@article {Paulis:November 2004:0033-3158:146,
	author = "Paulis, Tomas",
	author = "Commers, Patricia",
	author = "Farah, Adriana",
	author = "Zhao, Jiali",
	author = "McDonald, Michael",
	author = "Galici, Ruggero",
	author = "Martin, Peter",
	title = "4-Caffeoyl-1,5-quinide in roasted coffee inhibits [3H]naloxone binding and reverses anti-nociceptive effects of morphine in mice",
	journal = "Psychopharmacology",
	volume = "176",
	year = "November 2004",
	abstract = "Cinnamoylquinides are formed from the corresponding chlorogenic acids during coffee roasting. Instant coffee has been shown to displace binding of the mu opioid receptor antagonist, [<SUP>3</SUP>H]naloxone, but the putative active agent, feruloylquinide, has not been characterized.<P></P>The goal was to identify the active agent(s) in coffee by measuring the binding affinity of individual cinnamoyl-1,5-quinides to the human mu opioid receptor, and determine the effects of these compounds on morphine-induced anti-nociceptive behavior in mice.<P></P>Cinnamoyl-1,5-quinides in extracts of decaffeinated instant coffee were quantified by reverse-phase HPLC comparisons with synthetic samples of 3-coumaroyl-1,5-quinide and 4-coumaroyl-1,5-quinide, 3-caffeoyl-1,5-quinide and 4-caffeoyl-1,5-quinide (4-CQL) 3-feruloyl-1,5-quinide and 4-feruloyl-1,5-quinides and 3,4-dicaffeoyl-1,5-quinide (DICAQ). Affinities of the cinnamoyl-1,5-quinides and decaffeinated instant coffee extract were determined by displacement of [<SUP>3</SUP>H]naloxone binding in cultured HEK-MOR cells. Inhibition of the anti-nociceptive activity of morphine (1&#160;mg/kg IP) was determined in C57BL/6J mice using the hot plate test at 52&#176;C.<P></P>Extract of decaffeinated instant coffee produced a displacement <I>K</I> <SUB>i</SUB> of 42&#177;16&#160;mg/l, while the <I>K</I> <SUB>i</SUB> of a synthetic sample of 4-CQL was 4.4&#177;0.4&#160;&#956;M. Compounds with a cinnamoyl substituent in the 4-position of the quinide, i.e. 4-CQL, DICAQ, 3,4-diferuloyl-1,5-quinide, and 3,4-dicoumaroyl-1,5-quinide, had affinities for the mu opioid receptor in the low micromolar range. In the hot plate test, coffee extract, containing 0.78% of 4-CQL, reversed the anti-nociceptive effect of morphine at 10&#160;mg/kg IP. Two cinnamoyl-1,5-quinides found in roasted coffee, DICAQ, and 4-CQL, were active at 1 and 0.1&#160;mg/kg IP, respectively.<P></P>These results suggest that the previously reported anti-opioid activity of instant coffee is caused primarily by the presence of 4-CQL, and to lesser extent by other cinnamoyl-1,5-quinides.",
	pages = "146-153(8)",
	url = "http://www.ingentaconnect.com/content/klu/213/2004/00000176/00000002/art00005"
	doi = "doi:10.1007/s00213-004-1876-9"
}