Abstract
The UV absorption and electronic circular dichroism (ECD) spectra of (R)- and (S)-nicotine and (S)-nornicotine in aqueous solution were measured to a significantly lower wavelength range than previously reported, allowing the identification of four previously unobserved electronic transitions. The ECD spectra of the two enantiomers of nicotine were equal in magnitude and opposite in sign, while the UV absorption spectra were coincidental. In line with previous observations, (S)-nicotine exhibited a negative cotton effect centered on 263 nm with vibronic structure (π–π1* transition) and a broad, positive ECD signal at around 240 nm associated with the n–π1* transition. As expected this band disappeared when the pyridyl aromatic moiety was protonated. Four further electronic transitions are reported between 215 and 180 nm; it is proposed the negative maxima around 206 nm is either an n–σ* transition or a charge transfer band resulting from the movement of charge from the pyrrolidyl N lone pair to the pyridyl π* orbital. The pyridyl π–π2* transition may be contained within the negative ECD signal envelope at around 200 nm. Another negative maximum at 188 nm is thought to be the pyridyl π–π3* transition, while the lowest wavelength end-absorption and positive ECD may be associated with the π–π4* transition. The UV absorption spectra of (S)-nornicotine was similar to that of (S)-nicotine in the range 280–220 nm and acidification of the aqueous solution enhanced the absorption. The ECD signals of (S)-nornicotine were considerably less intense compared to (S)-nicotine and declined further on acidification; in the far UV region the ECD spectra diverge considerably. Chirality 25:288–293, 2013. © 2013 Wiley Periodicals, Inc.
Highlights
Nornicotine (Fig. 1(C) is a secondary tobacco alkaloid produced by the enzymatic N-demethylation of nicotine.[6]
The amount of nornicotine [CAS 5746-86-1] present in tobacco is typically less than 5% of the total alkaloid content,[6] but in contrast to nicotine, nornicotine extracted from tobacco is racemic. 7
A recent examination into the antinociceptive properties of nornicotine enantiomers reported that the analgesic properties resided predominantly in the (S) isomer; in contrast various defined side effects were more pronounced with the (R)-enantiomer.[12]
Summary
The pyridine alkaloid nicotine, [1-methyl-2-(3-pyridyl) pyrrolidine], and its N-demethylated analogue, nornicotine, exists as two mirror image isomers or enantiomers (Fig. 1). (S)-(À)-nicotine [CAS 54-11-5] is the dominant isomer present in tobacco[1] (genus Nicotiana) and tobacco smoke.[2] (R)-(+)-nicotine [CAS 25162-00-9] is present in only small amounts (0.2 À 1%) in raw and processed tobacco,[1] while in tobacco smoke the prevalence of (R)-(+)-nicotine is higher and has been measured at 2–3% of the total amount of nicotine present.[2,3] The temperature-induced racemization of nicotine in a tobacco matrix has recently been explored,[4] while pure nicotine under conditions of open-tube pyrolysis exhibits considerable stereochemical stability with respect to temperature.[5]. The pyridine alkaloid nicotine, [1-methyl-2-(3-pyridyl) pyrrolidine], and its N-demethylated analogue, nornicotine, exists as two mirror image isomers or enantiomers (Fig. 1). 7. Nicotine has been reported to have numerous effects on the central nervous system[8] (CNS) and is notably an agonist at nicotinic acetylcholine receptors; (S)-(À)-nicotine is six times more potent at muscle-type nicotinic acetylcholine receptors compared to (R)-(+)-nicotine.[9] The stereochemical configuration of the carbon atom at the 2’ position of the pyrrolidine ring has an important impact on the biological activity of this alkaloid.[10]. A recent examination into the antinociceptive properties of nornicotine enantiomers reported that the analgesic properties resided predominantly in the (S) isomer; in contrast various defined side effects were more pronounced with the (R)-enantiomer.[12] An examination of the spectroscopic and chiroptical properties of the pyridine alkaloids is a valuable addition to the current state of knowledge
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