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Query: EC:3.5.4.1 (
cytosine deaminase
)
747
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Class switch recombination (CSR) at the DNA level underlies ability of B lymphocytes to switch from expressing IgM to expressing IgG, IgA, or
IgE
. The mechanism of CSR is largely unknown, but it is clear that CSR is stimulated by T cell signals and is mediated in part by activation-induced deaminase (AID), an enzyme that is also required for somatic hypermutation of Ig genes. In one current model, AID is proposed to initiate CSR by deaminating cytosines in the unpaired nontemplate strand of DNA displaced from its complementary strand by the "sterile" RNA transcript across the switch region. We have used LM-PCR to analyze single-strand breaks in CH12F3-2, a murine cell line that switches in vitro to IgA expression. In contrast to the above model, we have detected CSR-associated ssDNA breaks in the template strand of the H chain alpha switch region, the strand thought to be complexed with RNA. Most breaks are adjacent to cytosines, consistent with mediation by AID, and occur within the novel consensus sequence C*AG, which occurs much more frequently on the template strand than on the putatively displaced nontemplate strand. These results suggest that AID may target the DNA strand bound to RNA, perhaps resembling APOBEC-3G, a
cytosine deaminase
related to AID that inhibits HIV replication by mutating viral DNA. Furthermore, the absence of detectable breaks in the nontemplate strand within the DNA segment under study suggests that the two DNA strands are handled differently in the generation or processing of strand breaks.
...
PMID:Single-stranded DNA breaks adjacent to cytosines occur during Ig gene class switch recombination. 1532 84
Uracil is present in small amounts in DNA due to spontaneous deamination of cytosine and incorporation of dUMP during replication. While deamination generates mutagenic U:G mismatches, incorporated dUMP results in U:A pairs that are not directly mutagenic, but may be cytotoxic. In most cells, mutations resulting from uracil in DNA are prevented by error-free base excision repair. However, in B-cells uracil in DNA is also a physiological intermediate in acquired immunity. Here, activation-induced
cytosine deaminase
(AID) introduces template uracils that give GC to AT transition mutations in the Ig locus after replication. When uracil-DNA glycosylase (UNG2) removes uracil, error-prone translesion synthesis over the abasic site causes other mutations in the Ig locus. Together, these processes are central to somatic hypermutation (SHM) that increases immunoglobulin diversity. AID and UNG2 are also essential for generation of strand breaks that initiate class switch recombination (CSR). Patients lacking UNG2 display a hyper-IgM syndrome with recurrent infections, increased IgM, strongly decreased IgG, IgA and
IgE
and skewed SHM. UNG2 is also involved in innate immune response against retroviral infections. Ung(-/-) mice have a similar phenotype and develop B-cell lymphomas late in life. However, there is no evidence indicating that UNG deficiency causes lymphomas in humans.
...
PMID:Genomic uracil and human disease. 1686 Mar 15
Deamination of cytosine in DNA results in mutagenic U:G mispairs, whereas incorporation of dUMP leads to U:A pairs that may be genotoxic directly or indirectly. In both cases, uracil is mainly removed by a uracil-DNA glycosylase (UDG) that initiates the base excision repair pathway. The major UDGs are mitochondrial UNG1 and nuclear UNG2 encoded by the UNG-gene, and nuclear SMUG1. TDG and MBD4 remove uracil from special sequence contexts, but their roles remain poorly understood. UNG2 is cell cycle regulated and has a major role in post-replicative removal of incorporated uracils. UNG2 and SMUG1 are both important for prevention of mutations caused by cytosine deamination, and their functions are non-redundant. In addition, SMUG1 has a major role in removal of hydroxymethyl uracil from oxidized thymines. Furthermore, UNG-proteins and SMUG1 may have important functions in removal of oxidized cytosines, e.g. isodialuric acid, alloxan and 5-hydroxyuracil after exposure to ionizing radiation. UNG2 is also essential in the acquired immune response, including somatic hypermutation (SHM) required for antibody affinity maturation and class switch recombination (CSR) mediating new effector functions, e.g. from IgM to IgG. Upon antigen exposure B-lymphocytes express activation induced
cytosine deaminase
that generates U:G mispairs at the Ig locus. These result in GC to AT transition mutations upon DNA replication and apparently other mutations as well. Some of these may result from the generation of abasic sites and translesion bypass synthesis across such sites. SMUG1 can not complement UNG2 deficiency, probably because it works very inefficiently on single-stranded DNA and is down-regulated in B cells. In humans, UNG-deficiency results in the hyper IgM syndrome characterized by recurrent infections, lymphoid hyperplasia, extremely low IgG, IgA and
IgE
and elevated IgM. Ung(-/-) mice have a similar phenotype, but in addition display dysregulated cytokine production and develop B cell lymphomas late in life.
