Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

10-[Diethylaminopropylamino]-6-methyl-5H-pyrido[3',4':4,5] pyrrolo[2,3-g]isoquinoline (BD-40) (NSC-327471D) is an aza-ellipticine derivative with a promising antitumor activity (M. Marty, C. Jasmin, P. Pouillard, C. Gisselbrecht, G. Gouvenia, and H. Magdalainat, 17th Annual Meeting of the American Society of Clinical Oncology, C-108, 1981) and less toxicity than ellipticine. We have compared the effects of ellipticine, several of its analogues, and two aza-analogue ellipticine derivatives (BD-40 and BR-1376) on cell cycle progression of BALB/c 3T3 mouse cells under different growth conditions. Both drug series were found to stop cell growth and block cells in G2 phase in exponentially growing cultures and cultures released from a thymidine double block. Long-term viability of these cells was completely suppressed after a short exposure to the drugs. In contrast, while ellipticine and its derivatives caused identical effects in cells recovering from serum starvation, BD-40 and BR-1376 did not block cells in G2 phase and did not prevent the completion of the first division round occurring after serum addition to quiescent cells. This transient refractory state was accompanied by a total conservation of long-term viability of these cells at least for the next 6 h following serum and drug addition. This lack of effect was not related to an impaired drug uptake by cells recovering from serum starvation or by a dramatic change in drug distribution inside the cells. These results indicate that the nitrogen substitution in the ellipticine heterocycle is an important if not unique feature for the particular effect of the aza-analogues of ellipticine. Furthermore, they suggest that, in contrast to ellipticine derivatives, these compounds require an activation step before exhibiting cytotoxicity.
Cancer Res 1985 Aug
PMID:Differential effects of ellipticine and aza-analogue derivatives on cell cycle progression and survival of BALB/c 3T3 cells released from serum starvation or thymidine double block. 401 57

The actions of 6-thioguanine (TG) and 6-mercaptopurine (MP) were compared in Chinese hamster ovary (CHO) cells. Several differences were noted between these two agents. TG caused a greater maximal loss of clonogenicity, leaving about one log fewer survivors than did MP, although the cells killed by MP appeared to succumb much more rapidly than those killed by TG. MP-treated populations experienced a G1 or G1/S arrest which was quickly reversed upon drug removal, while TG-treated cells were arrested in late S/G2, after some delay. Although TG induced a gross chromosome deformation [unilateral chromatid damage, as described earlier in Maybaum and Mandel, Cancer Res. 43, 3852 (1983)] MP caused little or no such deformation. Addition of 4-amino-5-imidazolecarboxamide (AIC) to MP treatments antagonized MP-induced loss of clonogenicity, while AIC caused a dose-dependent potentiation of TG-induced loss of clonogenicity. The interaction between TG and AIC does not seem to represent an increase in either purine starvation or incorporation of TG into DNA, suggesting that a third mechanism is involved. We suggest that this additional mechanism may possibly be related to the induction of differentiation by TG that has been reported in other systems.
 ...
PMID:Dissimilar actions of 6-mercaptopurine and 6-thioguanine in Chinese hamster ovary cells. 405 7

The presence of succinyl-coenzyme A: acetoacetate CoA--transferase (3-oxo acid-CoA transferase), an initiator of ketone body utilization in non-hepatic tissue was examined in a number of animal and human tumours of peripheral tissues. While enzyme levels in heart, kidney, lymphocytes and bladder were high, the tumours contained low or non-detectable levels of transferase activity, comparable with that of normal liver. The activities of acetoacetyl-CoA thiolase paralleled that of the transferase, except for the high activity in liver, and in all cases the tumour content of the enzyme was lower than that of the brain. The activity of 3-hydroxybutyrate dehydrogenase was similar in both normal and tumour tissue. The results indicate that tumours of non-hepatic tissues may be unable to metabolize ketone-bodies and suggest a therapeutic strategy for selective starvation of the tumour by dietary modification.
Br J Cancer 1983 Feb
PMID:Loss of acetoacetate coenzyme A transferase activity in tumours of peripheral tissues. 613 Jul 80

