Implausibility of the vibrational theory of olfaction.

[en] The vibrational theory of olfaction assumes that electron transfer occurs across odorants at the active sites of odorant receptors (ORs), serving as a sensitive measure of odorant vibrational frequencies, ultimately leading to olfactory perception. A previous study reported that human subjects differentiated hydrogen/deuterium isotopomers (isomers with isotopic atoms) of the musk compound cyclopentadecanone as evidence supporting the theory. Here, we find no evidence for such differentiation at the molecular level. In fact, we find that the human musk-recognizing receptor, OR5AN1, identified using a heterologous OR expression system and robustly responding to cyclopentadecanone and muscone, fails to distinguish isotopomers of these compounds in vitro. Furthermore, the mouse (methylthio)methanethiol-recognizing receptor, MOR244-3, as well as other selected human and mouse ORs, responded similarly to normal, deuterated, and 13C isotopomers of their respective ligands, paralleling our results with the musk receptor OR5AN1. These findings suggest that the proposed vibration theory does not apply to the human musk receptor OR5AN1, mouse thiol receptor MOR244-3, or other ORs examined. Also, contrary to the vibration theory predictions, muscone-d30 lacks the 1,380- to 1,550-cm-1 IR bands claimed to be essential for musk odor. Furthermore, our theoretical analysis shows that the proposed electron transfer mechanism of the vibrational frequencies of odorants could be easily suppressed by quantum effects of nonodorant molecular vibrational modes. These and other concerns about electron transfer at ORs, together with our extensive experimental data, argue against the plausibility of the vibration theory.

Disciplines :

Biochemistry, biophysics & molecular biology
Chemistry

Author, co-author :

Block, Eric; State University of New York at Albany > Chemistry

Jang, Seogjoo

Matsunami, Hiroaki

Sekharan, Sivakumar

DETHIER, Bérénice ; State University of New York at Albany > Chemistry

Ertem, Mehmed Z.

Gundala, Sivaji; State University of New York at Albany > Chemistry

Pan, Yi

Li, Shengju

Li, Zhen

More authors (6 more)

Language :

English

Title :

Implausibility of the vibrational theory of olfaction.

Publication date :

2015

Journal title :

Proceedings of the National Academy of Sciences of the United States of America

ISSN :

0027-8424

eISSN :

1091-6490

Publisher :

National Academy of Sciences, Washington, United States - District of Columbia

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 13 May 2015

Statistics

Number of views

80 (3 by ULiège)

