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Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chromosomal instability can occur when the DNA damage response and repair process fails, resulting in syndromes characterized by growth abnormalities, hematopoietic defects, mutagen sensitivity, and cancer predisposition. Mutations in
ATM
, NBS1, MRE11, BLM, WRN, and FANCD2 are responsible for
ataxia telangiectasia
(AT), Nijmegen breakage syndrome, AT-like disorder, Bloom and Werner syndrome, and Fanconi anemia group D2, respectively. This diverse group of disorders is thought to be linked through protein interactions with the breast cancer tumor susceptibility gene product,
BRCA1
.
BRCA1
forms a multi-subunit protein complex referred to as the
BRCA1
-associated genome surveillance complex (BASC), which includes DNA damage repair proteins such as MSH2-MSH6 and MLH1, as well as
ATM
, NBS1, MRE11, and BLM. Although still controversial, this finding suggests similarities in the pathogenesis of the human chromosome breakage syndromes and a complementary role for each protein in DNA structure surveillance or damage repair.
...
PMID:Chromosomal breakage syndromes and the BRCA1 genome surveillance complex. 1173 19
BRCA1
carboxyl-terminal (BRCT) motifs are present in a number of proteins involved in DNA repair and/or DNA damage-signaling pathways. Human DNA topoisomerase II binding protein 1 (TopBP1) contains eight BRCT motifs and shares sequence similarity with the fission yeast Rad4/Cut5 protein and the budding yeast DPB11 protein, both of which are required for DNA damage and/or replication checkpoint controls. We report here that TopBP1 is phosphorylated in response to DNA double-strand breaks and replication blocks. TopBP1 forms nuclear foci and localizes to the sites of DNA damage or the arrested replication forks. In response to DNA strand breaks, TopBP1 phosphorylation depends on the ataxia telangiectasia mutated protein (ATM) in vivo. However, ATM-dependent phosphorylation of TopBP1 does not appear to be required for focus formation following DNA damage. Instead, focus formation relies on one of the BRCT motifs, BRCT5, in TopBP1. Antisense Morpholino oligomers against TopBP1 greatly reduced TopBP1 expression in vivo. Similar to that of
ataxia telangiectasia
-related protein (ATR), Chk1, or Hus1, downregulation of TopBP1 leads to reduced cell survival, probably due to increased apoptosis. Taken together, the data presented here suggest that, like its putative counterparts in yeast species, TopBP1 may be involved in DNA damage and replication checkpoint controls.
...
PMID:A DNA damage-regulated BRCT-containing protein, TopBP1, is required for cell survival. 1175 51
The breast cancer tumor-suppressor gene,
BRCA1
, encodes a protein with a BRCT domain-a motif that is found in many proteins that are implicated in DNA damage response and in genome stability. Phosphorylation of
BRCA1
by the DNA damage-response proteins
ATM
, ATR and hCds1/Chk2 changes in response to DNA damage and at replication-block checkpoints. Although cells that lack
BRCA1
have an abnormal response to DNA damage, the exact role of
BRCA1
in this process has remained unclear. Here we show that
BRCA1
is essential for activating the Chk1 kinase that regulates DNA damage-induced G2/M arrest. Thus,
BRCA1
controls the expression, phosphorylation and cellular localization of Cdc25C and Cdc2/cyclin B kinase-proteins that are crucial for the G2/M transition. We show that
BRCA1
regulates the expression of both Wee1 kinase, an inhibitor of Cdc2/cyclin B kinase, and the 14-3-3 family of proteins that sequesters phosphorylated Cdc25C and Cdc2/cyclin B kinase in the cytoplasm. We conclude that
BRCA1
regulates key effectors that control the G2/M checkpoint and is therefore involved in regulating the onset of mitosis.
...
PMID:BRCA1 regulates the G2/M checkpoint by activating Chk1 kinase upon DNA damage. 1183 99
Structural maintenance of chromosomes (SMC) proteins (SMC1, SMC3) are evolutionarily conserved chromosomal proteins that are components of the cohesin complex, necessary for sister chromatid cohesion. These proteins may also function in DNA repair. Here we report that SMC1 is a component of the DNA damage response network that functions as an effector in the
ATM
/NBS1-dependent S-phase checkpoint pathway. SMC1 associates with
BRCA1
and is phosphorylated in response to IR in an
ATM
- and NBS1-dependent manner. Using mass spectrometry, we established that
ATM
phosphorylates S957 and S966 of SMC1 in vivo. Phosphorylation of S957 and/or S966 of SMC1 is required for activation of the S-phase checkpoint in response to IR. We also discovered that the phosphorylation of NBS1 by
ATM
is required for the phosphorylation of SMC1, establishing the role of NBS1 as an adaptor in the
ATM
/NBS1/SMC1 pathway. The
ATM
/CHK2/CDC25A pathway is also involved in the S-phase checkpoint activation, but this pathway is intact in NBS cells. Our results indicate that the
ATM
/NBS1/SMC1 pathway is a separate branch of the S-phase checkpoint pathway, distinct from the
ATM
/CHK2/CDC25A branch. Therefore, this work establishes the
ATM
/NBS1/SMC1 branch, and provides a molecular basis for the S-phase checkpoint defect in NBS cells.
