Lupulone

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Lupulone

Lupulone chemical structure
Names
IUPAC name
3,5-Dihydroxy-2,6,6-tris(3-methylbuten-2-yl)-4-(3-methyl-1-oxobutyl)cyclohexa-2,4-dien-1-one [1]
Identifiers
3D model (
JSmol
)
6983327
ChEBI
ChEMBL
ChemSpider
ECHA InfoCard
 100.006.734 Edit this at Wikidata
EC Number
  • 207-405-3
KEGG
RTECS number
  • OK5950000
UNII
  • InChI=1S/C26H38O4/c1-16(2)9-10-20-23(28)22(21(27)15-19(7)8)25(30)26(24(20)29,13-11-17(3)4)14-12-18(5)6/h9,11-12,19,28,30H,10,13-15H2,1-8H3
    Key: WPVSVIXDXMNGGN-UHFFFAOYSA-N[2]
  • O=C1C(/C\C=C(/C)C)=C(/O)\C(=C(\O)C1(C\C=C(/C)C)C\C=C(/C)C)C(=O)CC(C)C
Properties
C26H38O4
Molar mass 414.586 g·mol−1
Melting point 92–94 °C (198–201 °F; 365–367 K)
Boiling point 498 °C (928 °F; 771 K)
Insoluble
Acidity (pKa) 4.20
Hazards
NFPA 704 (fire diamond)
NFPA 704 four-colored diamondHealth 1: Exposure would cause irritation but only minor residual injury. E.g. turpentineFlammability 2: Must be moderately heated or exposed to relatively high ambient temperature before ignition can occur. Flash point between 38 and 93 °C (100 and 200 °F). E.g. diesel fuelInstability 0: Normally stable, even under fire exposure conditions, and is not reactive with water. E.g. liquid nitrogenSpecial hazards (white): no code
1
2
0
Flash point 269°C
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Lupulone is an organic chemical compound with the

antibacterial and anti-cancer abilities of lupulone.[3]

History

Since lupulone is found as a component of hops, the history of the compound can be traced back to 736 AD in southern Germany where hops plant were first cultivated. The commercial production of using lupulone in brewing was not until 1079 AD. The reason that lupulone was not utilized in beer brewing earlier on may be due to the fact that the hops plants has a bitter taste. However, brewers began to realize that beta acids of hops provided very little bitterness to the beer. Eventually, hops brewing with the use of lupulone made its way to the United States about 6 centuries later in 1629 after England introduced it.[4]

Synthesis

A synthesis pathway of lupulone involves the alkenylation of 2-acylcyclohexane-1, 3, 5-triones with bromides and liquid ammonia in ether as a base, which yields 4,6,6-trialkenyl derivatives (β-acids)[5]

Lupulones are hops β-acids, which are one the main ingredients of hops resin. Hops are important for beer brewing because they provides the unique bitter taste, smell and foam stability of beer. More importantly, lupulones are a natural alternative to antibiotics for bioethanol production. The problem with lupulone is that it oxidizes easily, resulting in the loss of its antimicrobial activity. Lupulones are very reactive with 1-hydroxyethyl radicals, as shown by the free energy change for an electron-transfer reaction. 1-hydroxyethyl is a major radical species formed during beer brewing. The major products of this reaction were hydroxylated lupulone derivatives and 1-hydroxylethyl radicals. These results suggest that the prenyl side chains of hops β-acids are the reaction centers.[6][3]

Lupulone synthesis

Reactions

Lupolones are very reactive towards the 1-hydroxyethyl

hydrophobic interactions of prenyl groups present in a α- and β-acid structure with the bacterial cell walls.[6]

Uses

Derived from the cones of the female hop plant, lupulone is otherwise called a β-acid that contributes to the overall bitter flavor and aroma of beer along with α-acids. Both acids of the hops plant are added as the malted barley is boiled in water. This boiling process causes the bitter α-acids to go through thermal isomerization to form the extremely bitter taste of iso-α-acids. The β-acids, in this case lupulone, are oxidized during the boiling process to create products that also influence the taste and aroma of the beer but not as to a great extent as the α-acids. The bitterness of a brew greatly depends on the concentration of the α and β-acids, the amount of hops used and the length of time spent boiling.[7]

Lupulone also has an ability to control bacterial growth and be used in antibiotics. In past studies, lupulone has been shown to be important in controlling the growth of the bacteria Lactobacillus during fermentation as well as an antibiotic alternative in chickens. The antibiotic made from lupulone worked by inhibiting gastrointestinal levels of inoculated pathogenic clostridia within the chicken gastrointestinal tract. Lastly, lupulone has a rising use in antibiotics in the food industry as well as in bioethanol production.[6]

Another use of lupulone is its calming abilities in drugs. Studies show that extracts from the hop plant, Humulus lupulus, are now being used a phytomedicines in restlessness, sleep disorders and tenseness. The lupulone is combined with herbal drugs and passion flower to be used as sedating drugs.[8]

Lupulone has also been evaluated for anticancer activity against two specific

keto-enol tautomerism. This limits the production of derivatives of lupulone since it is difficult to work with natural lupulone.[3]

In a somewhat similar study, lupulone was tested for its chemopreventive effects on a model of colon cancer. SW620 is a human metastatic colon carcinoma-derived cell line. After 48 hours of being exposed to lupulone, SW260 cell growth was inhibited by 70%. The expression of molecules that induce apoptosis were also up-regulated by lupulones. It was observed that lupulone resulted in an increase in mitochondrial membrane permeability. In an experiment where rats were treated with lupulones in their drinking water, there was a 70-80% reduction in the total number of tumors in the colon of the rats when compared to the control group. Since lupulones induced apoptosis in SW620 colon metastatic cells, it could possibly be a way to treat colon cancer.[9]

References

  1. ^ http://ull.chemistry.uakron.edu/erd/Chemicals/26000/24364.html
  2. ^ "Lupulone | C26H38O4 | ChemSpider".
  3. ^
    doi:10.1016/j.phytol.2011.11.011
    .
  4. ^ http://www.hopunion.com/14_Hops.cfm?p3=open
  5. doi:10.1039/J39710003814
    .
  6. ^
    PMID 23031058
    .
  7. ^ Pyle, N. Norm Pyle’s Hop FAQ. http://realbeer.com/hops/FAQ.html (accessed 1-3-07). 4 Harris, D.C. Quantitative Chemical Analysis ,6th Edition; W.H. Freeman and Co.: New York, 2003: pp 734-739.
  8. PMID 16860977
    .
  9. PMID 17434926
    .
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