Number of downloads

0 (0 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

Bibliography

Ogle W (1870) Anosmia, or cases illustrating the physiology and pathology of the sense of smell. Med Chir Trans 53:263-290.
Sell CS (2014) Chemistry and the Sense of Smell (Wiley, Hoboken, NJ).
Moncrieff RW (1967) The Chemical Senses (Leonard Hill, London), 3^rd Ed.
Dyson GM (1938) The scientific basis of odor. Chem Ind 57(28):647-651.
Dyson GM (1928) Some aspects of the vibration theory of odor. Perfumery and Essential Oil Record 19:456-459.
Wright RH, Reid C, Evans HGV (1956) Odor and molecular vibration. III. A new theory of olfactory stimulation. Chem Ind (37):973-977.
Wright RH (1977) Odor and molecular vibration: Neural coding of olfactory information. J Theor Biol 64(3):473-502.
Wright RH (1961) Odour and molecular vibration. Nature 190(4781):1101-1102.
Turin L (1996) A spectroscopic mechanism for primary olfactory reception. Chem Senses 21(6):773-791.
Turin L (1997) The nose as spectroscopist. Chem Ind (21):866-870.
Burr C (2002) The Emperor of Scent: A Story of Perfume, Obsession, and the Last Mystery of the Senses (Random House, New York).
Gilbert AN (2003) The emperor's new theory. Nat Neurosci 6(4):335.
Wolf EL (1985) Principles of Electronic Tunneling Spectroscopy (Oxford Univ Press, New York).
Gane S, et al. (2013) Molecular vibration-sensing component in human olfaction. PLoS ONE 8(1):e55780.
Duan X, et al. (2012) Crucial role of copper in detection of metal-coordinating odorants. Proc Natl Acad Sci USA 109(9):3492-3497.
Sekharan S, et al. (2014) QM/MM model of the mouse olfactory receptor MOR244-3 validated by site-directed mutagenesis experiments. Biophys J 107(5):L5-L8.
Franco MI, Turin L, Mershin A, Skoulakis EMC (2011) Reply to Hettinger: Olfaction is a physical and a chemical sense in Drosophila. Proc Natl Acad Sci USA 108(31):E350 (lett).
Hettinger TP (2011) Olfaction is a chemical sense, not a spectral sense. Proc Natl Acad Sci USA 108(31):E349 (lett).
Wade D (1999) Deuterium isotope effects on noncovalent interactions between molecules. Chem Biol Interact 117(3):191-217.
Schramm VL (2007) Binding isotope effects: Boon and bane. Curr Opin Chem Biol 11(5):529-536.
Pauling L, Delbrück M (1940) The nature of the intermolecular forces operative in biological processes. Science 92(2378):77-79.
Turin L (2005) Rational odorant design. Chemistry and Technology of Flavors and Fragrances, ed Rowe DJ (Blackwell, Oxford), pp 261-273.
Rizvanovic A, Amundin M, Laska M (2013) Olfactory discrimination ability of Asian elephants (Elephas maximus) for structurally related odorants. Chem Senses 38(2):107-118.
Laska M, Shepherd GM (2007) Olfactory discrimination ability of CD-1 mice for a large array of enantiomers. Neuroscience 144(1):295-301.
Rubin BD, Katz LC (2001) Spatial coding of enantiomers in the rat olfactory bulb. Nat Neurosci 4(4):355-356.
Saito H, Chi Q, Zhuang H, Matsunami H, Mainland JD (2009) Odor coding by a Mammalian receptor repertoire. Sci Signal 2(60):ra9.
Shirasu M, et al. (2014) Olfactory receptor and neural pathway responsible for highly selective sensing of musk odors. Neuron 81(1):165-178.
Axel R (2005) Scents and sensibility: A molecular logic of olfactory perception (Nobel lecture). Angew Chem Int Ed Engl 44(38):6110-6127.
Buck LB (2005) Unraveling the sense of smell (Nobel lecture). Angew Chem Int Ed Engl 44(38):6128-6140.
Haffenden LJW, Yaylayan VA, Fortin J (2001) Investigation of vibrational theory of olfaction with variously labelled benzaldehydes. Food Chem 73(1):67-72.
Keller A, Vosshall LB (2004) A psychophysical test of the vibration theory of olfaction. Nat Neurosci 7(4):337-338.
Nagashima A, Touhara K (2010) Enzymatic conversion of odorants in nasal mucus affects olfactory glomerular activation patterns and odor perception. J Neurosci 30(48):16391-16398.
