4i91 Citations

Structural and thermodynamic basis of (+)-α-pinene binding to human cytochrome P450 2B6.

Wilderman PR, Shah MB, Jang HH, Stout CD, Halpert JR
J Am Chem Soc 135 10433-40 (2013)
Cited: 25 times
EuropePMC logo PMID: 23786449

Abstract

Despite recent advances in atomic-level understanding of drug and inhibitor interactions with human cytochromes P450, the decades-old questions of chemical and structural determinants of hydrocarbon binding are still unanswered. (+)-α-Pinene is a monoterpene hydrocarbon that is widely distributed in the environment and a potent P450 2B inhibitor. Therefore, a combined biophysical and structural analysis of human P450 2B6 interactions with (+)-α-pinene was undertaken to elucidate the basis of the very high affinity binding. Binding of (+)-α-pinene to the P450 active site was demonstrated by a Type I spectral shift. Thermodynamics of ligand binding were explored using isothermal titration calorimetry and compared to those of P450 2A6, which is much less flexible than 2B6 based on comparison of multiple X-ray crystal structures. Consistent with expectation, entropy is the major driving force for hydrocarbon binding to P450 2A6, as evidenced by the calorimetric results. However, formation of the 2B6-(+)-α-pinene complex has a significant enthalpic component. A 2.0 Å resolution crystal structure of this enzyme-ligand complex reveals that the highly plastic 2B6 utilizes previously unrecognized rearrangements of protein motifs. The results indicate that the specific components of enthalpic contribution to ligand binding are closely tied to the degree of enzyme flexibility.

Reviews - 4i91 mentioned but not cited (1)

  1. Ligand Access Channels in Cytochrome P450 Enzymes: A Review. Urban P, Lautier T, Pompon D, Truan G. Int J Mol Sci 19 E1617 (2018)

Articles - 4i91 mentioned but not cited (10)

  1. Structural and thermodynamic basis of (+)-α-pinene binding to human cytochrome P450 2B6. Wilderman PR, Shah MB, Jang HH, Stout CD, Halpert JR. J Am Chem Soc 135 10433-10440 (2013)
  2. Evaluation of influence of single nucleotide polymorphisms in cytochrome P450 2B6 on substrate recognition using computational docking and molecular dynamics simulation. Kobayashi K, Takahashi O, Hiratsuka M, Yamaotsu N, Hirono S, Watanabe Y, Oda A. PLoS One 9 e96789 (2014)
  3. Structural and biophysical characterization of human cytochromes P450 2B6 and 2A6 bound to volatile hydrocarbons: analysis and comparison. Shah MB, Wilderman PR, Liu J, Jang HH, Zhang Q, Stout CD, Halpert JR. Mol Pharmacol 87 649-659 (2015)
  4. Coumarin Derivatives as Substrate Probes of Mammalian Cytochromes P450 2B4 and 2B6: Assessing the Importance of 7-Alkoxy Chain Length, Halogen Substitution, and Non-Active Site Mutations. Liu J, Shah MB, Zhang Q, Stout CD, Halpert JR, Wilderman PR. Biochemistry 55 1997-2007 (2016)
  5. Functional characterization of cytochromes P450 2B from the desert woodrat Neotoma lepida. Wilderman PR, Jang HH, Malenke JR, Salib M, Angermeier E, Lamime S, Dearing MD, Halpert JR. Toxicol Appl Pharmacol 274 393-401 (2014)
  6. A hypothesis on the capacity of plant odorant-binding proteins to bind volatile isoprenoids based on in silico evidences. Giordano D, Facchiano A, D'Auria S, Loreto F. Elife 10 e66741 (2021)
  7. A practical strategy to develop isoform-selective near-infrared fluorescent probes for human cytochrome P450 enzymes. Feng L, Tian X, Yao D, Yu Z, Huo X, Tian Z, Ning J, Cui J, James TD, Ma X. Acta Pharm Sin B 12 1976-1986 (2022)
  8. Crystal Structure of CYP2B6 in Complex with an Efavirenz Analog. Shah MB, Zhang Q, Halpert JR. Int J Mol Sci 19 E1025 (2018)
  9. Mechanisms of interaction between persistent organic pollutants (POPs) and CYP2B6: An in silico approach. Maldonado-Rojas W, Rivera-Julio K, Olivero-Verbel J, Aga DS. Chemosphere 159 113-125 (2016)
  10. Use of Phenoxyaniline Analogues To Generate Biochemical Insights into the Interactio n of Polybrominated Diphenyl Ether with CYP2B Enzymes. Chen C, Liu J, Halpert JR, Wilderman PR. Biochemistry 57 817-826 (2018)


