Gene/Protein
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Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
MCPH1
, initially identified as an hTERT repressor, has recently been implicated in mediating DNA damage response and maintaining chromosome integrity. This study is to investigate its potential role in the onset of cervical cancer. In the study, decreased expression of
MCPH1
was observed in 19 of 31 cases (61.3%) at mRNA level and 44 of 63 cases (69.8%) at protein level of cervical tumor tissues compared with the paired nontumor tissues. Reduced MCPH1 protein expression was significantly associated with high-tumor grade (1 vs. 3 P = 0.013; 2 vs. 3 P = 0.047). In addition to inhibit SiHa cell migration and invasion, the overexpression of
MCPH1
inhibited cervical cancer cells growth through inducing S phase arrest and mitochondrial apoptosis. Further analysis demonstrated cyclinA2/CDK2, CDC25C-cyclinB/CDC2, and
p53
/p21 pathways were involved in the
MCPH1
overexpression-induced S phase arrest. Moreover, the overexpression of
MCPH1
activated mitochondrial apoptosis through regulating several apoptosis-related proteins such as
p53
, Bcl-2, Bax, cytochrome c, caspase-3, and PARP-1. Our findings indicate that downregulated
MCPH1
correlates with tumor progression in cervical cancer, and
MCPH1
has an important role in regulating cell growth through regulating the cell cycle and apoptosis. Thus, it may be a crucial tumor suppressor gene and a novel candidate therapeutic target for cervical cancer.
...
PMID:The overexpression of MCPH1 inhibits cell growth through regulating cell cycle-related proteins and activating cytochrome c-caspase 3 signaling in cervical cancer. 2463 62
MCPH1
, also known as BRIT1, has recently been identified as a novel key regulatory gene of the DNA damage response pathway.
MCPH1
is located on human chromosome 8p23.1, where human cancers frequently show loss of heterozygosity. As such,
MCPH1
is aberrantly expressed in many malignancies, including breast and ovarian cancers, and the function of
MCPH1
has been implicated in tumor suppression. However, it remains poorly understood whether
MCPH1
deficiency leads to tumorigenesis. Here we generated and studied both Mcph1(-/-) and Mcph1(-/-)
p53
(-/-) mice; we showed that Mcph1(-/-) mice developed tumors with long latency, and that primary lymphoma developed significantly earlier in Mcph1(-/-)
p53
(-/-) mice than in Mcph11(+/+)
p53
(-/-) and Mcph1(+/-)
p53
(-/-) mice. The Mcph1(-/-)
p53
(-/-) lymphomas and derived murine embryonic fibroblasts (MEFs) were both more sensitive to irradiation. Mcph1 deficiency resulted in remarkably increased chromosome and chromatid breaks in Mcph1(-/-)
p53
(-/-) lymphomas and MEFs, as determined by metaphase spread assay and spectral karyotyping analysis. In addition, Mcph1 deficiency significantly enhanced aneuploidy as well as abnormal centrosome multiplication in Mcph1(-/-)
p53
(-/-) cells. Meanwhile, Mcph1 deficiency impaired double strand break (DSB) repair in Mcph1(-/-)
p53
(-/-) MEFs as demonstrated by neutral Comet assay. Compared with Mcph1(+/+)
p53
(-/-) MEFs, homologous recombination and non-homologous end-joining activities were significantly decreased in Mcph1(-/-)
p53
(-/-) MEFs. Notably, reconstituted
MCPH1
rescued the defects of DSB repair and alleviated chromosomal aberrations in Mcph1(-/-)
p53
(-/-) MEFs. Taken together, our data demonstrate
MCPH1
deficiency promotes genomic instability and increases cancer susceptibility. Our study using knockout mouse models provides convincing genetic evidence that
MCPH1
is a bona fide tumor suppressor gene. Its deficiency leading to defective DNA repair in tumors can be used to develop novel targeted cancer therapies in the future.
...
PMID:Mcph1/Brit1 deficiency promotes genomic instability and tumor formation in a mouse model. 2536 54
Strong inherited predisposition to breast cancer is estimated to cause about 5-10% of all breast cancer cases. As the known susceptibility genes, such as BRCA1 and BRCA2, explain only a fraction of this, additional predisposing genes and related biological mechanisms are actively being searched for. We have recently identified a recurrent
MCPH1
germline mutation, p.Arg304ValfsTer3, as a breast cancer susceptibility allele.
MCPH1
encodes a multifunctional protein involved in maintenance of genomic integrity and it is also somatically altered in various cancer types, including breast cancer. Additionally, biallelic
MCPH1
mutations are causative for microcephaly and at cellular level premature chromosome condensation. To study the molecular mechanisms leading to cancer predisposition and malignant conversion, here we have modeled the effect of
MCPH1
p.Arg304ValfsTer3 mutation using gene-edited MCF10A breast epithelial cells. As a complementary approach, we also sought for additional potential cancer driver mutations in
MCPH1
p.Arg304ValfsTer3 carrier breast tumors. We show that mutated
MCPH1
de-regulates transcriptional programs related to invasion and metastasis and leads to downregulation of histone genes. These global transcriptional changes are mirrored by significantly increased migration and invasion potential of the cells as well as abnormal chromosomal condensation both before and after mitosis. These findings provide novel molecular insights to
MCPH1
tumor suppressor functions and establish a role in regulation of transcriptional programs related to malignant conversion and chromosomal assembly. The
MCPH1
p.Arg304ValfsTer3 carrier breast tumors showed recurrent tumor suppressor gene
TP53
mutations, which were also significantly over-represented in breast tumors with somatically inactivated
MCPH1
.
...
PMID:Tumor suppressor MCPH1 regulates gene expression profiles related to malignant conversion and chromosomal assembly. 3080 94
