Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.4 (adenosine deaminase)
 5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In serum, the enzyme adenosine deaminase (ADA) is known to be divided into two isoenzymes, ADA1 and ADA2, which have different molecular weights and kinetic properties. The present study investigated ADA isoenzyme levels in the sera of patients infected with retroviruses associated with adult T-cell leukemia (ATL), human T-cell lymphotropic virus type 1 (HTLV-1)-associated myelopathy (HAM), and AIDS, ADA isoenzyme activities were found to be significantly (P < 0.001) higher in the sera of patients with ATL, HAM, and AIDS than in the sera of healthy controls. In the case of the ADA subtypes in the sera of patients with ATL, ADA1 activity was significantly (P < 0.001) elevated in patients with the acute and lymphoma types of ATL compared with that in patients with the chronic and smoldering types of ATL. ADA2 activity was significantly elevated in the sera of patients with the acute, lymphoma, and chronic types of ATL (P < 0.001) compared with that in patients with smoldering ATL and HTLV-1 carriers. In the case of patients with human immunodeficiency virus type 1 (HIV-1) infection, ADA1 and ADA2 activities in the sera of patients with AIDS and HIV-1 antibody-positive individuals were significantly (P < 0.001) higher than those in the sera of HIV-1 antibody-negative individuals. A significant elevation in ADA2 activity was also seen in the sera of AIDS patients (P < 0.01) compared with that in the sera of HIV-1 antibody-positive individuals. These results suggest that the magnitude of elevation of ADA isoenzyme levels in serum correlates well with the clinical conditions of the patients with these diseases. Measurement of the activities of ADA isoenzymes may therefore provide an additional parameter for distinguishing the subtypes of ATL and may prove to be useful as prognostic and therapeutic monitors in diseases associated with HTLV-1 and HIV-1 infections.
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PMID:Adenosine deaminase isoenzyme levels in patients with human T-cell lymphotropic virus type 1 and human immunodeficiency virus type 1 infections. 854 45

Peripheral blood, bone marrow and/or lymph nodes of 77 patients with T- and B-ALLs/lymphomas were characterized for their surface membrane marker profiles using flow cytometry and fluorescence microscopy. Purine metabolism enzyme activities were compared with membrane immunophenotypes. T and B-ALLs/lymphomas subtypes were defined by the expression of surface membrane antigens detected by the monoclonal antibodies. Based on immunophenotyping we found the following characteristic marker profiles: in T-ALL-CD7, CD2, CD1, CD5, CD3, CD4, CD8, CD38, CD71; in T-NHL-CD7,CD2,CD3,CD4,CD5,CD6; in pre-B ALL-CD10, CD19, CD24, HLA-DR, CD34, in B-ALL-CD19, CD20, CD24, HLA-DR, SmIg with kappa or lamda light chains; in B-ALL-weak SmIg, kappa or lambda, CD19, CD20, CD24, CD5, HLA-DR; in B-NHL-CD19, CD20, CD22, CD24, CD5, more intensive SmIg, kappa or lambda. The cells of leukemic cases tended to have more immature phenotypes than those of lymphoma cases. Analysis of purine metabolism enzyme activities showed that there was a correlation between the values of adenosine deaminase (ADA) and purine nucleoside (PNP) and various types of T- and B-ALLs/lymphomas. ADA levels in B-NHL and B-CLL were lower than those in normal cells, while ADA level in T-ALL, T-NHL, pre-B-ALL and B-ALL was higher (the average 185,92,73,63 pkat. 10(-6)cells, respectively). ADA activity was significantly different between lymphocytes of control group and T-ALL(p<0.01), between T-ALL and T-NHL(p<0.05), between T-NHL and B-NHL(p<0.05) and between T-ALL and B-NHL(p<0.05). PNP activities were lower to those in normal cells. ADA/PNP ratio increased mostly in T-ALL, less in T-NHL, pre-B-ALL and B-ALL (10.8 and 5.3 and 2.2, and 2.0 respectively). ADA/PNP ratio was significantly different between T-ALL and pre-B-ALL(p<0.05) and between T-ALL and B-NHL(p<0.05).
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PMID:A comparison of some leucocyte differentiation markers and the adenosine deaminase and purine nucleoside phosphorylase values in B and T cell leukemias and lymphomas. 859 72

