Journal
JOURNAL OF CHEMICAL INFORMATION AND MODELING
Volume 62, Issue 24, Pages 6449-6461Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jcim.2c00380
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Funding
- Ministry of Electronics and Information Technology (MeitY), Government of India
- Department of Science and Technology (DST), Government of India
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This study investigated the conformational variations of p53 at different temperatures using molecular dynamics simulations and Markov State Modeling analysis. The results revealed that p53 exhibits reduced functionality and weakened DNA binding ability at physiological temperatures. Potential target regions to overcome this temperature sensitivity were also identified.
The transcription factor p53 is one of the most widely studied cancer proteins. Its temperature-sensitive nature suggests reduction in functionality at physiological temperatures. Temperature-induced conformational variations and their impact on its functional ability still remain unexplored. A total of 20.8 mu s molecular dynamics simulations of wildtype p53 in the apo and the DNA-bound states have been performed at 300 K and 310 K. Further, Markov State Modeling (MSM) analyses were performed, considering C-alpha-C-alpha distances as reaction coordinates. Filtering of these distances based on correlation with the time-independent components (tICs) resulted in 16 and 32 distances for apo and DNA-bound systems, respectively. Individual MSM analyses using these filtered distances were performed for both p53 systems. These C-alpha-C-alpha residue pairs belonged to the N-terminal, S6/7 beta-turn, loop L2, loop L3, and hydrophobic core residues. At physiological temperatures, apo-p53 exhibits exposure of its hydrophobic core, where the temperature-sensitive hotspot residues were also located. This exposure was the result of the S6/7 beta-turn and N-terminal moving apart. In the DNA-bound p53 system, loop L1 attains an open conformation at physiological temperatures, which weakens the DNA binding. It is already known that p53 mutants that lack DNA binding also tend to show similar conformational variations. The S6/7 beta-turn along with the already known functionally important loop L2 may pose as regions to be targeted to overcome the loss in binding of temperature-sensitive wildtype p53. Rescue strategies directed toward these temperature-sensitive regions may be useful to recuperate its strong binding at physiological temperatures.
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