Piperine

Template:Short description Template:Distinguish Template:Chembox Template:Infobox pepper Piperine, possibly along with its isomer chavicine,<ref name="De_Cleyn&Verzele1972" /> is the compound<ref>Template:Merck11th</ref> responsible for the pungency of black pepper and long pepper via activation of TRPV1.<ref>Template:Cite journal</ref> It has been used in some forms of traditional medicine.<ref>Template:Cite journal</ref>

PreparationEdit

ExtractionEdit

Due to its poor solubility in water, piperine is typically extracted from black pepper by using organic solvents like dichloromethane<ref>Template:Cite journal</ref> or ethanol.<ref>Template:Cite journal</ref> The amount of piperine varies from 1–2% in long pepper, to 5–10% in commercial white and black peppers.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="henry">Template:Cite book</ref>

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).<ref name=henry /> 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.<ref>Template:Cite book</ref>

Chemical synthesisEdit

Piperine has been synthesized by the action of piperonoyl chloride on piperidine.<ref name=henry />

BiosynthesisEdit

The biosynthesis of piperine is only partially known.<ref name="Schnabel21">Template:Cite journal</ref>

• The last step is catalyzed by piperine synthase (piperoyl-CoA:piperidine piperoyl transferase). As suggested by its systematic name, it converts piperoyl-CoA and piperidine into piperine.
• Piperoyl-CoA is made by piperoyl-CoA ligase from piperic acid, which is in turn made from feruperic acid by CYP719A37.
• Feruperic acid is presumably made from ferulic acid. Piperine is presumably made from lysine.

In addition to piperine synthase PipBAHD2, there is an orthologous enzyme with broader substract specificity in Piper nigrum with gene symbol PipBAHD1, called a "piperamide synthase". This other enzyme is responsible for the many piperamide compounds (see <ref>Template:Cite journal</ref>) besides piperine found in black pepper. Both enzymes are BAHD acyltransferases.<ref name="Schnabel21"/>

ReactionsEdit

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.<ref name=henry />

Piperine can be hydrolyzed by an alkali into piperidine and piperic acid.<ref name=henry />

In light, especially ultraviolet light, piperine is changed into its isomers chavicine, isochavicine and isopiperine, which are tasteless.<ref name="Kozukue_et_al_2007">Template:Cite journal</ref><ref name="De_Cleyn&Verzele1972">Template:Cite journal</ref>

HistoryEdit

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.<ref>Template:Cite journal</ref> Piperine was also found in Piper longum and Piper officinarum (Miq.) C. DC. (=Piper retrofractum Vahl), two species called "long pepper".<ref>Template:Cite book</ref>

UsesEdit

Piperine is widely used in the supplements industry for its effect on enhancing absorption and bioavailability of other compounds such as curcumin,<ref>Template:Cite journal</ref> resveratrol, ashwaganda, amino acids, vitamins and several minerals including selenium. It has been reported to inhibit several enzymes that participate in xenobiotic metabolism, including CYP3A4, P-gp,<ref>Template:Cite journal</ref> UDP-glucose 6-dehydrogenase, and glucuronosyltransferase.<ref>Template:Cite journal</ref> The last two activities (inhibition of glucuronidation) are most relevant for curcumin.<ref>Template:Cite journal</ref>

See alsoEdit

• Piperidine, a cyclic six-membered amine that results from hydrolysis of piperine
• Piperic acid, the carboxylic acid also derived from hydrolysis of piperine
• Capsaicin, the active piquant chemical in chili peppers
• Allyl isothiocyanate, the active piquant chemical in mustard, radishes, horseradish, and wasabi
• Allicin, the active piquant flavor chemical in raw garlic and onions (see those articles for discussion of other chemicals in them relating to pungency, and eye irritation)
• Ilepcimide
• Piperlongumine

ReferencesEdit

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