Raju VS, Sharma PK, Banerji KK (2000) Kinetics and mechanism of the oxidation of substituted benzaldehydes by benzyltrimethylammonium chlorobromate. J Org Chem 65(11):3322-3325.
Seok WK, Meyer TJ (2005) Mechanism of oxidation of benzaldehyde by polypyridyl oxo complexes of Ru(IV). Inorg Chem 44(11):3931-3941.
Turin L, Yoshii F (2003) Structure-odor relations: A modern perspective. Handbook of Olfaction and Gustation, ed Doty RL (Marcel Dekker, New York), pp 275-294.
Franco MI, Turin L, Mershin A, Skoulakis EM (2011) Molecular vibration-sensing component in Drosophila melanogaster olfaction. Proc Natl Acad Sci USA 108(9):3797-3802.
Bittner ER, Madalan A, Czader A, Roman G (2012) Quantum origins of molecular recognition and olfaction in Drosophila. J Chem Phys 137(22):22A551.
Gronenberg W, et al. (2014) Honeybees (Apis mellifera) learn to discriminate the smell of organic compounds from their respective deuterated isotopomers. Proc Biol Sci 281(1778):20133089.
Doolittle RE, Beroza M, Keiser I, Schneider EL (1968) Deuteration of the melon fly attractant, cue-lure, and its effect on olfactory response and infra-red absorption. J Insect Physiol 14(12):1697-1712.
Blum MS, Doolittle RE, Beroza M (1971) Alarm pheromones: Utilization in evaluation of olfactory theories. J Insect Physiol 17(12):2351-2361.
Barker RJ, Berdel RL, Waller GD (1973) The molecular basis for scent discrimination: Response to nitrobenzene-d5 of honey bees (Apis mellifera L.) conditioned with nitrobenzene. Experientia 29(4):418-419.
Klika KD (2013) The potential of 13C isotopomers as a test for the vibrational theory of olfactory sense recognition. ISRN Org Chem 2013:515810.
Brookes JC, Hartoutsiou F, Horsfield AP, Stoneham AM (2007) Could humans recognize odor by phonon assisted tunneling? Phys Rev Lett 98(3):038101.
Brookes JC (2010) Science is perception: What can our sense of smell tell us about ourselves and the world around us? Philos Trans A Math Phys Eng Sci 368(1924):3491-3502.
Brookes JC (2011) Olfaction: The physics of how smell works? Contemp Phys 52(5):385-402.
Brookes JC, Horsfield AP, Stoneham AM (2012) The swipe card model of odorant recognition. Sensors (Basel) 12(11):15709-15749.
Solov'yov IA, Chang PY, Schulten K (2012) Vibrationally assisted electron transfer mechanism of olfaction: Myth or reality? Phys Chem Chem Phys 14(40):13861-13871.
Winkler JR, Gray HB (2014) Long-range electron tunneling. J Am Chem Soc 136(8):2930-2939.
Maegawa T, et al. (2008) Mild and efficient H/D exchange of alkanes based on C-H activation catalyzed by rhodium on charcoal. Angew Chem Int Ed Engl 47(29):5394-5397.
Harding KE, May LM, Dick KF (1975) Selective oxidation of allylic alcohols with chromic acid. J Org Chem 40(11):1664-1665.
Wesslen B (1968) Aldol reactions of formaldehyde in non-aqueous media. 4. Mechanism of acid-catalyzed reaction of 2-butanone with formaldehyde. Acta Chem Scand 22(7):2085-2110.
Saito H, Kubota M, Roberts RW, Chi Q, Matsunami H (2004) RTP family members induce functional expression of mammalian odorant receptors. Cell 119(5):679-691.
Zhuang H, Matsunami H (2008) Evaluating cell-surface expression and measuring activation of mammalian odorant receptors in heterologous cells. Nat Protoc 3(9):1402-1413.
McClintock TS, et al. (2014) In vivo identification of eugenol-responsive and muscone-responsive mouse odorant receptors. J Neurosci 34(47):15669-15678.
Nara K, Saraiva LR, Ye X, Buck LB (2011) A large-scale analysis of odor coding in the olfactory epithelium. J Neurosci 31(25):9179-9191.
Morton TH (2000) Archiving odors. Of Molecules and Mind, eds Bhushan N, Rosenfeld S (Oxford Univ Press, Oxford), pp 251-272.
Schilling B, Kaiser R, Natsch A, Gautschi M (2010) Investigation of odors in the fragrance industry. Chemoecology 20:135-147.
Mozell MM (1970) Evidence for a chromatographic model of olfaction. J Gen Physiol 56(1):46-63.
Hahn I, Scherer PW, Mozell MM (1994) A mass transport model of olfaction. J Theor Biol 167(2):115-128.