Sialoadhesin (SER) is a newly described macrophage-restricted adhesion molecule with a sequence similarity to CD22 on B cells and to myelin-associated glycoprotein on Schwann cells. We describe here a functional role of SER+ spleen macrophages in antigen processing and presentation to T lymphocytes. In two syngeneic murine tumour systems (ESb-MP and lacZ transduced ESbL T-lymphoma cells), the activation state of SER+ macrophages (tested by activity of marker enzymes adenosine deaminase and 5'-nucleotidase) correlated with the arrest of lymphoma metastasis. Furthermore, this macrophage subpopulation became activated upon anti-tumour immunization as well as upon adoptive transfer of immune T lymphocytes into tumour-bearing hosts. We suggest that in situ-activated SER+ macrophages contribute to host resistance against metastasis.
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PMID:A role for sialoadhesin-positive tissue macrophages in host resistance to lymphoma metastasis in vivo. 869 95

In order to evaluate the role of the determination of adenosine deaminase activity (ADA) in ascitic fluid for the diagnosis of tuberculosis, 44 patients were studied. Based on biochemical, cytological, histopathological and microbiological tests, the patients were divided into 5 groups: G1-tuberculous ascites (n = 8); G2-malignant ascites (n = 13); G3-spontaneous bacterial peritonitis (n = 6); G4-pancreatic ascites (n = 2); G5-miscelaneous ascites (n = 15). ADA concentration were significantly higher in G1 (133.50 +/- 24.74 U/l) compared to the other groups (G2 = 41.85 +/- 52.07 U/l; G3 = 10.63 +/- 5.87 U/l; G4 = 18.00 +/- 7.07 U/l; G5 = 11.23 +/- 7.66 U/l). At a cut-off value of > 31 U/l, the sensitivity, specificity and positive and negative predictive values were 100%, 92%, 72% and 100%, respectively. ADA concentrations as high as in tuberculous ascites were only found in two malignant ascites caused by lymphoma. We conclude that ADA determination in ascitic fluid is a useful and reliable screening test for diagnosing tuberculous ascites. Values of ADA higher than 31 U/l indicate more invasive methods to confirm the diagnosis of tuberculosis.
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PMID:The value of adenosine deaminase (ADA) determination in the diagnosis of tuberculous ascites. 872 56

The adenosine deaminase (ADA) inhibitor 2'-deoxycoformycin (dCF) significantly inhibits the proliferation of leukemia and lymphoma cell lines. When cells were incubated in the presence of both dCF and 2'-deoxyadenosine (dAd), the concentration of dCF required to induce apoptosis of monocytoid leukemia cells was much lower than that required for myeloid, erythroid, or lymphoma cell lines. Among the cell lines tested, U937 cells were the most sensitive to this treatment. The concentration of dCF that effectively inhibited the proliferation of U937 cells was 1/1,000 of that required for lymphoma cell lines, on a molar basis. However, the uptake of dCF or dAd in U937 cells was comparable with that in other leukemia and lymphoma cell lines. The intracellular accumulation of dATP in U937 cells was only slightly higher than that in other leukemia cells in dCF-treated culture. Treatment with dCF plus dAd induced apoptosis in U937 cells at low concentrations, and this apoptosis was reduced by treatment with caspase inhibitors. Induction of caspase-3 (CPP32) activity accompanied the apoptosis induced by dCF plus dAd. No activation of CPP32 was observed in cytosol prepared from exponentially growing leukemia and lymphoma cells. However, dATP effectively induced CPP32 activation in cytosol from monocytoid cells, but not in that from nonmonocytoid cells, suggesting that dATP-dependent CPP32 activation is at least partly involved in the preferential induction of apoptosis in monocytoid leukemia cells. The combination of dCF and dAd may be useful for the clinical treatment of acute monocytic leukemia.
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PMID:Human monocytoid leukemia cells are highly sensitive to apoptosis induced by 2'-deoxycoformycin and 2'-deoxyadenosine: association with dATP-dependent activation of caspase-3. 978 75

