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Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
ATW8 was a unique opportunity to review the complex and growing field of
ataxia-telangiectasia
(
A-T
) research and to cross-fertilize ideas for new experimental designs.
A-T
biology now encompasses human and mouse neurology, neurobiology, immunology, radiobiology, cell signalling, cell cycle checkpoints, gametogenesis, and oncogenesis, as well as radiotherapy, cancer epidemiology, premature aging, cytogenetics, and DNA repair mechanisms. By an as yet undetermined mechanism, the
ATM protein
appears to sense double strand breaks (DSB) during meiosis or mitosis, or breaks consequent to the damage of free radicals which are generated during the metabolism of food. As a protein kinase,
ATM
then directly phosphorylates p53 and interacts with many other molecules involved in homologous and nonhomologous DSB repair, as well as in cell signalling. Some of these molecule targets include: c-abl, ATR, chk-1, chk-2, RPA, BRCA1, BRCA2, NFkappaB/IkappaB alpha, beta-adaptin, and perhaps
ATM
itself. Thus,
ATM
is a "hierarchical kinase," initiating many pathways simultaneously. Parallel sessions or longer meetings will clearly be necessary for future
A-T
workshops.
...
PMID:Eighth International Workshop on Ataxia-Telangiectasia (ATW8). 1044 4
Ataxia-telangiectasia
(AT) is an autosomal recessive multisystem disorder presenting in childhood with progressive cerebellar ataxia, oculocutaneous telangiectasia, immune deficiency, radiosensitivity, and cancer predisposition. The gene for AT, designated
ATM
(AT, mutated) encodes a protein with a carboxy-terminal phosphoinositide-3 kinase domain which is involved in cell cycle checkpoints and other responses to genotoxic stress. Most of the patients with the classical AT phenotype are homozygous or compound heterozygous for severe mutations causing truncation or destabilization of the
ATM protein
. Patients with a milder forms of disease, called AT variants, have been found to be either homozygous for milder mutations or compound heterozygotes for null alleles and mild mutations. In order to define the clinical phenotype of patients homozygous (or compound heterozygotes) for other, milder mutations, we decided to search for
ATM
mutations in patients with either sporadic or familial idiopathic ataxia. Thirty-four patients with idiopathic cerebellar ataxia, aged 3-77 years, were screened for mutations in the
ATM
coding region. There were 12 familial cases. None of the patients had abnormal immunoglobulin or alpha-fetoprotein levels, and none had mutations in the
ATM
coding region. In this heterogeneous group of patients with cerebellar ataxia we found no mutations in the
ATM
gene. We conclude that mutations in the
ATM
gene are probably not a common cause for cerebellar ataxia other than AT.
...
PMID:Absence of mutations in ATM, the gene responsible for ataxia telangiectasia in patients with cerebellar ataxia. 1046 Apr 51
The product of the
ATM
gene, which is mutated in
ataxia telangiectasia
, is a nuclear phosphoprotein, and it involves the activation of the p53 pathway after ionizing radiation. Here we show that the
ATM protein
is constitutively associated with double strand DNA and that the interaction increases when the DNA is exposed to ionizing radiation. The
ATM protein
also had affinity to restriction endonuclease PvuII-digested DNA, but not to UV-irradiated DNA nor X-irradiated single-stranded DNA. The immunoprecipitation experiment detected very weak association between
ATM
and DNA-PK proteins, and immunodepletion of DNA-PK showed little or no effect on the interaction of the
ATM protein
with damaged DNA, indicating that an interaction with DNA-PK might not be required for the recruitment of the
ATM protein
to damaged DNA. Furthermore, the association was also confirmed in xrs-5 and xrs-6e cells, which are Chinese hamster ovary mutant cell lines defective in Ku80 function. These results indicate that the
ATM protein
is recruited to the site of DNA damage and it recognizes double strand breaks by itself or through an association with other DNA-binding protein other than DNA-PK and Ku80 proteins.
...