...
PMID:SMC1 is a downstream effector in the ATM/NBS1 branch of the human S-phase checkpoint. 1187 77
BRCA1
plays an important role in mechanisms of response to double-strand breaks, participating in genome surveillance, DNA repair, and cell cycle checkpoint arrests. Here, we identify a constitutive
BRCA1
-c-Abl complex and provide evidence for a direct interaction between the PXXP motif in the C terminus of
BRCA1
and the SH3 domain of c-Abl. Following exposure to ionizing radiation (IR), the
BRCA1
-c-Abl complex is disrupted in an
ATM
-dependent manner, which correlates temporally with
ATM
-dependent phosphorylation of
BRCA1
and
ATM
-dependent enhancement of the tyrosine kinase activity of c-Abl. The
BRCA1
-c-Abl interaction is affected by radiation-induced modification to both
BRCA1
and c-Abl. We show that the C terminus of
BRCA1
is phosphorylated by c-Abl in vitro. In vivo,
BRCA1
is phosphorylated at tyrosine residues in an
ATM
-dependent, radiation-dependent manner. Tyrosine phosphorylation of
BRCA1
, however, is not required for the disruption of the
BRCA1
-c-Abl complex.
BRCA1
-mutated cells exhibit constitutively high c-Abl kinase activity that is not further increased on exposure to IR. We suggest a model in which
BRCA1
acts in concert with
ATM
to regulate c-Abl tyrosine kinase activity.
...
PMID:Constitutive association of BRCA1 and c-Abl and its ATM-dependent disruption after irradiation. 1202 16
Somatic genetic alterations in tumors are known to correlate with survival, but little is known about the prognostic significance of germ-line variation. We assessed the effect of germ-line variation on survival among women with breast cancer participating in a British population-based study. Up to 2430 cases for whom current vital status data were available were screened for
BRCA1
/2 mutations and genotyped for polymorphisms in 22 DNA repair, hormone metabolism, carcinogen metabolism, and other genes. The effect of genotype on outcome was assessed by Cox regression analysis. The largest effect was observed for the silent polymorphism D501D (t>c) in LIG4, a gene involved in DNA double-strand break repair. The estimated hazard ratio (HR) in cc homozygotes relative to tt homozygotes was 4.0 (95% confidence interval, 2.1-7.7; P = 0.002), and this effect remained after stratification by stage, grade, and tumor type [HR, 4.2 (1.8-9.4); P = 0.01]. Total length of a CYP19 IVS4 (ttta)(n) repeat was also associated with survival [HR, 0.9 (0.8-1.0); P = 0.01], but this became nonsignificant after stratification by stage, grade, and tumor type. Poorer survival was observed for 10
BRCA1
mutation carriers [HR, 4.1 (1.3-13); P = 0.047]; however, after adjustment for known prognostic factors, the HR estimate decreased to 2.0 and became nonsignificant (P = 0.4). CYP17 (P = 0.05) and TP53 (P = 0.06) polymorphisms showed marginally significant associations in unstratified analyses. No effect on survival was seen for polymorphisms in
ATM
,
BRCA1
/2, CHK2, KU70, NBS1, RAD51, RAD52, XRCC3, AR, COMT, NQO1, VDR, ADH3, CYP1A1, GSTP1, TGF-beta, or CDH1. Even if confirmed, the prognostic markers identified in this study are unlikely to replace current markers of prognosis such as estrogen receptor status. However, our results demonstrate the potential of the analysis of germ-line variation to provide insight into the biological determinants of response to treatment and prognosis in breast cancer.
...
