The activation-induced deaminase functions in a postcleavage step of the somatic hypermutation process.
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Activation of B cells by antigen fuels two distinct molecular modifications of immunoglobulin (Ig) genes. Class-switch recombination (CSR) replaces the Ig(mu) heavy chain constant region with a downstream constant region gene, thereby altering the effector function of the resulting antibodies. Somatic hypermutation (SHM) introduces point mutations into the variable regions of Ig genes, thereby changing the affinity of antibody for antigen. Mechanistic overlap between the two reactions has been suggested by the finding that both require the activation-induced cytidine deaminase (AID). It has been proposed that AID initiates both CSR and SHM by activating a common nuclease. Here we provide evidence that cells lacking AID, or expressing a dominant negative form of the protein, are still able to incur DNA lesions in SHM target sequences. The results indicate that an intact cytidine deaminase motif is required for AID function, and that AID acts downstream of the initial DNA lesions in SHM. (+info)
AID-GFP chimeric protein increases hypermutation of Ig genes with no evidence of nuclear localization.
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Somatic hypermutation generates variants of antibody genes and underpins the affinity maturation of antibodies. It is restricted to the V-gene segments, and although it decays exponentially toward the 3'end, it includes recognizable hot spots. Although the detailed mechanism of hypermutation remains elusive, the process may take place in two separate stages, preferentially targeting G/Cs in the first and A/Ts in the second stage. It seems that MSH2 is involved in the second stage, and that activation induced deaminase (AID) is implicated in the control of hypermutation. The constitutively hypermutating cell line Ramos expresses AID, and we have prepared transfectants that express a chimeric AID-green fluorescent protein. The fluorescence is strongly detected in the cytoplasm but not in the nucleus. Yet, the chimeric protein increases the hypermutation rate either directly or, more likely, indirectly, by favoring the transport of AID into the nucleus. Thus, in Ramos, AID seems to be rate limiting. Unexpectedly, the proportion of deletions also is increased. The increase in mutation rate detected by a fast cytofluorimetric method based on the accumulation of sIgM-loss mutants correlates with the increase measured by mutations defined by sequence analysis. The higher mutation rate is largely explained by the higher proportion of mutated clones, indicating that AID controls the number of cells that undergo hypermutation but not the number of mutations that are incorporated in each mutation round. (+info)
Apobec-1 transcription in rat colon cancer: decreased apobec-1 protein production through alterations in polysome distribution and mRNA translation associated with upstream AUGs.
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Apobec-1 catalyzes C to U editing of apolipoprotein B (apoB) mRNA in the mammalian intestine. Rat apobec-1 is transcribed from three distinct promoters, which contain distinct 5' untranslated regions (5'UTRs) accompanied by variable numbers of in-frame upstream AUGs (uAUGs). We have observed a shift in apobec-1 promoter usage in an experimental model of colon carcinogenesis, resulting in transcripts loaded with 5'AUGs. In colon cancer, apobec-1 protein levels decreased by 90% in the cancer tissue as compared to normal tissue, suggesting an inhibitory effect of the 5'UTR on apobec-1 translation. We investigated the effects of these different 5'UTRs by site-directed mutagenesis coupled with in vitro translation studies. These studies established that the uAUGs within the 5'UTR of the alternative transcripts inhibit apobec-1 translation. This effect was independent of the length of the 5'UTR. Further analysis demonstrated that these uAUGs altered the polysome distribution, shifting the mRNA towards a denser, post-polyribosomal fraction. These findings were confirmed in transient transfection studies in vivo using HepG2 cells, where functional expression of apobec-1 was restored by mutagenesis of the uAUGs. Taken together, these data imply that rat apobec-1 gene expression is downregulated through alternative promoter usage. This dominant translational control of apobec-1 gene expression is most plausibly exerted through uAUGs. (+info)
Enzymatic conformational fluctuations along the reaction coordinate of cytidine deaminase.
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Analysis of the crystal structures for cytidine deaminase complexed with substrate analog 3-deazacytidine, transition-state analog zebularine 3,4-hydrate, and product uridine establishes significant changes in the magnitude of atomic-scale fluctuations along the (approximate) reaction coordinate of this enzyme. Differences in fluctuations between the substrate analog complex, transition-state analog complex, and product complex are monitored via changes in corresponding crystallographic temperature factors. Previously, we reported that active-site conformational disorder is substantially reduced in the transition-state complex relative to the two ground-state complexes. Here, this result is statistically corroborated by crystallographic data for fluorinated zebularine 3,4-hydrate, a second transition-state analog, and by multiple regression analysis. Multiple regression explains 70% of the total temperature factor variation through a predictive model for the average B-value of an amino acid as a function of the catalytic state of the enzyme (substrate, transition state, product) and five other physical and structural descriptors. Furthermore, correlations of atomic fluctuation magnitudes throughout the body of each complex are quantified through an auto-correlation function. The transition-state analog complex shows the greatest correlations between temperature factor magnitudes for spatially separated atoms, underscoring the strong ability of this reaction-coordinate species to "organize" enzymatic fluctuations. The catalytic significance for decreased atomic-scale motions in the transition state is discussed. A thermodynamic argument indicates that the significant decreases in local enzymatic conformational entropy at the transition state result in enhanced energetic stabilization there. (+info)
AID enzyme-induced hypermutation in an actively transcribed gene in fibroblasts.
