Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution of cyclocytidine and cytosine arabinoside has been studied in normal BDF mice and in mice bearing 6-day solid L1210 lymphocytic leukemia by whole-body radioautography, bioassay, and radiochemical techniques. Radioactivity was widely distributed throughout the tissues between 15 minutes and 12 hours after a single intravenous dose of either cyclocytidine-2-14C or cytosine arabinoside-2-14C. Whole-body radioautograms demonstrated that for most tissues, cytosine arabinoside-derived 14C was uniformly excreted by 48 hours; cyclocytidine-derived 14C, however, was localized in certain tissues as early as 15 minutes after drug administration and was retained in these sites for 48 hours. Depot loci of 14C included salivary and adrenal glands, fat, cardiac muscle, gastrointestinal tract, and L1210 tumor. The distribution and persistence of cyclocytidine-derived radioactivity is consistent with other reports of toxicity induced by the drug in these tissues. Radiochromatography and bioassay data from BDF mice dosed intraperitoneally with cyclocytidine demonstrated that 65%-95% of the 14C-radioactivity in a number of tissues was the parent compound itself. Thus, cyclocytidine contributed in large measur to the generation of the radioautograms. This study demonstrates that the retention of cyclocytidine in body tissues may serve to effect the sustained release of the deaminase-resistant chemotherapeutic drug from these depot sites and thus prolong cytotoxic levels of drug in tumor tissue.
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PMID:Comparative studies of cyclocytidine (NSC-145668) and cytosine arabinoside (NSC-63878) in mice. 120 80

Mice--BDF, hybrides, males aged 3 months were injected intraperitoneally with 10(4) lymphatic leukemia cells P 388. The mice were killed by bleeding after 2.5 and 10 days after the injection. Gamma-glutamyltransferase (GGT), leucylaminopeptidase (LAP) and cobalt activated acylase activity were determined in the serum of the mice. The inner organs of the animals were verified histopathologically. A statistically significant increase in the activity of the examined enzymes was observed together with the development of transplantable leukemia. These enzymes can be helpful in early monitoring of lymphatic leukemia P 388 in mice--as markers of cancer growth.
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PMID:Activity of some hydrolases in mice with transplantable lymphatic leukemia P 388. 288 60

The activity of cobalt-activated acylase was determined in the serum of mice with transplantable leukemia (P 388, L 1210 standard, L 1210/ara-C, L 1210/CH3-G, plasmocytoma ADJPC-5, lymphoma AKSL-4 and natural leukemia in mice NZB). A statistically significant increase in enzyme activity in all leukemias except lymphatic leukemia has been demonstrated. The results suggest possibility of using the enzymatic measurement as a marker of transplantable leukemia in mice.
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PMID:Serum cobalt-activated acylase as a marker of transplantable leukemia in mice. 327 96

AKR mice highly susceptible to leukemia were fed orally for 9 months every days with a water solution of peat-liking preparation PF-290/II/2 at a dose 0.2 cm3 (70 g/cm3 water). After bleeding body and internal organs weight were measured and their ratio were calculated. Anatomo-pathological lesions, histopathological and ultrastructural examinations with the use of transmission and scanning microscope, serum cobalt-activated acylase (AA-Co) activity and urine arylsulphatase (ASA) activity were performed. It was found used preparation had some anti-tumors effect of mice with lymphatic leukemia. Serum cobalt-activated acylase and urine arylsulphatase of AKR mice for observation on disease development and dynamics of this process. In the ultrastructural picture changes of lymphatic cells after outside removal of degradated complexes of intracell membranes was observed.
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PMID:[Morphological and biochemical studies of the effect of the peat-derived preparation PF-290/II/2 on the development of natural lymphatic leukemia in mice]. 348 32

Activation induced deaminase (AID) initiates somatic hypermutation and class switch recombination of the Ig genes in antigen-activated B cells, underpinning antibody affinity maturation and isotype switching. AID can also be pathogenic by contributing to autoimmune diseases and oncogenic mutations. Moreover, AID can exert noncanonical functions when aberrantly expressed in epithelial cells. The lack of specific inhibitors prevents therapeutic applications to modulate AID functions. Here, we have exploited our previous finding that the HSP90 molecular chaperoning pathway stabilizes AID in B cells, to test whether HSP90 inhibitors could target AID in vivo. We demonstrate that chronic administration of HSP90 inhibitors decreases AID protein levels and isotype switching in immunized mice. HSP90 inhibitors also reduce disease severity in a mouse model of acute B-cell lymphoblastic leukemia in which AID accelerates disease progression. We further show that human AID protein levels are sensitive to HSP90 inhibition in normal and leukemic B cells, and that HSP90 inhibition prevents AID-dependent epithelial to mesenchymal transition in a human breast cancer cell line in vitro. Thus, we provide proof-of-concept that HSP90 inhibitors indirectly target AID in vivo and that endogenous human AID is widely sensitive to them, which could have therapeutic applications.
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PMID:HSP90 inhibitors decrease AID levels and activity in mice and in human cells. 2615 67

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.
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PMID:l-Asparaginase: a feasible therapeutic molecule for multiple diseases. 2987 9