Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

P-glycoproteins, encoded by families of evolutionarily conserved genes, can confer a multidrug-resistant phenotype to mammalian tumor cells. To obtain more information on their functions in normal cells we have cloned genomic and complementary DNA sequences of four P-glycoprotein gene homologs of the genetically well-characterized nematode Caenorhabditis elegans, termed pgp-1, pgp-2, pgp-3 and pgp-4, respectively. The genes were physically mapped on chromosome IV (pgp-1), I (pgp-2) and X (pgp-3 and pgp-4). Phenotypic mutants corresponding to these loci have not yet been described. Two of the genes, pgp-1 and pgp-3, were analyzed in detail. They are predicted to encode ATP-binding membrane-spanning proteins of 1321 and 1254 amino acid residues, respectively, with the characteristic features shared by most P-glycoproteins described thus far. Intra-species divergence of P-glycoprotein genes is more pronounced in C. elegans than in mammals. Only 40% of the amino acids of pgp-1 and pgp-3 are identical, in contrast to 77% identity between human MDR1 and MDR3. pgp-1 consists of 14 exons, pgp-3 of 13. The two genes share only one intron position, whereas they share four (pgp-1) and five (pgp-3) intron positions with mammalian P-glycoprotein genes. pgp-1, pgp-2, and pgp-3 are transcribed into low abundance mRNAs in wild-type nematodes. pgp-1 and pgp-3 mRNAs have the trans-spliced leader SL1 at their 5' ends. Arsenite, emetine and actinomycin D drugs did not increase the steady state levels of pgp mRNA, unlike in some mammalian cell types. Heat shock disturbed trans as well as cis-splicing of pgp-1 and led to the accumulation of partially processed pgp-1 RNA. Thus, in C. elegans these genes are not induced in the context of a general stress response, as has been proposed for mammalian P-glycoprotein genes in certain tissues.
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PMID:The P-glycoprotein gene family of Caenorhabditis elegans. Cloning and characterization of genomic and complementary DNA sequences. 136 May 40

P-glycoprotein (P-gp) is believed to function as an ATP-dependent efflux pump for natural product anti-cancer drugs in multidrug-resistant (MDR) tumor cells and in certain normal tissues. P-gp has been localized to the apical plasma membrane of the bile canaliculus where it has been shown to transport [3H]daunomycin. In this study, we investigated whether alterations in membrane lipid fluidity of canalicular membrane vesicles (CMV) could modulate the P-gp-mediated accumulation of [3H]daunomycin and [3H]vinblastine. Accumulation of both cytotoxic agents was stimulated by ATP, exhibited temperature dependence and osmotic sensitivity, and followed Michaelis-Menten kinetics. Alterations in CMV lipid fluidity were induced by the known fluidizers, 2-(2-methoxyethoxy)ethyl 8-(cis-2-n-octylcyclopropyl)octanoate (A2C) and benzyl alcohol, and were assessed by fluorescence polarization techniques using the fluorescent probe, 1,6-diphenyl-1,3,5-hexatriene (DPH). Both A2C (2.5-5.0 microM) and benzyl alcohol (10-20 mM) produced a dose-dependent increase in CMV lipid fluidity. Moreover, both fluidizers, at the above doses, significantly inhibited (p < 0.05) the ATP-dependent accumulation of [3H]daunomycin. [3H]Vinblastine accumulation was also inhibited by A2C (p < 0.05). Lower doses of A2C (0.6 microM) and benzyl alcohol (1 mM) failed to influence either lipid fluidity or P-gp-mediated drug accumulation. Kinetic analysis revealed that A2C (5.0 microM) noncompetitively inhibited [3H]daunomycin accumulation and uncompetitively inhibited [3H]vinblastine accumulation with apparent Ki values of approximately 1.5 and approximately 1.2 microM, respectively. Verapamil competitively inhibited P-gp-mediated accumulation of [3H]daunomycin but failed to alter the fluidity of CMV. Taken together, the present results demonstrate that while increases in membrane fluidity of CMV are not necessarily required to inhibit P-gp-mediated drug accumulation, they can inhibit these processes, at least in CMV. Alterations in the physical state of CMV, therefore, appear to be at least one important modulator of P-gp function.
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PMID:Modulation of P-glycoprotein-mediated drug transport by alterations in lipid fluidity of rat liver canalicular membrane vesicles. 136 Sep 81

