High-affinity binding of tumor-suppressor protein p53 and HMGB1
to hemicatenated DNA loops.

ŠTROS, Michal, Eva POLANSKÁ, Šárka POSPÍŠILOVÁ a F STRAUSS. High-affinity binding of tumor-suppressor protein p53 and HMGB1 to hemicatenated DNA loops. Biochemistry. 2004, roč. 43, s. 7215-7225.

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TY  - JOUR
ID  - 838161
AU  - Štros, Michal - Polanská, Eva - Pospíšilová, Šárka - Strauss, F
PY  - 2004
TI  - High-affinity binding of tumor-suppressor protein p53 and HMGB1 to hemicatenated DNA loops.
JF  - Biochemistry
VL  - 43
SP  - 7215-7225
EP  - 7215-7225
KW  - p53
N2  - We have recently observed that chromatin architectural protein HMGB1 (previously reported to be involved in numerous biological processes such as DNA replication, recombination, repair, tumor growth, and metastasis) could bind with extremely high affinity (K(d) < 1 pM) to a novel DNA structure that forms a DNA loop maintained at its base by a hemicatenane (hcDNA). The loop of hcDNA contains a track of repetitive sequences derived from CA-microsatellites. Here, we report using a gel-retardation assay that tumor-suppressor protein p53 can also bind to hcDNA. p53 is a crucial molecule protecting cells from malignant transformation by regulating cell-cycle progression, apoptosis, and DNA repair by activation or repression of transcription of its target genes by binding to specific p53 DNA-binding sites and/or certain types of DNA lesions or alternative DNA structures. The affinity of p53 for hcDNA (containing sequences with no resemblance to the p53 DNA consensus sequence) is >40-fold higher (K(d) approximately 0.5 nM) than that for its natural specific binding sites within its target genes (Mdm2 promoter). Binding of p53 to hcDNA remains detectable in the presence of up to approximately 4 orders of magnitude of mass excess of competitor linear DNA, suggesting a high specificity of the interaction. p53 displays a higher affinity for hcDNA than for DNA minicircles (lacking functional p53-specific binding sequence) with a size similar to that of the loop within the hcDNA, indicating that the extreme affinity of p53 for hcDNA is likely due to the binding of the protein to the hemicatenane. Although binding of p53 to hcDNA occurs in the absence of the nonspecific DNA-binding extreme carboxy-terminal regulatory domain (30-C, residues 363-393), the isolated 30-C domain (but not the sequence-specific p53 "core domain", residues 94-312) can also bind hcDNA. Only the full-length p53 can form stable ternary complexes with hcDNA and HMGB1. The possible biological relevance of p53 and HMGB1 binding to hemicatenanes is discussed.
ER  -

Základní údaje
Originální název	High-affinity binding of tumor-suppressor protein p53 and HMGB1 to hemicatenated DNA loops.
Autoři	ŠTROS, Michal, Eva POLANSKÁ, Šárka POSPÍŠILOVÁ a F STRAUSS.
Vydání	Biochemistry, 2004.

Další údaje
Typ výsledku	Článek v odborném periodiku
Utajení	není předmětem státního či obchodního tajemství
Organizační jednotka	Lékařská fakulta
UT WoS	000221807500040
Klíčová slova česky	p53
Klíčová slova anglicky	p53
Štítky	p53
Příznaky	Mezinárodní význam, Recenzováno
Změnil	Změnila: RNDr. Jitka Malčíková, Ph.D., učo 14364. Změněno: 26. 7. 2010 13:43.

Anotace

We have recently observed that chromatin architectural protein HMGB1 (previously reported to be involved in numerous biological processes such as DNA replication, recombination, repair, tumor growth, and metastasis) could bind with extremely high affinity (K(d) < 1 pM) to a novel DNA structure that forms a DNA loop maintained at its base by a hemicatenane (hcDNA). The loop of hcDNA contains a track of repetitive sequences derived from CA-microsatellites. Here, we report using a gel-retardation assay that tumor-suppressor protein p53 can also bind to hcDNA. p53 is a crucial molecule protecting cells from malignant transformation by regulating cell-cycle progression, apoptosis, and DNA repair by activation or repression of transcription of its target genes by binding to specific p53 DNA-binding sites and/or certain types of DNA lesions or alternative DNA structures. The affinity of p53 for hcDNA (containing sequences with no resemblance to the p53 DNA consensus sequence) is >40-fold higher (K(d) approximately 0.5 nM) than that for its natural specific binding sites within its target genes (Mdm2 promoter). Binding of p53 to hcDNA remains detectable in the presence of up to approximately 4 orders of magnitude of mass excess of competitor linear DNA, suggesting a high specificity of the interaction. p53 displays a higher affinity for hcDNA than for DNA minicircles (lacking functional p53-specific binding sequence) with a size similar to that of the loop within the hcDNA, indicating that the extreme affinity of p53 for hcDNA is likely due to the binding of the protein to the hemicatenane. Although binding of p53 to hcDNA occurs in the absence of the nonspecific DNA-binding extreme carboxy-terminal regulatory domain (30-C, residues 363-393), the isolated 30-C domain (but not the sequence-specific p53 "core domain", residues 94-312) can also bind hcDNA. Only the full-length p53 can form stable ternary complexes with hcDNA and HMGB1. The possible biological relevance of p53 and HMGB1 binding to hemicatenanes is discussed.

VytisknoutZobrazeno: 19. 7. 2024 22:20

High-affinity binding of tumor-suppressor protein p53 and HMGB1 to hemicatenated DNA loops.

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