The importance of decreased food intake as the mechanism behind altered protein metabolism in skeletal muscle in cancer was evaluated. A methylcholanthrene-induced sarcoma (MCG 101) transplanted in weight-stable and nongrowing mice (C57BL/6J) was used as the tumor-animal model. Three study groups with appropriate control groups were used: sarcoma-bearing mice; pair-fed mice; and starved mice. The synthesis of myofibrillar and sarcoplasmic proteins was decreased in sarcoma-bearing mice. This was correlated to decreased content of RNA in the muscles and caused a net loss of muscle tissue was measured by dry weight of skeletal muscles. The incorporation rate of amino acids into myofibrillar and sarcoplasmic proteins was decreased to the same extent in the pair-fed mice as that in the sarcoma-bearing mice. This probably reflected decreased protein synthesis, since the radioactivity (dpm/mg) did not differ significantly in the crude transfer RNA fraction between the groups. Separation of soluble proteins from muscle tissue by means of ion-exchange chromatography showed that the pattern of decreased protein synthesis was not tumor specific when compared to muscle affected by starvation. The decrease in protein synthesis was more or less selective, since the synthesis of basic proteins was considerably decreased and was influenced more than were neutral and acidic proteins in both cancer and starvation. Anorexia of a tumor-bearing host is a sufficient trigger to induce decreased protein synthesis in skeletal muscles, but other factors may also be of quantitative importance.
Cancer Res 1981 May
PMID:Evaluation of anorexia as the cause of altered protein synthesis in skeletal muscles from nongrowing mice with sarcoma. 616 32

Seven strains of normal human cells (fibroblastic, skin epithelioid, and amniotic) ceased to proliferate in medium depleted of free calcium ion by titration with ethylenebis(oxyethylenenitrilo)tetraacetic acid (EGTA), whereas the growth of 9 of 10 human melanoma cell lines was not affected. Fibroblasts showed a rapid drop in thymidine pool size and decreased incorporation of thymidine and uridine when treated with EGTA, followed during the next 48 hr by a decrease in plasma membrane potential and by development of a proliferative block in the G1 phase of the cell cycle. The calcium-independent melanoma line MM96 exhibited an early decrease in thymidine pool size and enhanced incorporation of nucleosides but continued to proliferate with little perturbation of the cell cycle or change in membrane potential. Tumor cell DNA may therefore be selectively labeled in the presence of normal cells. The anomalous, calcium-dependent melanoma line (MM170) showed an immediate increase in the thymidine pool size and in nucleoside incorporation and subsequently accumulated in G1 and G2 with diminution of membrane potential and of DNA and RNA synthesis. The proliferative block in MM170 cells could be reversed by addition of calcium ion or by replacement with control medium. Addition to the medium of all 8 nucleosides (50 microM), singly or together, did not prevent EGTA-induced cytostasis in fibroblasts or MM170; transport of thymidine across the cell membrane was enhanced by 24-hr EGTA treatment in fibroblasts, MM96, and MM170. Thus, although calcium affected thymidine utilization rapidly and differently in each of the three cell types, nucleoside starvation per se did not appear to be responsible for either type of proliferative block.
Cancer Res 1983 May
PMID:Effects of calcium depletion on human cells in vitro and the anomalous behavior of the human melanoma cell line MM170. 618 41