Several adenosine analogs induce the functional and morphological differentiation of myelomonocytic leukemia cells. They can be classified into two types; i.e., those that do/do not require phosphorylation to induce the differentiation of leukemia cells. Neplanocin A, a potent S-adenosylhomocysteine hydrolase inhibitor, induces the differentiation of some leukemia cells without phosphorylation. On the other hand, deoxycoformycin (dCF), a potent adenosine deaminase inhibitor, also induces the myelomonocytic differentiation of leukemia cells when it is treated with deoxyadenosine (dAdo). This differentiation is inhibited by 5'-amino-deoxyadenosine, an inhibitor of (deoxy)adenosine kinase, suggesting that kinase-dependent phosphorylation is involved in the differentiation-inducing effect of dCF plus dAdo. Retinoids induce the differentiation of NB4 cells, a cell line derived from human promyelocytic leukemia. When used in combination with all-trans retinoic acid (ATRA), both NPA and dCF plus dAdo greatly enhance the granulocytic differentiation of NB4 cells. This enhancing effect is greatest when the cells are pretreated with NPA and then with ATRA. On the other hand, pre-exposure of NB4 cells to ATRA greatly potentiates the differentiation induced by dCF plus dAdo, while pretreatment with dCF plus dAdo before exposure to ATRA is less effective. The ATRA-induced differentiation of NB4 cells is effectively augmented by clinically applicable concentrations of these analogs. A clinical strategy that combines intermittent treatment with these analogs and a low dose of ATRA may increase the clinical response and decrease the adverse effects of ATRA.
Leuk Lymphoma 1999 Jul
PMID:Adenosine analogs as possible differentiation-inducing agents against acute myeloid leukemia. 1043 63

Cladribine (2-chlorodeoxyadenosine, 2-CdA) is a nucleoside analog with substituted halogen atom at position 2 in its purine ring that makes it resistant to deamination by adenosine deaminase (ADA). 2-CdA is the drug of choice in the treatment of hairy cell leukemia, but it is also highly active in other low grade lymphoid malignancies including chronic lymphocytic leukemia (CLL). The results of the studies presented so far have shown that 2-CdA gives similar complete response (CR) rate and overall response (OR) rate to fludarabine but the influence of both agents on survival times of the patients with CLL is still uncertain. CR rate induced with 2-CdA is significantly higher than in the patients treated with conventional chemotherapy. In refractory or relapsed patients 2-CdA induces 31 to 68% of overall responses including CR in 4 to 31%. In previously untreated patients overall remission rates of about 56-82% have been achieved with 2-CdA alone. When 2-CdA was used as primary therapy the CR rate was also significantly higher and ranged from 10% to 47%. Patients who received 2-CdA as their initial therapy and experienced a response lasting at least a year may be successfully treated subsequently with the same agent. A second response has been achieved in 35 to 100% patients treated with this agent for the second time. Despite the fact that 2-CdA gives higher CR and OR rates than conventional chemotherapy, it has not been established whether it has any influence on survival time. However, cross resistance between 2-CdA and FAMP in CLL patients is evident in the majority of studies. Bone marrow suppression with anemia neutropenia and thrombocytopenia are the dose limiting factors for 2-CdA use. These side effects are pronounced in heavily pretreated patients and after multiple courses of therapy. Treatment with this agent also leads to the decrease of the CD4+/CD8+ ratio for an extensive period of time exceeding 12, even up to 24 months. In consequence, infections including opportunistic type, are frequently observed. We suggest, that in patients with CLL, 2-CdA should be used as second line treatment rather than the first line therapy until the final results of ongoing randomized clinical trials are available.
Leuk Lymphoma 2001 Feb
PMID:Cladribine in the treatment of chronic lymphocytic leukemia. 1142 28