Reviews citing this publication (2)

  1. Potential Herb-Drug Interactions in the Management of Age-Related Cognitive Dysfunction. Auxtero MD, Chalante S, Abade MR, Jorge R, Fernandes AI. Pharmaceutics 13 124 (2021)
  2. The safety evaluation of food flavouring substances: the role of metabolic studies. Smith RL, Cohen SM, Fukushima S, Gooderham NJ, Hecht SS, Guengerich FP, Rietjens IMCM, Bastaki M, Harman CL, McGowen MM, Taylor SV. Toxicol Res (Camb) 7 618-646 (2018)

Articles citing this publication (12)

  1. Halogen-π Interactions in the Cytochrome P450 Active Site: Structural Insights into Human CYP2B6 Substrate Selectivity. Shah MB, Liu J, Zhang Q, Stout CD, Halpert JR. ACS Chem Biol 12 1204-1210 (2017)
  2. Halogen Substitution Influences Ketamine Metabolism by Cytochrome P450 2B6: In Vitro and Computational Approaches. Wang PF, Neiner A, Lane TR, Zorn KM, Ekins S, Kharasch ED. Mol Pharm 16 898-906 (2019)
  3. Structure-Function Analysis of Mammalian CYP2B Enzymes Using 7-Substituted Coumarin Derivatives as Probes: Utility of Crystal Structures and Molecular Modeling in Understanding Xenobiotic Metabolism. Shah MB, Liu J, Huo L, Zhang Q, Dearing MD, Wilderman PR, Szklarz GD, Stout CD, Halpert JR. Mol Pharmacol 89 435-445 (2016)
  4. Inactivation of CYP2A6 by the Dietary Phenylpropanoid trans-Cinnamic Aldehyde (Cinnamaldehyde) and Estimation of Interactions with Nicotine and Letrozole. Chan J, Oshiro T, Thomas S, Higa A, Black S, Todorovic A, Elbarbry F, Harrelson JP. Drug Metab Dispos 44 534-543 (2016)
  5. Identification of novel natural inhibitors of Opisthorchis felineus cytochrome P450 using structure-based screening and molecular dynamic simulation. Shukla R, Chetri PB, Sonkar A, Pakharukova MY, Mordvinov VA, Tripathi T. J Biomol Struct Dyn 36 3541-3556 (2018)
  6. Insights into the Genetic Variations of Human Cytochrome P450 2C9: Structural Analysis, Characterization and Comparison. Parikh SJ, Kamat S, Phillips M, Boyson SP, Yarbrough T, Davie D, Zhang Q, Glass KC, Shah MB. Int J Mol Sci 22 10206 (2021)
  7. Role of cytochrome P450 2B sequence variation and gene copy number in facilitating dietary specialization in mammalian herbivores. Kitanovic S, Orr TJ, Spalink D, Cocke GB, Schramm K, Wilderman PR, Halpert JR, Dearing MD. Mol Ecol 27 723-736 (2018)
  8. Specificity and mechanism of carbohydrate demethylation by cytochrome P450 monooxygenases. Robb CS, Reisky L, Bornscheuer UT, Hehemann JH. Biochem J 475 3875-3886 (2018)
  9. Structure of Cytochrome P450 2C9*2 in Complex with Losartan: Insights into the Effect of Genetic Polymorphism. Parikh SJ, Evans CM, Obi JO, Zhang Q, Maekawa K, Glass KC, Shah MB. Mol Pharmacol 98 529-539 (2020)
  10. Structure-Activity Studies Reveal the Oxazinone Ring Is a Determinant of Cytochrome P450 2B6 Activity Toward Efavirenz. Cox PM, Bumpus NN. ACS Med Chem Lett 5 1156-1161 (2014)
  11. Effect of detergent binding on cytochrome P450 2B4 structure as analyzed by X-ray crystallography and deuterium-exchange mass spectrometry. Shah MB, Jang HH, Wilderman PR, Lee D, Li S, Zhang Q, Stout CD, Halpert JR. Biophys Chem 216 1-8 (2016)
  12. Functional importance of a peripheral pocket in mammalian cytochrome P450 2B enzymes. Jang HH, Liu J, Lee GY, Halpert JR, Wilderman PR. Arch Biochem Biophys 584 61-69 (2015)


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