Plasma fibronectin, which is an alpha 2-glycoprotein of importance for the immunodefence, has been reported to decrease after starvation and in severely ill patients with cancer. To evaluate the usefulness of fibronectin as an indicator of nutritional repletion, 18 patients with gastrointestinal disorders were studied over a 2-wk period of total parenteral nutrition (TPN). According to nutritional assessment on admission the patients were divided into well nourished (n = 6) and malnourished (n = 12). For comparison nine patients with anorexia nervosa were also studied over a 3-wk period of TPN. Before and after TPN fibronectin, albumin, prealbumin, transferrin, and two acute-phase reactants, haptoglobin and orosomucoid were measured in plasma. The majority of the malnourished patients had an inflammatory reaction in contrast to only a few of the well-nourished and anorexia nervosa patients. Of the proteins measured, only fibronectin rose significantly in the malnourished patients (malnourished and anorexia nervosa), but not in the well nourished patients during TPN. Our results may indicate the usefulness of fibronectin as an indicator of short-term TPN in malnourished subjects, irrespective of the presence or absence of inflammatory response.
 ...
PMID:Influence of total parenteral nutrition on plasma fibronectin in malnourished subjects with or without inflammatory response. 620 90

The increased rate of glucose uptake found in cells transformed by Rous sarcoma virus was shown to be enhanced relative to the changes in uptake induced in nontransformed cells by deprivation of glucose (deprivation derepression). Glucose-specific uptake sites were distinguished from glucose-galactose sites in nontransformed cells, and the capacities for glucose uptake and for galactose uptake were increased to about the same extent by the exclusion of glucose from the cell culture medium. Deprivation derepression occurred without a requirement for new RNA or protein synthesis, suggesting that preexisting inactivate uptake sites were activated. Deprivation derepression could be mimicked by the treatment of cells with adenosine triphosphatase activators, and adenosine triphosphate levels were reduced in glucose-deprived cells and in cells treated with adenosine triphosphatase activators. Cells transformed by the Bryan strain of Rous sarcoma virus were unresponsive to addition of high concentrations of glucose, to glucose starvation, or to treatment with adenosine triphosphatase activators, and the relative capacity for glucose uptake in these transformed cells was enhanced much more than the capacity of galactose uptake. It was concluded that cells infected by the Bryan strain of rous sarcoma virus in the process of transformation selectively synthesize more sites specific for glucose uptake. Lower levels of adenosine triphosphate found in transformed cells possibly contribute to a chronic derepression of uptake sites.
Cancer Res 1981 May
PMID:Increased glucose uptake capacity of Rous-transformed cells and the relevance of deprivation derepression. 626 Mar 48

The cyclic nucleotide effect on junction was studied in C1-1D cells, a mouse cancer cell type that fails to make permeable junctions in ordinary confluent culture. Upon administration of cyclic AMP, dibutyryl cyclic AMP, dibutyryl cyclic AMP plus caffeine (db-cAMP-caffeine), or cholera toxin (an adenylate cyclase activator), the cells acquired permeable junctions; they became electrically coupled and transferred fluorescent tracer molecules among each other - a transfer exhibiting the molecular size limit of permeation of normal cell-to-cell channels. The effect took several hours to develop. With the db-cAMP-caffeine treatment, junctional permeability emerged within two hours in one-fifth of the cell population, and within the next few hours in the entire population. This development was not prevented by the cytokinesis inhibitor cytochalasin B. Permeable junctions formed also in two other conditions where the cell-endogenous cyclic AMP level may be expected to increase: serum starvation and low cell density. After three weeks of starving, the cells of serum, a junctional permeability arose in confluent cultures, which on feeding with serum disappeared within two to three days. At low cell density, namely below confluency, the cells made permeable junctions, unstarved. In cultures of rather uniform density, the frequency of permeable junctions was inversely related to the average density, over the subconfluent range; at densities of about 1 X 10(4) cells/cm2, where the cells had few mutual contacts, 80% of the pairs presumed to be in contact were electrically coupled. In cultures with adjoining territories of high (confluent) and low cell density, there was coupling only in the last, and in this low-density state the cells were also capable of coupling with other mammalian cell types (mouse 3T3-BalbC and human Lesch-Nyhan cells).
 ...
PMID:Cell junction and cycle AMP: III. Promotion of junctional membrane permeability and junctional membrane particles in a junction-deficient cell type. 627 68