Cystic fibrosis (CF) is a fatal genetic disease primarily affecting Caucasians, although cases have been reported from other ethnic groups. CF has a complex etiology, but it is chiefly a disease of electrolyte transport and is characterized by defects in fluid secretion by several epithelia, including the sweat duct, exocrine pancreas, and the pulmonary airways. The link between CF and a defect in cAMP-mediated Cl- transport in secretory epithelia was established in the early 1980s. Since then, numerous electrophysiological studies have focused on the characterization and regulation of individual Cl- channels underlying the macroscopic Cl- currents of secretory epithelia in the airways, sweat ducts, and gut. In this review the results of these studies in the light of current knowledge of the function of the CF gene product, the CF transmembrane conductance regulator (CFTR) protein, will be analyzed. The CFTR protein is a member of a family of ATP-binding proteins that act as unidirectional solute pumps. These proteins are membrane spanning, are found in both prokaryotic and eukaryotic cells, and have two ATP-binding domains. The family includes the p-glycoproteins that are involved with the expression of multidrug resistance in certain tumor cells. The majority of CF chromosomes (70%) have a single codon deletion that translates to a missing phenylalanine residue at position 508 (delta F508) of the protein. Unique for this family of proteins, the CFTR protein possesses an additional highly charged domain (the R domain) containing several consensus polypeptide sequences for kinase phosphorylation. Although CFTR bears structural resemblance to this family of ATP-dependent pumps, overexpression of the protein in a variety of different cell types is associated with the appearence of a cAMP-sensitive Cl- channel. We critically examine current information concerning the structure-function relationships of the CFTR protein obtained from both electrophysiological and biochemical approaches. We also summarize recent evidence suggesting that the CFTR protein may act as a pump and a channel, a hypothesis in keeping with the multifaceted nature of the disease.
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PMID:CFTR! 138 Nov 46

A number of plasticizers and lipid-lowering drugs induce peroxisomes and cause hepatocellular carcinoma in rodents by mechanisms which remain unknown. In this study, seven structurally dissimilar peroxisome proliferating agents were shown to uncouple oxidative phosphorylation in isolated rat liver mitochondria. For example, perfluorooctanoate (0.5 mM) increased succinate-induced (state 4) mitochondrial respiration by over 50% while stimulation of state 3 respiration with ADP was minimal (i.e., uncoupling occurred). Interestingly, compounds which are potent carcinogens in vivo (e.g., Wy-14,643 and perfluorooctanoate) were more powerful uncouplers of oxidative phosphorylation in vitro than weak tumor-causing agents (e.g., valproate). Uncoupling also occurred in vivo. Basal rates of oxygen uptake in perfused livers from chronically treated rats were increased from 137 +/- 7 mumol g-1/h in pair-fed controls to 153 +/- 5 mumol g-1/h after 2.5 months of feeding Wy-14,643 (0.1% w/v in diet). Concomitantly, rates of urea synthesis from ammonia, a process highly dependent on ATP supply, were reduced almost completely from 104 +/- 10 mumol g-1/h to 13 +/- 6 mumol g-1/h. Bile flow, another energy-dependent process, was also reduced significantly by treatment with Wy-14,643 in vivo for 24 h. Taken together, these data indicate that energy supply for cellular processes such as urea synthesis and bile flow was disrupted in vivo due to uncoupling of oxidative phosphorylation by Wy-14,643. It is proposed that peroxisomal proliferators accumulate in the liver where they uncouple mitochondrial oxidative phosphorylation and interfere with cellular energetics.
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PMID:Several nongenotoxic carcinogens uncouple mitochondrial oxidative phosphorylation. 139 Aug 25

1. D-GPDH from HeLa cells was isolated and purified. 2. Some basic kinetic constants are reported. 3. Sodium dodecyl polyacrylamide gel electrophoresis gave a single band with a molecular weight of approximately 36 K. 4. ATP and NADH inhibit competitively enzyme activity. 5. Comparative catalytic properties of GPDH from normal and tumor cells were effectuated.
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PMID:D-glyceraldehyde-3-phosphate dehydrogenase from HeLa cells--1. Purification and properties of the enzyme. 139 15

The reduction in DNA, RNA, amino acid, and total protein in muscle tissue of tumor-bearing rats may influence muscle function. The effects of MCA-sarcoma tumor burden on muscle performance and adenine nucleotides was evaluated in three fiber types of skeletal muscle. Twenty-one days after MCA-sarcoma tumor inoculation, the gastrocnemius-soleus muscle group of Fischer 344 rats was stimulated using an in situ preparation; tetanic stimulation for 10 min at 7.5, 15, or 30 tetani per min (TPM) or 60 TPM for 5 min (n = 6 control and six tumor-bearing rats/group). ATP, ADP, AMP, IMP, phosphocreatine, and creatine content in white and red gastrocnemius muscle and soleus muscle was measured. There were no differences among controls and tumor-bearing rats in force output; however, ATP content in the soleus muscle of tumor-bearing rats was significantly reduced after 30 TPM for 10 min or 60 TPM for 5 min. The performance of skeletal muscle, over a wide range of stimulation frequency, in tumor-bearing rats does not appear to be influenced by changes in adenine nucleotide content.
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PMID:Muscle performance and adenine-nucleotides status in MCA-sarcoma tumor-bearing rats. 140 56

