Piperine

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Short description: Alkaloid responsible for the pungency of black pepper
Piperine
Piperin.svg
Piperine crystals.jpg
Names
Preferred IUPAC name
(2E,4E)-5-(2H-1,3-Benzodioxol-5-yl)-1-(piperidin-1-yl)penta-2,4-dien-1-one
Other names
(2E,4E)-5-(Benzo[d][1,3]dioxol-5-yl)-1-(piperidin-1-yl)penta-2,4-dien-1-one
Piperoylpiperidine
Bioperine
Identifiers
3D model (JSmol)
ChEBI
ChEMBL
ChemSpider
UNII
Properties
C17H19NO3
Molar mass 285.343 g·mol−1
Density 1.193 g/cm3
Melting point 130 °C (266 °F; 403 K)
Boiling point Decomposes
40 mg/l
Solubility in ethanol soluble
Solubility in chloroform 1 g/1.7 ml
Hazards
Safety data sheet MSDS for piperine
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references
Piperine
Scoville scale150,000[1] SHU

Piperine, possibly along with its isomer chavicine,[2] is the compound[3] responsible for the pungency of black pepper and long pepper. It has been used in some forms of traditional medicine.[4]

Preparation

Due to its poor solubility in water, piperine is typically extracted from black pepper by using organic solvents like dichloromethane.[5] The amount of piperine varies from 1–2% in long pepper, to 5–10% in commercial white and black peppers.[6][7]

Piperine can also be prepared by treating the solvent-free residue from a concentrated alcoholic extract of black pepper with a solution of potassium hydroxide to remove resin (said to contain chavicine, an isomer of piperine).[7] The solution is decanted from the insoluble residue and left to stand overnight in alcohol. During this period, the alkaloid slowly crystallizes from the solution.[8]

Piperine has been synthesized by the action of piperonoyl chloride on piperidine.[7]

Reactions

Piperine forms salts only with strong acids. The platinichloride B4·H2PtCl6 forms orange-red needles ("B" denotes one mole of the alkaloid base in this and the following formula). Iodine in potassium iodide added to an alcoholic solution of the base in the presence of a little hydrochloric acid gives a characteristic periodide, B2·HI·I2, crystallizing in steel-blue needles with melting point 145 °C.[7]

Piperine can be hydrolyzed by an alkali into piperidine and piperic acid.[7]

In light, especially ultra-violet light, piperine is changed into its isomers chavicine, isochavicine and isopiperine, which are tasteless.[9][2]

History

Piperine was discovered in 1819 by Hans Christian Ørsted, who isolated it from the fruits of Piper nigrum, the source plant of both black and white pepper.[10] Piperine was also found in Piper longum and Piper officinarum (Miq.) C. DC. (=Piper retrofractum Vahl), two species called "long pepper".[11]

Biochemistry and medicinal aspects

A component of pungency by piperine results from activation of the heat- and acidity-sensing transient receptor potential channel ion channels, TRPV1 and TRPA1, on nociceptors, the pain-sensing nerve cells.[12] Piperine is under preliminary research for its potential to affect bioavailability of other compounds in food and dietary supplements, such as a possible effect on the bioavailability of curcumin.[13]

See also

References

  1. Mangathayaru, K. (2013) (in en). Pharmacognosy: An Indian perspective. Pearson Education India. pp. 274. ISBN 9789332520264. https://books.google.com/books?id=2UQ8BAAAQBAJ. 
  2. 2.0 2.1 De Cleyn, R; Verzele, M (1972). "Constituents of peppers. I Qualitative Analysis of Piperine Isomers". Chromatografia 5: 346–350. doi:10.1007/BF02315254. https://www.chm.bris.ac.uk/sillymolecules/chavicine.pdf. Retrieved 26 September 2023. 
  3. An Encyclopedia of Chemicals, Drugs, and Biologicals (11th ed.), Merck, 1989, p. 7442, ISBN 091191028X 
  4. Srinivasan, K. (2007). "Black pepper and its pungent principle-piperine: A review of diverse physiological effects". Critical Reviews in Food Science and Nutrition 47 (8): 735–748. doi:10.1080/10408390601062054. PMID 17987447. 
  5. Epstein, William W.; Netz, David F.; Seidel, Jimmy L. (1993). "Isolation of Piperine from Black Pepper". J. Chem. Educ. 70 (7): 598. doi:10.1021/ed070p598. Bibcode1993JChEd..70..598E. 
  6. "Pepper". http://www.tis-gdv.de/tis_e/ware/gewuerze/pfeffer/pfeffer.htm#selbsterhitzung. 
  7. 7.0 7.1 7.2 7.3 7.4 Henry, Thomas Anderson (1949). The Plant Alkaloids (4th ed.). The Blakiston Company. p. 1-2. 
  8. Ikan, Raphael (1991). Natural Products: A Laboratory Guide (2nd ed.). San Diego, CA: Academic Press. pp. 223–224. ISBN 0123705517. https://books.google.com/books?id=B7P8HQimBAIC&q=Natural+Products%3A+A+Laboratory+Guide+2nd+Ed.. 
  9. Kozukue, Nobuyuki; Park, Mal-Sun; others, and 5 (2007). "Kinetics of Light-Induced Cis−Trans Isomerization of Four Piperines and Their Levels in Ground Black Peppers as Determined by HPLC and LC/MS". J. Agric. Food Chem. 55 (17): 7131–7139. doi:10.1021/jf070831p. PMID 17661483. https://doi.org/10.1021/jf070831p. Retrieved 26 September 2023. 
  10. Ørsted, Hans Christian (1820). "Über das Piperin, ein neues Pflanzenalkaloid" (in de). Schweiggers Journal für Chemie und Physik 29 (1): 80–82. https://books.google.com/books?id=k-M4AAAAMAAJ&pg=PA80. 
  11. Friedrich A. Fluckiger; Daniel Hanbury (1879). Pharmacographia : a History of the Principal Drugs of Vegetable Origin, Met with in Great Britain and British India. London: Macmillan. p. 584. https://archive.org/details/pharmacographia01hanbgoog. 
  12. McNamara, F. N.; Randall, A.; Gunthorpe, M. J. (March 2005). "Effects of piperine, the pungent component of black pepper, at the human vanilloid receptor (TRPV1)". British Journal of Pharmacology 144 (6): 781–790. doi:10.1038/sj.bjp.0706040. PMID 15685214. 
  13. Kunnumakkara, A. B.; Bordoloi, D.; Padmavathi, G.; Monisha, J.; Roy, N. K.; Prasad, S.; Aggarwal, B. B. (2017). "Curcumin, the Golden Nutraceutical: Multitargeting for Multiple Chronic Diseases". British Journal of Pharmacology 174 (11): 1325–1348. doi:10.1111/bph.13621. PMID 27638428. 




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