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Enzyme
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Target Concepts:
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Deoxyribonucleoside triphosphate (dNTP) pool levels were examined in synchronized and unsynchronized log phase cultures and in quiescent cultures of human diploid foreskin fibroblasts. dNTP levels were in good agreement with those previously published for human HeLa and
lymphoblastic leukemia
cells. dCTP and dGTP levels showed only a modest lowering in quiescent as compared to log-phase cells, but dATP and dTTP levels were reduced dramatically in quiescent cultures. Cells synchronized by serum
starvation
and assayed at the peak DNA synthetic phase (18-21 hr post release) showed substantially higher pools of all four dNTPs. Hydroxyurea treatment reduced only purine dNTPs in both log phase and confluent cells while increasing dTTP and dCTP pools. The effects of deoxynucleosides on dNTP pools were also examined and are discussed in light of current models regarding regulation of purified ribonucleotide reductase formulated from in vitro studies.
...
PMID:Deoxyribonucleoside triphosphate pools in human diploid fibroblasts and their modulation by hydroxyurea and deoxynucleosides. 673 68
This study is based on our previous findings showing that certain amino acids may protect hybridoma cells against
starvation
-induced apoptosis. In the present work we have screened 44 amino acids and analogs for their capacity of modulating apoptosis in human T-
lymphoblastic leukemia
cell line MOLT-4 exposed to
starvation
in a nutrient-poor medium. The panel of tested substances was found to contain not only compounds with antiapoptotic activity (e.g., l-glutamine, l-histidine, glycine, l-proline, and l-2-aminopentanoic acid), but also compounds with proapoptotic activity (e.g., l-phenylalanine, l-tryptophan, l-arginine, and l-2-aminohexanoic acid). The apoptosis-modulating effects were dependent on fine details of the structure of the compounds. A switch from antiapoptotic activity to proapoptotic activity was found between 6-aminohexanoic acid and 7-aminoheptanoic acid, as well as between l-2-aminopentanoic acid and l-2-aminohexanoic acid. D-amino acids tested were without effect.
...
PMID:Antiapoptotic and proapoptotic action of various amino acids and analogs in starving MOLT-4 cells. 1181 59
Cancer cells acquire abnormalities in energy metabolism, collectively known as the Warburg effect, affecting substrate availability of thiamine-dependent enzymes. To investigate a strategy to exploit abnormal cancer-associated metabolism related to thiamine, we tested the cytotoxicity of native Bacillus thiaminolyticus thiaminase I enzyme, which digests thiamine, in the NCI60 cell line drug cytotoxicity screening program and found that leukemia cell lines were among the most sensitive to thiaminase I. We obtained additional
lymphoid leukemia
cell lines and confirmed that native thiaminase I and linear chain PEGylated thiaminase I enzyme (LCPTE) have cytotoxic activity in these cell lines. In addition, the IC(50) of 3 of the 5 leukemia cell lines (Reh, RS4, and Jurkat) were at least 1,000-fold more sensitive than Molt-4 cells, which in turn, were among the most sensitive in the NCI60 panel. The 3 LCPTE-sensitive leukemia cell lines were also sensitive to removal of thiamine from the medium, thus suggesting the mechanism of action of LCPTE involves extracellular thiamine
starvation
. Surprisingly, rapamycin showed a protective effect against LCPTE toxicity in the 3 LCPTE-sensitive cell lines but not in the other 2 cell lines, suggesting involvement of an mTOR-dependent pathway. Immunoblot analysis of the LCPTE-sensitive cell lines after LCPTE exposure revealed changes in mTOR pathway phosphorylation. Nude mice bearing RS4 leukemia xenografts showed both tumor growth delay and prolonged survival after a single dose of LCPTE. Therefore, disruption of thiamine-dependent metabolism may be a novel therapeutic approach to target altered energy metabolism in leukemia and other cancers.
...
PMID:Linear chain PEGylated recombinant Bacillus thiaminolyticus thiaminase I enzyme has growth inhibitory activity against lymphoid leukemia cell lines. 2169 96
Luciferase transfected cell lines are used extensively for cancer models, revealing valuable biological information about disease mechanisms. However, these genetically encoded reporters, while useful for monitoring tumor response in cancer models, can impact cell metabolism. Indeed firefly luciferase and fatty acyl-CoA synthetases differ by a single amino acid, raising the possibility that luciferase activity might alter metabolism and introduce experimental artifacts. Therefore knowledge of the metabolic response to luciferase transfection is of significant importance, especially given the thousands of research studies using luciferase as an
in vivo
bioluminescence imaging (BLI) reporter. Untargeted metabolomics experiments were performed to examine three different types of
lymphoblastic leukemia
cell lines (Ramos, Raji and SUP T1) commonly used in cancer research, each were analyzed with and without vector transduction. The Raji model was also tested under perturbed
starvation
conditions to examine potential luciferase-mediated stress responses. The results showed that no significant metabolic differences were observed between parental and luciferase transduced cells for each cell line, and that luciferase overexpression does not alter cell metabolism under basal or perturbed conditions.
...
PMID:Luciferase does not Alter Metabolism in Cancer Cells. 2479 Nov 64
This note highlights our understanding and thinking about the feasibility of l-asparaginase as therapeutics for multiple diseases. l-asparaginase enzyme (l-asparagine amidohydrolase, EC 3.5.1.1) is prominently known for its chemotherapeutic application. It is primarily used in the treatment of acute lymphoblastic leukemia in children. It is also used in the treatment of other forms of cancer Hodgkin disease, lymphosarcoma, acute myelomonocytic leukemia, acute myelogenous leukemia, chronic
lymphocytic leukemia
, reticulosarcoma and melanosarcoma (Lopes et al. Crit Rev Biotechnol 23:1-18, 2015). It deaminates l-asparagine present in the plasma pool causing the demise of tumor cell due to nutritional
starvation
. The anti-tumorigenic property of this enzyme has been exploited for over four decades and evidenced as a boon for the cancer patients. Presently, the medical application of l-asparaginase is limited only in curing various forms of cancer.
...
PMID:l-Asparaginase: a feasible therapeutic molecule for multiple diseases. 2987 9