Incubation of isolated rat alveolar epithelial type II cells with secretagogues (calcium ionophore, ATP or terbutaline) resulted in rapid proteolysis of lung spectrin and appearance of multiple proteolytic products which showed immunoreactivity with an antibody against human erythrocyte spectrin. These proteolytic products were similar to those generated from erythrocyte spectrin or cultured lung tumor cells (A549 cells) incubated with purified calpain. Furthermore, incubation of alveolar type II cells with a calpain-specific inhibitor modulated the secretagogue-induced proteolysis of lung spectrin. Thus, stimulation of secretion appeared to activate endogenous calpain in type II cells, suggesting that calpain-mediated proteolysis of a submembranous cytoskeletal protein could play an important role in the secretory process.
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PMID:Secretagogue-induced proteolysis of lung spectrin in alveolar epithelial type II cells. 142 Mar 19

Acid phosphatase activity was measured in implanted murine CaNT tumors of varying volumes. There is a clear monotonically increasing relation between acid phosphatase activity and tumor volume. Also the tumors were subjected to either induced artificial hypoxia or hyperthermia (41.0 degrees C) alone, or combined with neutron irradiation (3.8 Gy). Changes in the activity of this enzyme following radiation damage could reflect tissue damage associated with metabolic disturbances. The effect on enzyme activity after sequential hyperthermia and neutron irradiation is not synergistic, as is shown in the quantitative experimental data. This implies that the mechanisms of heat damage differ from that of neutron beam damage, as reflected by acid phosphatase activity. The CaNT tumor was also shown to be thermosensitive after administration of mitoxantrone. Finally, the role of exogenous ATP was shown to provide heat protection by modification of those thermal effects resulting in the activity of acid phosphatase. The augmentation of this hydrolytic enzyme probably represents initial metabolic damage in the tumor after different modalities of radiation alone, or combined with mitoxantrone and exogenous ATP.
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PMID:Modification of the effects of hyperthermia and neutron radiation on the activity of acid phosphatase in CaNT tumors. 142 11

In this review, we will emphasize the role of ATP-dependent membrane transporters in protein export and intracellular protein trafficking in prokaryotic and eukaryotic cells. ATP-binding-cassette (ABC)-transport proteins, also termed "traffic ATPases," belong to a superfamily of ubiquitous ATP-driven membrane transporters that share extensive sequence similarity and highly conserved domain organization. They are implicated in a remarkable variety of transmembrane transport processes, including the transport of ions, heavy metals, sugars, anticancer drugs, amino acids, oligopeptides, and proteins. Bacterial ABC-proteins include the well-characterized periplasmic permeases involved in nutrient uptake, but also include protein secretion systems, such as the exporter for the Escherichia coli enterotoxin hemolysin A. Prominent eukaryotic members of this superfamily include the human P-glycoprotein (which is associated with the phenomenon of multiple drug resistance in tumor cells), the product of the cystic fibrosis gene (CFTR), the gene (pfmdr) implicated in chloroquine resistance of the malarial parasite, putative peptide transporters encoded at the locus for the class II major histocompatibility complex (MHC), and the yeast Ste6 transporter which mediates export of a peptide hormone that lacks a classical hydrophobic signal peptide. The well-established function of prokaryotic ABC-transporters in the secretion of proteins without typical signal sequences, and the example set by the Ste6 transporter, have led to the reasonable hypothesis that certain ABC-proteins in animal cells may be operating by a similar mechanism to mediate the export of a new class of secretory proteins, those lacking a classical hydrophobic signal peptide.
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PMID:Secretion of peptides and proteins lacking hydrophobic signal sequences: the role of adenosine triphosphate-driven membrane translocators. 142 85

Stress accelerates the growth of certain types of tumors. Here we report a possible metabolic mechanism underlying this phenomenon. Some early features of transformation include increased number of glucose transporters and greatly enhanced rates of glucose uptake; this adaptation accommodates the vast energy demands needed for neoplastic growth. In contrast, glucocorticoids, a class of steroid hormones secreted during stress, inhibit glucose transport in various tissues; this is one route by which circulating glucose concentrations are raised during stress. We reasoned that should transformed cells become resistant to this inhibitory action of glucocorticoids, such cells would gain preferential access to these elevated concentrations of glucose. In agreement with this, we observed that Fujinami sarcoma virus-transformed fibroblasts became resistant to this glucocorticoid action both in vitro and in the rat. As a result, under conditions where glucocorticoids exerted catabolic effects upon nontransformed fibroblasts (inhibition of metabolism and ATP concentrations), the opposite occurred in the virally transformed cells. We observe that this glucocorticoid resistance upon transformation cannot be explained by depletion of glucocorticoid receptors; previous studies have suggested that transformation causes an alteration in trafficking of such receptors. Because of this resistance of transformed fibroblasts to the inhibitory effects of glucocorticoids upon glucose transport, glucose stores throughout the body are, in effect, preferentially shunted to such tumors during stress.
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PMID:Possible mechanism by which stress accelerates growth of virally derived tumors. 143 18


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