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Enzyme
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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)
Studies in three patients with severe combined immunodeficiency disease (SCID) and normal
adenosine deaminase
demonstrated that the combined defect of both T- and B-lymphocyte function may reflect the lack of normal maturation of thymic epithelial cells. This results in the failure of initiation of T-cell differentiation and consequent failure of T-cell dependent maturation of B-lymphocytes to an antibody-secreting stage. SCID B lymphocytes were shown to be capable of generating a specific IgM-antibody response to two T-cell-dependent antigens in vitro under either of the following conditions: (a) provision of autologous T-helper cells which were induced following incubation of precursor cells on monolayers of cultured human thymic epithelium or (b) in the presence of allogeneic T-helper cells. Specific IgM anti-ovalbumin (OA) responses were also generated in the absence of provided T-helper cells when the antigen was insolubilized (Sepharose-OA). The antibody-secreting cells and their circulating precursors carried surface IgM,
HLA
and Ia-like determinants and proliferated in response to antigen. Identification of this form of SCID may be important when considering therapy and provides an excellent model for the study of the T-cell-dependent acquisition and expression of B-cell immunity.
...
PMID:Severe combined immunodeficiency disease: a model of T-cell dysfunction. 36 53
Accumulation of adenine deoxynucleotides (dATP and dADP) in the erythrocytes of a patient with
adenosine deaminase
(
ADA
) deficiency was confirmed. The patient, now 18 mo old, was treated with a bone marrow transplantation from his
HLA
identical sister at 7 mo of age. Before and after the transplant, his erythrocyte and lymphocyte
ADA
activities, as well as his erythrocyte nucleotide profiles, were measured. 10 wk after the marrow transplant, no
ADA
activity could be detected in his erythrocytes, whereas there was a mixture of donor and patient lymphocytes as measured by
ADA
assays and karyotyping. At the same time, both dATP and dADP had disappeared from his erythrocytes, which were entirely of patient origin. These findings indicate that partial engraftment of donor lymphocytes into an
ADA
-deficient patient is capable of "correcting" alterations of deoxynucleotide concentrations in the patient's
ADA
-deficient erythrocytes.
...
PMID:Adenosine deaminase deficiency: disappearance of adenine deoxynucleotides from a patient's erythrocytes after successful marrow transplantation. 37 36
The distribution of the genetic markers of leukocytes (
HLA
I and II), serum proteins (allotypes Gm, transferrin, haptoglobin, group-specific component), red cell enzymes (acid phosphatase--AP, phosphoglucomutase--PGM, esterase D,
adenosine deaminase
) was found to be universal in patients suffering from various pyoinflammatory diseases. The incidence of
HLA
A10, Cw4, DR5 antigens, IgG allotype G1m (2) and phenotype G1m (+1+2) and AP (aa) and PGM (2-2) phenotypes was found increased in patients with maxillofacial suppuration and pyoinflammatory complications of maxillofacial injuries as against normal subjects and patients with maxillofacial injuries without such complications. Traumatic osteomyelitis much more often develops in the carriers of the before genetic markers than in those in whom these markers are absent (61.6 and 20.4%, respectively).
...
PMID:[The role of the genotype in the development of suppurative inflammatory complications in trauma to the facial bones]. 141 41
Severe combined immunodeficiencies (SCID) represent an heterogeneous group of diseases characterized by a profound defect in either T cell differentiation or function. The molecular nature of the defect has so far been defined for a small number of SCID, i.e. purin metabolism enzyme deficiencies. Progress has however been made in either gene localization (i.e. X-linked SCID--characterized by an isolated blockade of T-cell differentiation) or in determining mechanisms underlying SCID (i.e. abnormal T cell receptor and immunoglobulin gene rearrangements in alymphocytosis, defective signal transduction in some atypical SCID with non functional T cells or membrane abnormalities such as low expression of the T cell receptor/CD3 complex or defective expression of MHC Class II molecules). Significant improvement in the therapy of SCIDs has been made in the last 10 years leading to cure of at least 3/4 patients with SCID by either
HLA
identical or non identical bone marrow transplantation. Alternative therapy has been proposed for
adenosine deaminase
(
ADA
) deficiency enzyme substitution by polyethylene glycol-
ADA
. The prospect of gene therapy for this disease and potentially for other types SCIDs is forthcoming.