PMID:Recruitment of ATM protein to double strand DNA irradiated with ionizing radiation. 1046 90
Patients with the human genetic disorder
ataxia-telangiectasia
(
A-T
) are characterized by immunodeficiency and a predisposition to develop lymphoid malignancies. The gene mutated in
A-T
patients,
ATM
, codes for a high molecular weight protein that is implicated in DNA damage recognition and cell cycle control. The
ATM protein
does not change in amount or cellular distribution throughout the cell cycle or in response to DNA damaging agents. Because peripheral blood mononuclear cells (PBMCs) are largely in a state of quiescence and can be readily stimulated to enter a proliferative phase and because
A-T
cells exhibit growth abnormalities and senescence, indicative of a general intracellular defect in signalling, we chose PBMCs to examine the relationship of
ATM
to the proliferative status of the cell. We show here that
ATM protein
is present at low levels in freshly isolated PBMCs and increases approximately 6-fold to 10-fold in response to a mitogenic stimulus, reaching a maximum after 3 to 4 days. A similar, but delayed response, was evident in the presence of serum only. This increase in
ATM protein
was accompanied by an increase in
ATM
kinase activity. While expression of
ATM protein
increased during proliferation,
ATM
mRNA expression was unchanged in stimulated and unstimulated cells and there was no evidence for increased
ATM protein
stability in the phytohemagglutinin (PHA)-treated cells. In keeping with the reduced levels of
ATM
in quiescent cells, the extent of radiation-induction of the p53 pathway was significantly lower than in mitogen-stimulated cells. Basal levels of p21 were elevated in quiescent cells, and the response to radiation was negligible or reduced compared with proliferating cells over a 2-hour period. Overall, the data suggest that the increase in
ATM protein
in proliferating cells is due to posttranscriptional regulation and points to a role for
ATM
in more general signalling.
...
PMID:ATM is upregulated during the mitogenic response in peripheral blood mononuclear cells. 1047 29
The
ATM
gene is mutated in individuals with
ataxia telangiectasia
, a human genetic disease characterized by extreme sensitivity to radiation. The
ATM protein
acts as a sensor of radiation-induced cellular damage and contributes to cell cycle regulation, signal transduction, and DNA repair; however, the mechanisms underlying these functions of
ATM
remain largely unknown. Binding and immunoprecipitation assays have now shown that
ATM
interacts with the histone deacetylase HDAC1 both in vitro and in vivo, and that the extent of this association is increased after exposure of MRC5CV1 human fibroblasts to ionizing radiation. Histone deacetylase activity was also detected in immunoprecipitates prepared from these cells with antibodies to
ATM
, and this activity was blocked by the histone deacetylase inhibitor trichostatin A. These results suggest a previously unanticipated role for
ATM
in the modification of chromatin components in response to ionizing radiation.
...
PMID:Sensing of ionizing radiation-induced DNA damage by ATM through interaction with histone deacetylase. 1053
The
ATM protein
kinase is the product of the gene responsible for the pleiotropic recessive disorder
ataxia-telangiectasia
.
ATM
-deficient cells show enhanced sensitivity and greatly reduced responses to genotoxic agents that generate DNA double strand breaks (DSBs), such as ionizing radiation and radiomimetic chemicals, but exhibit normal responses to DNA adducts and base modifications induced by other agents. Therefore, DSBs are most likely the predominant signal for the activation of
ATM
-mediated pathways. Identification of the
ATM
gene triggered extensive research aimed at elucidating the numerous functions of its large multifaceted protein product. While
ATM
has both nuclear and cytoplasmic functions, this review will focus on its roles in the nucleus where it plays a central role in the very early stages of damage detection and serves as a master controller of cellular responses to DSBs. By activating key regulators of multiple signal transduction pathways,
ATM
mediates the efficient induction of a signaling network responsible for repair of the damage, and for cellular recovery and survival.
...
PMID:ATM: a mediator of multiple responses to genotoxic stress. 1055 5
ATM
, the gene product mutated in
Ataxia Telangiectasia
(
A-T
) encodes a 350-kDa protein involved in the regulation of several cellular responses to DNA breaks. We used a degenerate PCR-based strategy to isolate a partial clone of X-
ATM
, the Xenopus homologue of human
ATM
. Sequence analysis and confirmed that the clone was most closely related to human
ATM
. Xenopus
ATM protein
(X-ATM) is 85% identical to human
ATM
within the kinase domain and 71% identical over the carboxyl-terminal half of the protein. Polyclonal antibodies raised against recombinant X-
ATM
are highly specific for the
ATM protein
and recognize a single polypeptide of 370-kDa in oocytes, embryos, egg extracts and a Xenopus cell line. We found that X-
ATM
was expressed maternally in eggs and as early as stage II pre-vitellogenic oocytes, and the protein and mRNA were present at relatively constant levels throughout development. Subcellular fractionation showed that the protein was nuclear in both the female and male germlines. The level of X-
ATM protein
did not change throughout the meiotic divisions or the synchronous mitotic cycles of cleavage stage embryos. In addition, we did not observe any change in the level or mobility of X-
ATM protein
following gamma-irradiation of embryos. Finally, we also demonstrated that X-
ATM
was present in a high molecular weight complex of approximately 500 kDa containing the X-
ATM protein
and other, as yet unidentified component(s).
