Literature DB >> 12839966

P53 physically interacts with mitochondrial transcription factor A and differentially regulates binding to damaged DNA.

Yoichiro Yoshida1, Hiroto Izumi, Takayuki Torigoe, Hiroshi Ishiguchi, Hideaki Itoh, Dongchon Kang, Kimitoshi Kohno.   

Abstract

Mitochondrial transcription factor A (mtTFA; also designated Tfam) is necessary for both transcription and maintenance of mitochondrial DNA. mtTFA preferentially recognizes cisplatin-damaged DNA, as well as oxidized DNA. Increased apoptosis has been observed in mtTFA knockout animals, suggesting that mtTFA is involved in apoptosis. A fraction of p53 protein localizes to mitochondria at the onset of p53-dependent apoptosis, but not during p53-independent apoptosis. Using immunochemical coprecipitation, we observed binding of mtTFA and p53. Interaction between mtTFA and p53 required the high mobility group-box1 or high mobility group-box2 of mtTFA and amino acids 363-376 of p53. Binding of mtTFA to cisplatin-modified DNA was significantly enhanced by p53, whereas binding to oxidized DNA was inhibited. Our findings suggest that the interaction of p53 with mtTFA may play an important role in apoptosis.

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Year:  2003        PMID: 12839966

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  74 in total

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Authors:  Chandrika Canugovi; Scott Maynard; Anne-Cécile V Bayne; Peter Sykora; Jingyan Tian; Nadja C de Souza-Pinto; Deborah L Croteau; Vilhelm A Bohr
Journal:  DNA Repair (Amst)       Date:  2010-08-23

Review 2.  The role of chromatin proteins in DNA damage recognition and repair.

Authors:  Piotr Widlak; Monika Pietrowska; Joanna Lanuszewska
Journal:  Histochem Cell Biol       Date:  2006-01       Impact factor: 4.304

3.  Mitochondrial disulfide relay mediates translocation of p53 and partitions its subcellular activity.

Authors:  Jie Zhuang; Ping-yuan Wang; Xinglu Huang; Xiaoyuan Chen; Ju-Gyeong Kang; Paul M Hwang
Journal:  Proc Natl Acad Sci U S A       Date:  2013-10-07       Impact factor: 11.205

4.  Acute exercise induces tumour suppressor protein p53 translocation to the mitochondria and promotes a p53-Tfam-mitochondrial DNA complex in skeletal muscle.

Authors:  Ayesha Saleem; David A Hood
Journal:  J Physiol       Date:  2013-05-20       Impact factor: 5.182

Review 5.  Tumor suppressor p53 and estrogen receptors in nuclear-mitochondrial communication.

Authors:  Nadi T Wickramasekera; Gokul M Das
Journal:  Mitochondrion       Date:  2013-10-29       Impact factor: 4.160

6.  Analysis of p53-RNA interactions in cultured human cells.

Authors:  Kasandra J-L Riley; L James Maher
Journal:  Biochem Biophys Res Commun       Date:  2007-09-10       Impact factor: 3.575

7.  Biophysical characterizations of human mitochondrial transcription factor A and its binding to tumor suppressor p53.

Authors:  Tuck Seng Wong; Sridharan Rajagopalan; Stefan M Freund; Trevor J Rutherford; Antonina Andreeva; Fiona M Townsley; Miriana Petrovich; Alan R Fersht
Journal:  Nucleic Acids Res       Date:  2009-09-15       Impact factor: 16.971

8.  Expression of mitochondrial transcription factor A in endometrial carcinomas: clinicopathologic correlations and prognostic significance.

Authors:  Naoyuki Toki; Seiji Kagami; Tomoko Kurita; Toshinori Kawagoe; Yusuke Matsuura; Toru Hachisuga; Atsuji Matsuyama; Hiroshi Hashimoto; Hiroto Izumi; Kimitoshi Kohno
Journal:  Virchows Arch       Date:  2010-03-16       Impact factor: 4.064

Review 9.  Nuclear transcription factors in mammalian mitochondria.

Authors:  Sarah Leigh-Brown; José Antonio Enriquez; Duncan T Odom
Journal:  Genome Biol       Date:  2010-07-29       Impact factor: 13.583

Review 10.  Mitochondrial-epigenetic crosstalk in environmental toxicology.

Authors:  Caren Weinhouse
Journal:  Toxicology       Date:  2017-09-05       Impact factor: 4.221
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