Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dyskeratosis congenita
is a cancer-prone inherited bone marrow failure syndrome caused by telomere dysfunction. A mouse model recently suggested that
p53
regulates telomere metabolism, but the clinical relevance of this finding remained uncertain. Here, a germline missense mutation of
MDM4
, a negative regulator of
p53
, was found in a family with features suggestive of
dyskeratosis congenita
, e.g., bone marrow hypocellularity, short telomeres, tongue squamous cell carcinoma, and acute myeloid leukemia. Using a mouse model, we show that this mutation (p.T454M) leads to increased
p53
activity, decreased telomere length, and bone marrow failure. Variations in
p53
activity markedly altered the phenotype of
Mdm4
mutant mice, suggesting an explanation for the variable expressivity of disease symptoms in the family. Our data indicate that a germline activation of the
p53
pathway may cause telomere dysfunction and point to polymorphisms affecting this pathway as potential genetic modifiers of telomere biology and bone marrow function.
...
PMID:Germline mutation of
MDM4
, a major p53 regulator, in a familial syndrome of defective telomere maintenance. 3230 Jun 48
Mutations in DKC1, NOP10, and TINF2 genes, coding for proteins in telomerase and shelterin complexes, are responsible for diverse diseases known as telomeropathies and ribosomopathies, including
dyskeratosis congenita
(DC, ORPHA 1775). These genes contribute to the DC phenotype through mechanisms that are not completely understood. We previously demonstrated in models of DC that oxidative stress is an early and independent event that occurs prior to telomere shortening. To clarify the mechanisms that induce oxidative stress, we silenced genes DKC1, NOP10, and TINF2 with siRNA technology. With RNA array hybridisation, we found several altered pathways for each siRNA model. Afterwards, we identified common related genes. The silenced cell line with the most deregulated genes and pathways was siNOP10, followed by siDKC1, and then by siTINF2 to a lesser extent. The siDKC1 and siNOP10 models shared altered expression of genes in the
p53
pathway, while siNOP10 and siTINF2 had the adherens junction pathway in common. We also observed that depletion of DKC1 and NOP10 H/ACA ribonucleoprotein produced ribosomal biogenesis impairment which, in turn, promoted
p53
pathway activation. Finally, we found that those enzymes responsible for GSH synthesis were down-regulated in models of siDKC1 and siNOP10. In contrast, the silenced cells for TINF2 showed no disruption of ribosomal biogenesis or oxidative stress and did not produce
p53
pathway activation. These results indicate that depletion of DKC1 and NOP10 promotes oxidative stress and disrupts ribosomal biogenesis which, in turn, activates the
p53
pathway.
...
PMID:Acute depletion of telomerase components DKC1 and NOP10 induces oxidative stress and disrupts ribosomal biogenesis via NPM1 and activation of the P53 pathway. 3291 Sep 90
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