concentration-dependent equilibrium of monomeric and dimeric states. Here, we used mass spectrometry analysis to confirm the existence of TcGlcK monomeric and dimeric states. The analysis of subunit interactions and comparison with the bacterial glucokinases give insights into the forces promoting the stability of the different oligomeric states. Each T. cruzi glucokinase monomer contains one glucose and one ADP molecule. In contrast to hexokinases, which show a moderate preference for the alpha anomer of glucose, the electron density clearly shows the d-glucose bound in the beta configuration in the T.cruzi glucokinase. Kinetic assays with alpha and beta-d-glucose further confirm a moderate preference of the T. cruzi glucokinase for the beta anomer. Structural comparison of the glucokinase and hexokinases permits the identification of a possible mechanism for anomer selectivity in these hexose-phosphorylating enzymes. The preference for distinct anomers suggests that in T. cruzi hexokinase and glucokinase are not directly competing for the same substrate and are probably both present because they exert distinct physiological functions. 相似文献
53.
Nucleoside diphosphate kinase A (NDPK-A) regulates the alpha1 isoform of the AMP-activated protein kinase (AMPK alpha1) selectively, independent of [AMP] and surrounding [ATP], by a process termed substrate channelling. Here, we show, using a range of empirically validated biochemical techniques, that the muscle form (M-LDH or LDH-A) and the heart form (H-LDH or LDH-B) of lactate dehydrogenase are physically associated with the liver cytosolic substrate-channelling complex such that M-LDH associates with NDPK-A, AMPK alpha1 and casein kinase 2 (CK2), whereas H-LDH associates with local NDPK-B. We find that the species of LDH bound to the substrate-channelling complex regulates the in vivo enzymatic activities of both AMPK and CK2, and has a downstream effect on the phospho-status of acetyl CoA carboxylase, a key regulator of cellular fat metabolism known to be a part of the cytosolic substrate-channelling complex in vivo. We hypothesise that the regulatory presence of LDH in the complex couples the substrate-channelling mechanism to both the glycolytic and redox states of the cell, allowing for efficient sensing of cell metabolic status, interfacing with the substrate-channelling complex and regulating the enzymatic activities of AMPK and CK2, two critical protein kinases. 相似文献
54.
Dalal A. Al-Mutairi James D. Craik Ines Batinic-Haberle Ludmil T. Benov 《Biochimica et Biophysica Acta (BBA)/General Subjects》2007
Cell proliferation is notably dependent on energy supply and generation of reducing equivalents in the form of NADPH for reductive biosynthesis. Blockage of pathways generating energy and reducing equivalents has proved successful for cancer treatment. We have previously reported that isomeric Zn(II) N-methylpyridylporphyrins (ZnTM-2(3,4)-PyP4+) can act as photosensitizers, preventing cell proliferation and causing cell death in vitro. The present study demonstrates that upon illumination, ZnTM-3-PyP inactivates glucose-6-phosphate dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase, lactate dehydrogenase, NADP+ -linked isocitrate dehydrogenase, aconitase, and fumarase in adenocarcinoma LS174T cells. ZnTM-3-PyP4+ was significantly more effective than hematoporphyrin derivative (HpD) for inactivation of all enzymes, except aconitase and isocitrate dehydrogenase. Enzyme inactivation was accompanied by aggregation, presumably due to protein cross-linking of some of the enzymes tested. Inactivation of metabolic enzymes caused disruption of cancer cells' metabolism and is likely to be one of the major reasons for antiproliferative activity of ZnTM-3-PyP. 相似文献
55.
目的:探讨高原鼢鼠对洞道低氧高二氧化碳环境的代谢适应机制。方法:用酶活力分析法,分析春季、夏季和秋季高原鼢鼠血清乳酸脱氢酶(LDH)活力、乳酸含量和组织LDH活力,用聚丙烯酰胺凝胶电泳法分析血清和组织LDH同工酶谱。结果:高原鼢鼠血清LDH活力在春夏秋三季具有明显的差异,春季高于夏季,夏季高于秋季,血清乳酸含量表现出同样的变化趋势;春季血清中五种同工酶条带都清晰可见,夏季血清中LDH5和LDH4清晰可见,秋季血清中只能看见LDH5带。骨骼肌、心肌和脑组织LDH活力较高,而且从春季到秋季显著降低;肝、肾和肺组织LDH活力较低,肝组织LDH活力春季显著高于夏季和秋季,夏秋两季之间没有明显差异;肾和肺组织LDH活力在春季与夏季之间没有明显差异,但秋季明显降低。心、肝、肺、肾、脑和肌肉组织LDH同工酶谱,在春夏秋三季都显示出五条带,并表现出明显的组织差异;各组织同工酶含量也有不同程度的季节差异。结论:高原鼢鼠体内糖酵解过程具有明显的季节性变化,从春季到秋季依次降低,这与它们的季节性活动特点和洞道中氧气和二氧化碳的季节性波动有关。 相似文献
56.