...
PMID:Severe combined immunodeficiencies. 155
T cell-depleted haploidentical (parental) bone marrow stem cell transplants are given to most infants with the syndrome of severe combined immunodeficiency (SCID) because they have no available
HLA
-identical sibling potential donors. Since they usually do not undergo cytoreduction prior to transplantation, these children later demonstrate mixed hematopoietic chimerism. Most often, T cells (but usually not B lymphocytes, macrophages, or other hematopoietic cells) can be shown to be of donor type. The origin of natural killer (NK) cells in such chimeras has not been reported. Two lymphocyte lines derived from the CD16+ fraction of an
adenosine deaminase
(
ADA
)-deficient male SCID's blood mononuclear cells (MNC) 13 months following maternal marrow stem cell transplantation demonstrated typical phenotypic and functional characteristics of NK cells after expansion. Karyotyping showed both lines to be XX. Thus, NK cell engraftment can occur in SCID infants who have not been conditioned, even when significant NK cell function is present before transplantation.
...
PMID:Donor type natural killer cells after haploidentical T cell-depleted bone marrow stem cell transplantation in a patient with adenosine deaminase-deficient severe combined immunodeficiency. 171 89
T lymphocytes cultured from a patient (T.D.) with
adenosine deaminase
(
ADA
) deficiency expressed
ADA
activity in the normal range, inconsistent with her severe immunodeficiency, metabolic abnormalities, and with the absence of
ADA
activity in her B lymphocytes and other nucleated hematopoietic cells.
ADA
from T.D. T cells had normal Km, heat stability, and sensitivity to
ADA
inhibitors. Examination of
HLA
phenotype and polymorphic DNA loci indicated that T.D. was neither chimeric nor a genetic mosaic. Amplified and subcloned
ADA
cDNA from ADA+ T.D. T cells was shown by allele-specific oligonucleotide hybridization to possess the same mutations (Arg101----Trp, Arg211----His) previously found in the
ADA
-T.D. B cell line GM 2606 (Akeson, A. L., D. A. Wiginton, M. R. Dusing, J. C. States, and J. J. Hutton. 1988. J. Biol. Chem. 263:16291-16296). Our findings suggest that one of these mutant alleles can be expressed selectively in IL-2-dependent T cells as stable, active enzyme. Cultured T cells from other patients with the Arg211----His mutation did not express significant
ADA
activity, while some B cell lines from a patient with an Arg101----Gln mutation have been found to express normal
ADA
activity. We speculate that Arg101 may be at a site that determines degradation of
ADA
by a protease that is under negative control by IL-2 in T cells, and is variably expressed in B cells. Il-2 might increase
ADA
expression in T cells of patients who possess mutations of Arg101.
...
PMID:Paradoxical expression of adenosine deaminase in T cells cultured from a patient with adenosine deaminase deficiency and combine immunodeficiency. 197 54
Severe combined immunodeficiency (SCID) due to deficiency of the purine metabolic enzyme
adenosine deaminase
(
ADA
) is a fatal childhood immunodeficiency disease. Immune reconstitution by transplantation with
HLA
-identical bone marrow is the treatment of choice. For patients not candidates for bone marrow transplantation, we propose to attempt immune reconstitution by using infusions of autologous T lymphocytes expanded in tissue culture and genetically corrected by insertion of a normal
ADA
gene using retroviral-mediated gene transfer. The vector is LASN, in which the human
ADA
gene is promoted by the LTR while the NeoR gene is driven by the SV40 early gene promoter. The packaging line is PA317. The protocol is designed to have two parts. In Part 1, autologous gene-corrected T lymphocytes would be infused repeatedly in low numbers in order to build an immune repertoire of T cells and also to obtain information as to how long gene corrected T cells survive in vivo. In Part 2A, the gene-corrected T cells would be selected in G418 and/or 2'deoxyadenosine and reinfused into the patient at monthly intervals for approximately 6 months. The goals would be essentially the same as in Part 1. In Part 2B, the number of gene-corrected T cells would be escalated in half-log increments to the predicted therapeutic level (probably around 1 x 10(9)/kg). 1-3 x 10(9)/kg gene-corrected cells would be infused several times and the patients would be monitored in order to determine if significant clinical improvement has occurred.