...
PMID:Isolation and characterization of Xenopus ATM (X-ATM): expression, localization, and complex formation during oogenesis and early development. 1059 8
The p53 tumor-suppressor protein, a key regulator of cellular responses to genotoxic stress, is stabilized and activated after DNA damage. This process is associated with posttranslational modifications of p53, some of which are mediated by the
ATM protein
kinase. However, these modifications alone may not account in full for p53 stabilization. p53's stability and activity are negatively regulated by the oncoprotein MDM2, whose gene is activated by p53. Conceivably, p53 function may be modulated by modifications of MDM2 as well. We show here that after treatment of cells with ionizing radiation or a radiomimetic chemical, but not UV radiation, MDM2 is phosphorylated rapidly in an
ATM
-dependent manner. This phosphorylation is independent of p53 and the DNA-dependent protein kinase. Furthermore, MDM2 is directly phosphorylated by
ATM
in vitro. These findings suggest that in response to DNA strand breaks,
ATM
may promote p53 activity and stability by mediating simultaneous phosphorylation of both partners of the p53-MDM2 autoregulatory feedback loop.
...
PMID:Rapid ATM-dependent phosphorylation of MDM2 precedes p53 accumulation in response to DNA damage. 1061 22
We previously generated a mouse model with a mutation in the murine Atm gene that recapitulates many aspects of the childhood neurodegenerative disease
ataxia-telangiectasia
. Atm-deficient (Atm-/-) mice show neurological defects detected by motor function tests including the rota-rod, open-field tests and hind-paw footprint analysis. However, no gross histological abnormalities have been observed consistently in the cerebellum of any line of Atm-/- mice analyzed in most laboratories. Therefore, it may be that the neurologic dysfunction found in these animals is associated with predegenerative lesions. We performed a detailed analysis of the cerebellar morphology in two independently generated lines of Atm-/- mice to determine whether there was evidence of neuronal abnormality. We found a significant increase in the number of lysosomes in Atm-/- mice in the absence of any detectable signs of neuronal degeneration or other ultrastructural anomalies. In addition, we found that the
ATM protein
is predominantly cytoplasmic in Purkinje cells and other neurons, in contrast to the nuclear localization of
ATM protein
observed in cultured cells. The cytoplasmic localization of
ATM
in Purkinje cells is similar to that found in human cerebellum. These findings suggest that
ATM
may be important as a cytoplasmic protein in neurons and that its absence leads to abnormalities of cytoplasmic organelles reflected as an increase in lysosomal numbers.
...
PMID:ATM is a cytoplasmic protein in mouse brain required to prevent lysosomal accumulation. 1063 72
Ataxia telangiectasia
(AT) patients have inactivating mutations in both copies of the
ATM
gene. The
ATM protein
that the gene encodes is involved in DNA double-strand break (DSB) recognition; in its absence, p53 response to DSBs is delayed and reduced. In addition, AT patients have a high propensity for cancer, and cells from these patients show chromosomal instability. Here, using an in vivo mouse model system with the pink-eyed unstable mutation, we demonstrate that the absence of functional Atm results in a significantly elevated frequency of intrachromosomal recombination resulting in deletion events (wild-type 17.73%, heterozygous Atm 15.72%, and mutant Atm 30.33%). No such increase was observed in mice heterozygous for Atm. These results further advocate the role of
ATM
in maintaining genomic integrity after the onset of endogenous damage. This system relies on the initiation of events during a relatively short time frame to produce an observable deletion product. AT patients have a lifelong exposure to endogenous damage and perhaps similarly acting external agents. Because 25% of our genome consists of repeated elements, genomic instability due to an increased level of homologous recombination between such repeats, as observed here, may contribute to carcinogenesis in AT patients.
...
PMID:Atm deficiency causes an increased frequency of intrachromosomal homologous recombination in mice. 1066 93
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