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Activation-induced cytidine deaminase (AID), a putative RNA-editing enzyme, is indispensable for somatic hypermutation (SHM), class switch recombination, and gene conversion of immunoglobulin genes, which indicates a common molecular mechanism for these phenomena. Here we show that ectopic expression of AID alone can induce hypermutation in an artificial GFP substrate in NIH 3T3 murine fibroblast cells. The frequency of mutations was closely correlated with the level of transcription of the target gene, and the distribution of mutations in NIH 3T3 cells was similar to those of SHM in B lymphocytes. These results indicate that AID is sufficient for the generation of SHM in an actively transcribed gene in fibroblasts, as well as B cells, and that any of the required cofactors must be present in these fibroblasts. (+info)
Normal production rate of apolipoprotein B in LDL receptor-deficient mice.
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The low density lipoprotein (LDL) receptor is well known for its role in mediating the removal of apolipoprotein B (apoB)-containing lipoproteins from plasma. Results from in vitro studies in primary mouse hepatocytes suggest that the LDL receptor may also have a role in the regulation of very low density lipoprotein (VLDL) production. We conducted in vivo experiments using LDLR-/-, LDLR+/-, and wild-type mice (LDLR indicates LDL receptor gene) in which the production rate of VLDL was measured after the injection of [35S]methionine and the lipase inhibitor Triton WR1339. Despite the fact that LDLR-/- mice had a 3.7-fold higher total cholesterol level and a 2.1-fold higher triglyceride level than those of the wild-type mice, there was no difference in the production rate of VLDL triglyceride or VLDL apoB between these groups of animals. Experiments were also conducted in apobec1-/- mice, which make only apoB-100, the form of apoB that binds to the LDL receptor. Interestingly, the apobec1-/- mice had a significantly higher production rate of apoB than did the wild-type mice. However, despite significant differences in total cholesterol and triglyceride levels, there was no difference in the production rate of total or VLDL triglyceride or VLDL apoB between LDLR-/- and LDLR+/- mice on an apobec1-/- background. These results indicate that the LDL receptor has no effect on the production rate of VLDL triglyceride or apoB in vivo in mice. (+info)
Biochemical and molecular characterization of two cytidine deaminases in the nematode Caenorhabditis elegans.
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Two cytidine deaminases (CDDs) from the free-living nematode Caenorhabditis elegans have been cloned and characterized. Both Ce-CDD-1 and Ce-CDD-2 are authentic deaminases and both exhibit RNA-binding activity towards AU-rich templates. In order to study their temporal and spatial expression patterns in the worm, reporter gene constructs were made using approx. 2 kb of upstream sequence. Transfection of C. elegans revealed that both genes localized to the cells of the intestine, although their temporal expression patterns were different. Expression of Ce-cdd-1 peaked in the early larval stages, whereas Ce-cdd-2 was expressed in all life cycle stages examined. RNA-interference (RNAi) assays were performed for both genes, either alone or in combination, but only cdd-2 RNAi produced a consistent visible phenotype. A proportion of eggs laid from these worms were swollen and distorted in shape. (+info)
Internal IgH class switch region deletions are position-independent and enhanced by AID expression.
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Ig heavy chain class switch recombination (CSR) involves a recombination/deletion mechanism that exchanges the expressed C(H) gene with a downstream C(H) gene. CSR is mediated by highly repetitive switch (S) region sequences and requires the activation-induced deaminase (AID). The S region 5' of the C mu gene (S mu) can undergo high-frequency internal deletions in normal B cells and B cell lines activated for CSR, although the relationship of these deletions and CSR has not been elucidated. In this study, we introduced constitutively transcribed S mu or S gamma 2b regions into a pro-B cell line that can be activated for AID expression, CSR, and endogenous S mu deletions. We find that randomly integrated S region transcription units in these cells also undergo increased levels of internal rearrangements after cellular activation, indicating that the deletion process is independent of location within the Ig heavy chain locus and potentially AID-promoted. To test the latter issue, we generated hybridomas from wild-type and AID-deficient activated B cells and assayed them for internal S mu deletions and S region mutations. These studies demonstrated that efficient intra-S region recombination depends on AID expression and that internal S region deletions are accompanied by frequent mutations, indicating that most S region deletions occur by the same mechanism as CSR. (+info)