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)

To investigate the extent to which in vivo mutation spectra might reflect the intrinsic specificities of active mutators, genetic and biochemical assays were used to analyse the DNA target specificities of cytidine deaminases of the APOBEC family. The results reveal the critical importance of nucleotides immediately 5' of the targeted C for the specificity of all three enzymes studied (AID, APOBEC1 and APOBEC3G). At position -1, APOBEC1 showed a marked preference for dT, AID for dA/dG and APOBEC3G a strong preference for dC. Furthermore, AID and APOBEC3G showed distinct dependence on the nucleotide at position -2 with dA/dT being favoured by AID and dC by APOBEC3G. Most if not all activity of the recombinant deaminases on free dC could be attributed to low-level contamination by host enzymes. The target preference of APOBEC3G supports it being a major but possibly not sole contributor to HIV hypermutation without making it a dominant contribution to general HIV sequence variation. The specificity of AID as deduced from the genetic assay (which relies on inactivation of sacB of Bacillus subtilis) agrees well with that deduced by Pham et al. using an in vitro assay although we postulate that major intrinsic mutational hotspots in immunoglobulin V genes in vivo might reflect favoured sites of AID action being generated by proximal DNA targets located on opposite DNA strands. The target specificity of AID also accords with the spectrum of mutations observed in B lymphoma-associated oncogenes. The possibility of deaminase involvement in non-lymphoid human tumours is hinted at by tissue-specific differences in the spectra of dC transitions in tumour-suppressor genes. Thus, the patterns of hypermutation in antibodies and retroviruses owe much to the intrinsic sequence preferences of the AID/APOBEC family of DNA deaminases: analogous biases might also contribute to the spectra of cancer-associated mutation.
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PMID:Comparison of the differential context-dependence of DNA deamination by APOBEC enzymes: correlation with mutation spectra in vivo. 1501 79

In mice, activation induced deaminase, AID, is expressed only in germinal center B cells. It is required for the initiation of somatic hypermutation and class switch recombination. In chickens and most mammals immunoglobulin gene rearrangement generates limited diversity and the primary immunoglobulin repertoire depends on subsequent somatic hypermutation or gene conversion. Immunoglobulin gene conversion in chickens starts in the embryonic bursa, before antigen exposure. The demonstrated requirement for AID for gene conversion in the bursal lymphoma cell line, DT40, implies developmental regulation of AID expression. To test this prediction, we examined the timing and location of AID mRNA expression. An abrupt increase in AID mRNA coincided with the onset of extensive Ig gene conversion in the bursa. Expression was also detected at earlier stages, implying either that expression of AID is not the only controlling factor for gene conversion, or that gene conversion can precede the formation of bursal follicles.
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PMID:Developmentally programmed expression of AID in chicken B cells. 1578 95

Mutations in transcription factors constitute one means by which normal hematopoietic progenitors are converted to leukemic stem cells. Recently, acquired mutations in the megakaryocytic regulator GATA1 have been found in essentially all cases of acute megakaryoblastic leukemia (AMkL) in children with Down syndrome and in the closely related malignancy transient myeloproliferative disorder. In all cases, mutations in GATA1 lead to the expression of a shorter isoform of GATA-1, named GATA-1s. Because GATA-1s retains both DNA binding zinc fingers, but is missing the N-terminal transactivation domain, it has been predicted that the inability of GATA-1s to regulate its normal class of megakaryocytic target genes is the mechanism by which mutations in GATA1 contribute to the disease. Indeed, several recent reports have confirmed that GATA-1s fails to properly regulate the growth of megakaryocytic precursors, likely through aberrant transcriptional regulation. Although the specific target genes of GATA-1 mis-regulated by GATA-1s that drive this abnormal growth remain undefined, multiple candidate genes have been identified via gene array studies. Finally, the inability of GATA-1s to promote expression of important metabolic genes, such as cytadine deaminase, likely contributes to the remarkable hypersensitivity of AMkL blasts to cytosine arabinoside. Future studies to define the entire class of genes dysregulated by mutations in GATA1 will provide important insights into the etiology of these malignancies.
Leuk Lymphoma 2006 Jun
PMID:Transcription factor GATA-1 and Down syndrome leukemogenesis. 1684 Jan 87