The adenosine deaminase inhibitor 2'-deoxycoformycin (dCF) significantly inhibits the proliferation of leukemia and lymphoma cells in the presence of either 2'-deoxyadenosine (dAdo) or its analog adenine arabinoside (araA). The concentration of dCF required to induce apoptosis of monocytoid leukemia cells is much lower than that required for myeloid, erythroid, or lymphoma cells. dATP effectively induces caspase-3 activation in cytosol from monocytoid cells, but not in that from non-monocytoid cells, suggesting that dATP-dependent caspase-3 activation is involved in the preferential induction of apoptosis in monocytoid leukemia cells. Athymic nude mice inoculated with human monocytoid leukemia U937 cells show significantly prolonged survival following combined treatment with dCF and araA. The clinical usefulness of the combination of adenosine deaminase inhibitor and dAdo analog is discussed.
Leuk Lymphoma
PMID:A novel therapeutic strategy against monocytic leukemia with deoxyadenosine analogs and adenosine deaminase inhibitors. 1169 50

A 47-year-old woman was admitted for examination of massive right pleural effusion on chest radiography, together with chief complaints of dry cough and body weight loss. Exudative effusion was aspirated by thoracentesis, revealing many lymphocytes and a high level of adenosine deaminase. Thoracoscopy with local anesthesia was performed. Elevated white lesions and miliary nodules were observed, and these lesions were examined by thoracoscopic biopsy, leading to a diagnosis of malignant lymphoma. Treatment with chemotherapy (THP-COP) resulted in partial remission. Thoracoscopy with local anesthesia in cases of pleural effusion with malignant lymphoma can be a safe and useful procedure for diagnosis.
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PMID:[A case of pleural effusion in a patient with malignant lymphoma diagnosed by thoracoscopy with local anesthesia]. 1172 86

Pentostatin (2prime prime or minute-deoxycoformycin, dCF) is a product of the fermentation of Streptomyces antibioticus. It is a tight-binding inhibitor of adenosine deaminase (ADA), an enzyme essential in cellular metabolism of purines. Children with congenital absence of ADA suffer from atrophy of lymphoid tissues and severe combined immune deficiency (SCID) syndrome. It was speculated that pentostatin would be lymphocytotoxic, and this proved to be the case, promoting its investigation in lymphoid neoplasms. It was anticipated that pentostatin would be most active in neoplasms with high intracellular concentrations of ADA---e.g., acute lymphocytic leukemia (ALL), particularly its T cell variety. Although pentostatin proved to be active in ALL, large doses were required and toxic effects outweighted therapeutic benefits. By contrast, pentostatin proved to be exceptionally active in hairy cell leukemia (HCL), a B cell neoplasm with low intracellular concentrations of ADA. Pentostatin has since been shown to possess activity in chronic lymphocytic leukemia, prolymphocytic leukemia, cutaneous T cell lymphomas, adult T cell lymphoma-leukemia, and low-grade non-Hodgkin's lymphomas. It potentiates the activity of vidarabine against viruses and against the cells of acute myeloid leukemia. Pentostatin is inactive in melanoma and renal carcinoma, but has not been adequately evaluated in other solid tumors. The toxic effects of pentostatin include renal failure, central nervous system (CNS) depression, immunosuppression, keratoconjunctivitis, and opportunistic infections. In the absence of pre-existing bone marrow compromise, pentostatin produces only mild myelosuppression. Aside from its use as an antineoplastic agent, pentostatin has potential applications as an immunosuppresive drug, as an antiviral agent, as an antimalarial compound, and in the protection of cells of the CNS from damage induced by ischemia and anoxia.
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PMID:Pentostatin (2prime prime or minute-Deoxycoformycin): Clinical Pharmacology, Role In Cancer Chemotherapy, and Future Prospects. 1184 52


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