...
PMID:The ADA human gene therapy clinical protocol. 208 Nov 98
Severe combined immunodeficiency disease (SCID) with
adenosine deaminase
(
ADA
) deficiency is a genetic autosomic recessive disorder with profound impairment of T-cell function, invariably complicated by fatal infections. The absence of
ADA
-enzyme and the accumulation of deoxy-ATP, with toxic effects on the T-lymphocytes is the common feature of this disease. As a consequence, lymphoid precursors failure to develop into mature T-cells, resulting in absolute lymphopenia and atrophy of the thymus. Bone marrow transplantation from an
HLA
-identical donor is considered the treatment of choice for this disease. We describe the case of a 1-month-old child with ADA deficiency SCID who underwent bone marrow transplantation (BMT) using paternal haploidentical, lectin-separated marrow, as a source of hemopoietic stem cells.
...
PMID:Successful lectin-separated bone marrow transplantation in adenosine deaminase deficiency-related severe immunodeficiency. 209 97
The courses of six patients with
adenosine deaminase
(
ADA
) and two with purine nucleoside phosphorylase (PNP) deficiencies were evaluated before and after therapy. The heterogeneity of immunologic and clinical parameters was striking in each enzyme deficiency. In both PNP and ADA deficiency, some patients had very low immunoglobulin levels, while others had normal levels. T-cell function was always low in patients with ADA deficiency. In the two patients with PNP deficiency, contrary to the classical descriptions of this disorder, T-cell function fluctuated with time. Five
ADA
-deficient patients were treated with irradiated normal red-cell transfusions as a form of enzyme replacement and showed no lasting benefit. Three of the
ADA
-deficient patients and one of the PNP-deficient patients were given transplants of haploidentical parental bone marrow stem cells without pretransplant immunosuppression. In the PNP-deficient patient, chimerism has not been documented on enzymatic testing. One
ADA
-deficient patient has demonstrated long-term engraftment with good B- and T-cell function. Haploidentical bone marrow transplantation is currently the preferred therapy for enzyme-deficient patients with absent T-cell function who do not have an
HLA
-identical donor, as it may result in a lasting reconstitution of immune function. In those patients with unsatisfactory responses to transplantation, however, specific enzyme replacement or gene therapy may be considered in the future.
...
PMID:Adenosine deaminase and purine nucleoside phosphorylase deficiencies: evaluation of therapeutic interventions in eight patients. 311 34
A 4-month-old male received a T-lymphocyte-depleted haploidentical bone marrow transplant (BMT) for correction of severe combined immunodeficiency (SCID) due to
adenosine deaminase
(
ADA
) deficiency. Although previous haploidentical bone marrow transplants have been attempted in
ADA
-deficient SCID, complete reconstitution of both B-lymphocyte and T-lymphocyte function has not been obtained after a single transplant. In this patient, however, rapid, complete, and persistent engraftment occurred. Potential reasons for this successful reconstitution include the use of ablation by chemotherapy (busulfan, cyclophosphamide, and cytosine arabinoside), the in vitro technique of using monoclonal antibody (CT-2) and complement to deplete the donor cells of T lymphocytes, and the relative good health of the patient prior to the transplant. Further trials using this method of haploidentical BMT may prove it to be a successful method of immunologic reconstitution in
ADA
-deficient SCID patients for whom an
HLA
-identical marrow is not available.
...
PMID:Reconstitution of T- and B-cell function after T-lymphocyte-depleted haploidentical bone marrow transplantation in severe combined immunodeficiency due to adenosine deaminase deficiency. 330 40
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