Induction of aryl hydrocarbon hydroxylase (AHH) by polycyclic aromatic hydrocarbons and other inducers such as 2,3,8-tetrachlorodibenzo-p-dioxin (TCDD) is known to occur following binding of the inducer to a soluble receptor protein similar to steroid hormone receptors. This receptor is usually called the TCDD receptor, since TCDD has the highest affinity of all known ligands for the receptor. In the present paper a receptor for TCDD in cytosol from rat intestinal mucosa has been studied, using isoelectric focusing in polyacrylamide gel. This receptor's biochemical properties were found to be similar to those of the TCDD-receptor in rat liver cytosol. The dissociation constant (Kd) of the 3H-TCDD-receptor complex in rat intestinal mucosa was 0.7-3.1 nM, and it was present at a concentration of 70-80 fmol/mg protein. Starvation did not significantly increase the receptor level. The affinities of some potential dietary ligands for the TCDD receptor in rat intestinal mucosa were also studied. Indole-3-carbinol had 1/2,600 of the affinity of TCDD for the receptor protein. Butylated hydroxyanisole (BHA), transstilbene oxide and quercetinpentamethylether competed even more weakly with 3H-TCDD for binding to the receptor. The biological significance of the occurrence of low-affinity ligands of dietary origin for the TCDD receptor is uncertain at the present time.
Nutr Cancer 1982
PMID:The TCDD receptor in rat intestinal mucosa and its possible dietary ligands. 629 Oct 4

This review discusses the potential relationships between ADP-ribosylation reactions, DNA repair, cell differentiation, and cancer. ADP-ribosylation of chromatin proteins has been shown to participate in DNA excision repair in all nucleated cells. ADP-ribosylation of chromatin proteins is catalysed by nuclear ADP-ribosyl transferase (ADPRT). This enzyme is entirely dependent on DNA for its activity because it has an absolute requirement for ends or nicks in double-stranded DNA. Exposure of cells to small alkylating agents or to radiation causes a fall in cellular NAD+ levels due to a transient activation of ADPRT and a consequent ADP-ribosylation of chromatin proteins. Inhibitors of ADPRT retard DNA strand-rejoining induced by radiation or by small alkylating agents; such inhibition has at least two biological consequences; a synergistic potentiation of cytotoxicity and an enhancement of sister chromatid exchanges and chromosomal aberrations. No species differences have yet been reported; there are variations between cell types and between different damaging agents. The enzyme inhibitors do not block early steps in DNA repair, and repair synthesis does not require ADPRT activity. DNA damage increases the activity of both DNA polymerase beta and DNA ligase II. The activation of DNA ligase II can be blocked by ADPRT inhibitors; presumably ADPRT activity is required for the activation of DNA ligase II. A plausible molecular explanation for the function of ADPRT in DNA repair is that ADPRT regulates the activity of DNA ligase II, the "non-replicative" ligase. In addition to its function in DNA repair, ADPRT is an obligatory requirement in certain categories of cell differentiation. Inhibitors of ADPRT and nicotinamide starvation both reversibly block cell differentiation. We suggest that a similar mechanism to that of DNA repair may be involved because we observe 100 to 300 single-strand DNA breaks during the cytodifferentiation of primary chick myoblasts. These breaks are not due to a general deficiency in DNA repair. I suggest that in certain categories of cell differentiation there are rearrangements or transpositions within the mammalian genome, and that ADP-ribosylation reactions have a general function to be sensitive to DNA breaks and to regulate subsequent DNA ligation in DNA repair, in DNA recombination, in sister chromatid exchanges, in chromosome aberrations, in gene rearrangements, in transpositions and in certain categories of cell differentiation. The relevance of these observations and ideas to cancer is discussed.
 ...
PMID:ADP-ribosylation, DNA repair, cell differentiation and cancer. 631 41


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>