Oxidative phosphorylation (OxPhos) is functional and sustains tumor proliferation in several cancer cell types. To establish whether mitochondrial β-oxidation of free fatty acids (FFAs) contributes to cancer OxPhos functioning, its protein contents and enzyme activities, as well as respiratory rates and electrical membrane potential (ΔΨm) driven by FFA oxidation were assessed in rat AS-30D hepatoma and liver (RLM) mitochondria. Higher protein contents (1.4–3 times) of β-oxidation (CPT1, SCAD) as well as proteins and enzyme activities (1.7–13-times) of Krebs cycle (KC: ICD, 2OGDH, PDH, ME, GA), and respiratory chain (RC: COX) were determined in hepatoma mitochondria vs. RLM. Although increased cholesterol content (9-times vs. RLM) was determined in the hepatoma mitochondrial membranes, FFAs and other NAD-linked substrates were oxidized faster (1.6–6.6 times) by hepatoma mitochondria than RLM, maintaining similar ΔΨm values. The contents of β-oxidation, KC and RC enzymes were also assessed in cells. The mitochondrial enzyme levels in human cervix cancer HeLa and AS-30D cells were higher than those observed in rat hepatocytes whereas in human breast cancer biopsies, CPT1 and SCAD contents were lower than in human breast normal tissue. The presence of CPT1 and SCAD in AS-30D mitochondria and HeLa cells correlated with an active FFA utilization in HeLa cells. Furthermore, the β-oxidation inhibitor perhexiline blocked FFA utilization, OxPhos and proliferation in HeLa and other cancer cells. In conclusion, functional mitochondria supported by FFA β-oxidation are essential for the accelerated cancer cell proliferation and hence anti-β-oxidation therapeutics appears as an alternative promising approach to deter malignant tumor growth. 相似文献
57.
Nonheme iron accumulates in CNS tissue after ischemic and hemorrhagic insults and may contribute to cell loss. The source of this iron has not been precisely defined. After blood-brain barrier disruption, CNS cells may be exposed to plasma concentrations of transferrin-bound iron (TBI), which exceed that in the CSF by over 50-fold. In this study, the hypothesis that these concentrations of TBI produce cell iron accumulation and neurotoxicity was tested in primary cortical cultures. Treatment with 0.5-3 mg/ml holotransferrin for 24 h resulted in the loss of 20-40% of neurons, associated with increases in malondialdehyde, ferritin, heme oxygenase-1, and iron; transferrin receptor-1 expression was reduced by about 50%. Deferoxamine, 2,2′-bipyridyl, Trolox, and ascorbate prevented all injury, but apotransferrin was ineffective. Cell TBI accumulation was significantly reduced by deferoxamine, 2,2′-bipyridyl, and apotransferrin, but not by ascorbate or Trolox. After treatment with 55Fe-transferrin, approximately 40% of cell iron was exported within 16 h. Net export was increased by deferoxamine and 2,2′-bipyridyl, but not by apotransferrin. These results suggest that downregulation of transferrin receptor-1 expression is insufficient to prevent iron-mediated death when neurons are exposed to plasma concentrations of TBI. Chelator therapy may be beneficial for acute CNS injuries associated with loss of blood-brain barrier integrity. 相似文献
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60.
The isoenzyme of potato peroxidase A5 has MW 105 000; C3—94 000; C4 and C5—56 500 C6—48 500. The isoenzymes retain activity on SDS-gels thereby allowing direct measurement of monomeric MW, even in crude extracts. One of the isoperoxidases showed anomalous behaviour on SDS-electrophoresis. 相似文献