...
PMID:Uracil in DNA--general mutagen, but normal intermediate in acquired immunity. 1711 29
Uracil is usually an inappropriate base in DNA, but it is also a normal intermediate during somatic hypermutation (SHM) and class switch recombination (CSR) in adaptive immunity. In addition, uracil is introduced into retroviral DNA by the host as part of a defence mechanism. The sources of uracil in DNA are spontaneous or enzymatic deamination of cytosine (U:G mispairs) and incorporation of dUTP (U:A pairs). Uracil in DNA is removed by a uracil-DNA glycosylase. The major ones are nuclear UNG2 and mitochondrial UNG1 encoded by the UNG-gene, and SMUG1 that also removes oxidized pyrimidines, e.g. 5-hydroxymethyluracil. The other ones are TDG that removes U and T from mismatches, and MBD4 that removes U from CpG contexts. UNG2 is found in replication foci during the S-phase and has a distinct role in repair of U:A pairs, but it is also important in U:G repair, a function shared with SMUG1. SHM is initiated by activation-induced
cytosine deaminase
(AID), followed by removal of U by UNG2. Humans lacking UNG2 suffer from recurrent infections and lymphoid hyperplasia, and have skewed SHM and defective CSR, resulting in elevated IgM and strongly reduced IgG, IgA and
IgE
. UNG-defective mice also develop B-cell lymphoma late in life. In the defence against retrovirus, e.g. HIV-1, high concentrations of dUTP in the target cells promotes misincorporation of dUMP-, and host cell APOBEC proteins may promote deamination of cytosine in the viral DNA. This facilitates degradation of viral DNA by UNG2 and AP-endonuclease. However, viral proteins Vif and Vpr counteract this defense by mechanisms that are now being revealed. In conclusion, uracil in DNA is both a mutagenic burden and a tool to modify DNA for diversity or degradation.
...
PMID:DNA-uracil and human pathology. 1759 Apr 28
B lymphocytes switch from secreting IgM to secreting IgG, IgA or
IgE
through a DNA recombination, class switch recombination (CSR), whose mechanism is incompletely understood. CSR is thought to be triggered by activation-induced deaminase (AID), which is believed to deaminate cytosines to uracil in single-strand regions of switch region DNA. Subsequent excision of uracils by uracil DNA glycosylase (UNG) (product of the UNG gene) generates abasic sites, which are targeted for DNA cleavage, producing DNA breaks that are critical intermediates in CSR. Consistent with this model, CSR-related double-strand breaks (DSBs)--detected by ligation-mediated PCR (LMPCR)--have been reported to be dramatically reduced in B cells from either AID(-/-) or UNG(-/-) mice. Here we examine single-strand breaks (SSBs) using LMPCR and report, surprisingly, that CSR-related anti-sense strand breaks in Sgamma regions are dependent only on UNG, and not AID, suggesting participation of a
cytosine deaminase
other than AID. This conclusion is supported by the sequences at these DNA breaks, which show a bias for a consensus sequence different from that reported for AID. The SSBs appear to be part of the normal CSR pathway since in B cells in which CSR is blocked by deletion of Smu, the content of Sgamma SSBs is elevated as though the breaks resolve inefficiently owing to the lack of a recombination partner for completing mu-to-gamma CSR. These results suggest a narrower role for AID in CSR than previously recognized and prompt a search for a putative alternative
cytosine deaminase
participating in CSR.
...
PMID:Single-strand DNA breaks in Ig class switch recombination that depend on UNG but not AID. 1879 3