Wilkes FJ, Laing DG, Hutchinson I, Jinks AL, Monteleone E (2009) Temporal processing of olfactory stimuli during retronasal perception. Behav Brain Res 200(1):68-75.
Turowski M, et al. (2003) Deuterium isotope effects on hydrophobic interactions: The importance of dispersion interactions in the hydrophobic phase. J Am Chem Soc 125(45):13836-13849.
Renz M, Meunier B (1999) 100 years of Baeyer-Villager oxidations. European J Org Chem 1999(4):737-750.
Zhuo X, et al. (1999) Biotransformation of coumarin by rodent and human cytochromes P-450: Metabolic basis of tissue-selective toxicity in olfactory mucosa of rats and mice. J Pharmacol Exp Ther 288(2):463-471.
Thiebaud N, et al. (2013) Odorant metabolism catalyzed by olfactory mucosal enzymes influences peripheral olfactory responses in rats. PLoS ONE 8(3):e59547.
Sharma R, et al. (2012) Deuterium isotope effects on drug pharmacokinetics. I. System-dependent effects of specific deuteration with aldehyde oxidase cleared drugs. Drug Metab Dispos 40(3):625-634.
Leggett AJ, et al. (1987) Dynamics of the dissipative two-state system. Rev Mod Phys 59(1):1-85.
Jortner J (1976) Temperature-dependent activation-energy for electron-transfer between biological molecules. J Chem Phys 64(12):4860-4867.
Marcus RA (1965) On theory of electron-transfer reactions. 6. Unified treatment for homogeneous and electrode reactions. J Chem Phys 43(2):679-701.
Moser CC, Keske JM, Warncke K, Farid RS, Dutton PL (1992) Nature of biological electron transfer. Nature 355(6363):796-802.
Gray HB, Winkler JR (1996) Electron transfer in proteins. Annu Rev Biochem 65:537-561.
Jia Y, et al. (1993) Primary charge separation in mutant reaction centers of Rhodo-bacter capsulatus. J Phys Chem 97(50):13180-13191.
Wang H, et al. (2007) Protein dynamics control the kinetics of initial electron transfer in photosynthesis. Science 316(5825):747-750.
Ulstrup J, Jortner J (1975) Effect of intramolecular quantum modes on free-energy relationships for electron-transfer reactions. J Chem Phys 63(10):4358-4368.
Jang S, Newton MD (2006) Closed-form expressions of quantum electron transfer rate based on the stationary-phase approximation. J Phys Chem B 110(38):18996-19003.
Jortner J (1999) Electron Transfer-From Isolated Molecules to Biomolecules, ed Bixon M (Wiley, Hoboken, NJ), Vol 106.
Venkataraman L, Klare JE, Nuckolls C, Hybertsen MS, Steigerwald ML (2006) Dependence of single-molecule junction conductance on molecular conformation. Nature 442(7105):904-907.
Medvedev ES, Stuchebrukhov AA (1997) Inelastic tunneling in long-distance biological electron transfer reactions. J Chem Phys 107(10):3821-3831.
Jang S, Newton MD (2005) Theory of torsional non-Condon electron transfer: A generalized spin-boson Hamiltonian and its nonadiabatic limit solution. J Chem Phys 122(2):024501.
Oka Y, et al. (2006) Odorant receptor map in the mouse olfactory bulb: In vivo sensitivity and specificity of receptor-defined glomeruli. Neuron 52(5):857-869.
Keller A, Zhuang H, Chi Q, Vosshall LB, Matsunami H (2007) Genetic variation in a human odorant receptor alters odour perception. Nature 449(7161):468-472.
Menashe I, et al. (2007) Genetic elucidation of human hyperosmia to isovaleric acid. PLoS Biol 5(11):e284.
Baud O, et al. (2011) The mouse eugenol odorant receptor: Structural and functional plasticity of a broadly tuned odorant binding pocket. Biochemistry 50(5):843-853.
Takane SY, Mitchell JB (2004) A structure-odour relationship study using EVA descriptors and hierarchical clustering. Org Biomol Chem 2(22):3250-3255.
Gabler S, Soelter J, Hussain T, Sachse S, Schmuker M (2013) Physicochemical vs. vibrational descriptors for prediction of odor receptor responses. Mol Inform 32(9-10):855-865.
Triller A, et al. (2008) Odorant-receptor interactions and odor percept: A chemical perspective. Chem Biodivers 5(6):862-886.