Immunoglobulins (Igs) or antibodies (Abs) are the principal operators of the adaptive humoral immune response. For optimum functional activity they acquire an optimized structure for antigen (Ag) recognition, precipitation, agglutination, phagocytosis (IgG1/3 and IgA), cytotoxicity (IgG1/3), transport through mucosa (IgA and IgM) and placenta (IgG1/3), complement activation (IgG1/3 and IgM) and release of inflammatory mediators (IgE). A diversity with potentially up to 10(15) different Ab specificities is generated during Ag-independent B cell development in the bone marrow by combinatorial V-D-J joining, creation of junctional diversity, and combinatorial association of L and H chains. Furthermore,Ab variety is created during Ag-dependent B cell maturation in peripheral lymphatic tissues by isotype class switching and somatic hypermutation. Two types of enzymes play a key role in Ab diverseness, i. e., the products of recombination-activating genes RAG1 and RAG2 and the affinity induced deaminase (AID). The prevailing adult-type B2 cells provide the basis for the acquired humoral immune response characterized by Ab production,Ag processing and presentation, immunological memory and tolerance along with the generation of the anti-idiotype network,whereas the fetal-type B1 cells may play a role in innate immunity and autoimmunity. Impairment of B cell immunity includes immunodeficiency (agammaglobulinemia), malignant transformation (leukemia, lymphoma, plasmocytoma) and immune dysregulation (allergy, autoimmunity). The diagnostic relevance of Abs comprises classical serology (immunoprecipitation, agglutination, complement binding, RIA, ELISA), immunocytochemistry and immunohistochemistry, immunofluorescence (microscopic and flow cytometric), cytotoxicity tests, immunoblots, immunospot assays and immunoabsorption (affinity chromatography). Therapeutic application of Abs (passive immunization) is directed against infections, intoxications, solid tumors, leukemias and lymphomas, graft rejection and graft-versus-host reaction, hemolytic anemia, and autoimmune diseases. The generation of genetically engineered monoclonal Abs (mAbs) has revolutionized the diagnostic and therapeutic potential of Abs in almost all disciplines of modern medicine.
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PMID:Immunoglobulins--basic considerations. 1699 62

APOBEC3 proteins catalyze deamination of cytidines in single-stranded DNA (ssDNA), providing innate protection against retroviral replication by inducing deleterious dC > dU hypermutation of replication intermediates. APOBEC3G expression is induced in mitogen-activated lymphocytes; however, no physiologic role related to lymphoid cell proliferation has yet to be determined. Moreover, whether APOBEC3G cytidine deaminase activity transcends to processing cellular genomic DNA is unknown. Here we show that lymphoma cells expressing high APOBEC3G levels display efficient repair of genomic DNA double-strand breaks (DSBs) induced by ionizing radiation and enhanced survival of irradiated cells. APOBEC3G transiently accumulated in the nucleus in response to ionizing radiation and was recruited to DSB repair foci. Consistent with a direct role in DSB repair, inhibition of APOBEC3G expression or deaminase activity resulted in deficient DSB repair, whereas reconstitution of APOBEC3G expression in leukemia cells enhanced DSB repair. APOBEC3G activity involved processing of DNA flanking a DSB in an integrated reporter cassette. Atomic force microscopy indicated that APOBEC3G multimers associate with ssDNA termini, triggering multimer disassembly to multiple catalytic units. These results identify APOBEC3G as a prosurvival factor in lymphoma cells, marking APOBEC3G as a potential target for sensitizing lymphoma to radiation therapy.
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PMID:APOBEC3G enhances lymphoma cell radioresistance by promoting cytidine deaminase-dependent DNA repair. 2264 79

Activation induced deaminase (AID) plays a central role in adaptive immunity by initiating the processes of somatic hypermutation (SHM) and class switch recombination (CSR). On the other hand, AID also predisposes to lymphoma and plays a role in some autoimmune diseases, for which reasons AID expression and activity are regulated at various levels. Post-translational mechanisms regulating the amount and subcellular localization of AID are prominent in balancing AID physiological and pathological functions in B cells. Mechanisms regulating AID protein levels include stabilizing chaperones in the cytoplasm and proteins efficiently targeting AID to the proteasome within the nucleus. Nuclear export and cytoplasmic retention contribute to limit the amount of AID accessing the genome. Additionally, a number of factors have been implicated in AID active nuclear import. We review these intertwined mechanisms proposing two scenarios in which they could interact as a network or as a cycle for defining the optimal amount of AID protein. We also comparatively review the expression levels of AID necessary for its function during the immune response, present in different cancers as well as in those tissues in which AID has been implicated in epigenetic remodeling of the genome by demethylating DNA.
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PMID:Activation induced deaminase: how much and where? 2268 98

The DNA deaminase activation-induced cytidine deaminase (AID) initiates somatic hypermutation (SHM) and class switch recombination (CSR) by deaminating cytidines to uridines at V region (V) genes and switch (S) regions. The mechanism by which AID is recruited to V genes and S region DNA is poorly understood. In this study, we used the CH12 B lymphoma line to demonstrate that, although S regions can efficiently recruit AID and undergo mutations and deletions, AID neither binds to nor mutates the V gene, thus clearly demonstrating intraimmunoglobulin locus specificity. Depletion of the RNA-binding protein polypyrimidine tract binding protein-2, previously shown to promote recruitment of AID to S regions, enables stable association of AID with the V gene. Surprisingly, AID binding to the V gene does not induce SHM. These results unmask a striking lack of correlation between AID binding and its mutator activity, providing evidence for the presence of factors required downstream of AID binding to effect SHM. Furthermore, our findings suggest that S regions are preferred targets for AID and, aided by polypyrimidine tract binding protein-2, act as "sinks" to sequester AID activity from other genomic regions.
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PMID:Binding of AID to DNA does not correlate with mutator activity. 2487 90


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