PMID:Effect of germ-line genetic variation on breast cancer survival in a population-based study. 1203 13
The Chk2 Ser/Thr kinase plays crucial, evolutionarily conserved roles in cellular responses to DNA damage. Identification of two pro-oncogenic mutations within the Chk2 FHA domain has highlighted its importance for Chk2 function in checkpoint activation. The X-ray structure of the Chk2 FHA domain in complex with an in vitro selected phosphopeptide motif reveals the determinants of binding specificity and shows that both mutations are remote from the peptide binding site. We show that the Chk2 FHA domain mediates
ATM
-dependent Chk2 phosphorylation and targeting of Chk2 to in vivo binding partners such as
BRCA1
through either or both of two structurally distinct mechanisms. Although phospho-dependent binding is important for Chk2 activity, previously uncharacterized phospho-independent FHA domain interactions appear to be the primary target of oncogenic lesions.
...
PMID:Structural and functional versatility of the FHA domain in DNA-damage signaling by the tumor suppressor kinase Chk2. 1204 40
Two systems are essential in humans for genome integrity, DNA repair and apoptosis. Cells that are defective in DNA repair tend to accumulate excess DNA damage. Cells defective in apoptosis tend to survive with excess DNA damage and thus allow DNA replication past DNA damages, causing mutations leading to carcinogenesis. It has recently become apparent that key proteins which contribute to cellular survival by acting in DNA repair become executioners in the face of excess DNA damage. Five major DNA repair pathways are homologous recombinational repair (HRR), non-homologous end joining (NHEJ), nucleotide excision repair (NER), base excision repair (BER) and mismatch repair (MMR). In each of these DNA repair pathways, key proteins occur with dual functions in DNA damage sensing/repair and apoptosis. Proteins with these dual roles occur in: (1) HRR (
BRCA1
,
ATM
, ATR, WRN, BLM, Tip60 and p53); (2) NHEJ (the catalytic subunit of DNA-PK); (3) NER (XPB, XPD, p53 and p33(ING1b)); (4) BER (Ref-1/Ape, poly(ADP-ribose) polymerase-1 (PARP-1) and p53); (5) MMR (MSH2, MSH6, MLH1 and PMS2). For a number of these dual-role proteins, germ line mutations causing them to be defective also predispose individuals to cancer. Such proteins include
BRCA1
,
ATM
, WRN, BLM, p53, XPB, XPD, MSH2, MSH6, MLH1 and PMS2.
...
PMID:DNA repair/pro-apoptotic dual-role proteins in five major DNA repair pathways: fail-safe protection against carcinogenesis. 1205 32
In the present study, we used 22 microsatellite markers flanking to or within 13 known or candidate tumor suppressor genes (TSGs) to detect loss of heterozygosity (LOH) in these chromosomal regions among 41 cases of non-small cell lung cancer, including 28 squamous cell carcinoma (SCC) and 13 adenocarcinoma (ADC). The studied TSGs comprised FHIT, VHL, APC, PRLTS, p16, IFNA, PTEN, p57,
ATM
, p53,
BRCA1
, DPC4 and DCC. Our data demonstrated frequent allelic losses of FHIT, p53, IFNA, VHL and p16 in both SCC and ADC. PTEN and
ATM
showed the least frequency of LOH, while no deletion of
BRCA1
was detected in all tumor samples. LOH analysis of PRLTS was extended to 26 cases of ADC, which demonstrated significantly higher frequency of LOH than SCC. Our data indicated a possible correlation between specific TSG(s) and either histological type of lung cancer, and more attention should be paid to the PRLTS gene, which might play an important role in the development of ADC.
...
PMID:Deletion of tumor suppressor genes in Chinese non-small cell lung cancer. 1212 91
Understanding the molecular and genetic events affecting breast cancer development not only helps oncologists address important questions commonly asked by their patients but also helps clinicians gain insights into the biology of the disease. Although the molecular and genetic determinants of most sporadic breast cancer remain unknown, significant advances in the understanding of events that contribute to breast cancer formation have been made. It is now recognized that mutations in some tumor suppressor genes, such as p53,
BRCA1
, BRCA2, PTEN, or
ATM
, or epigenetic functional inactivation of other tumor suppressor genes, such as SYK and NES1, appear to play important early roles in the formation of some breast cancers. In addition, alterations in proto-oncogenes, such as HER2/neu, may contribute to the development of some breast cancer. The goal of this article is to further introduce clinicians to molecular and genetic pathways that contribute to breast cancer formation. By participating in the study of breast cancer development at the molecular as well as the histopathological level, oncologists can help develop novel prevention, diagnostic, and therapeutic approaches for the future.
...
PMID:Molecular biology and genetics of breast cancer development: a clinical perspective. 1238 87
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