Mead acid - Misplaced Pages

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Mead acid
Names

IUPAC name (5Z,8Z,11Z)-Eicosa-5,8,11-trienoic acid
Identifiers
CAS Number	20590-32-3
3D model (JSmol)	Interactive image
PubChem CID	5312531
CompTox Dashboard (EPA)	DTXSID10920487
SMILES CCCCCCCCC=CCC=CCC=CCCCC(=O)O
Properties
Chemical formula	C₂₀H₃₄O₂
Molar mass	306.48276
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). Y verify (what is ?) Infobox references

Chemical compound

Mead acid is an omega-9 fatty acid, first characterized by James F. Mead.. Like some other omega-9 polyunsaturated fatty acids animals can make Mead acid de novo. Its elevated presence in the blood is an indication of essential fatty acid deficiency. Mead acid is found in large quantities in cartilage.

Chemistry

Chemically, Mead acid is a carboxylic acid with a 20-carbon chain and three methylene-interrupted cis double bonds. The first double bond is located at the ninth carbon from the omega end. In physiological literature, it is given the name 20:3(n-9). See Fatty Acid#Nomenclature for an explanation of the naming system. In the presence of lipoxygenase, cytochrome p450 or cyclooxygenase Mead acid can form various hydroxy (HETE) and hydoperoxy (HpETE) products .

Physiology

Two fatty acids, linoleic acid and alpha-linolenic acid, are considered essential in humans and other mammals. Both are 18 carbon fatty acids unlike mead acid, which has 20 carbons. Linoleic is an ω-6 fatty acid whereas linolenic is ω-3 and mead is ω-9.

Under severe conditions of essential fatty acid deprivation, mammals will elongate and desaturate oleic acid to make mead acid, (20:3, n−9). This also occurs to a lesser extent in vegetarians and semi-vegetarians.

One study examined patients with intestinal fat malabsorption and suspected EFA deficiency. They were found to have blood-levels of Mead acid 1263% higher than reference subjects.

Role in inflammation

Prostaglandin H synthases (also known as COX) are enzymes known to play a large role in inflammatory processes through oxidation of unsaturated fatty acids. Most notably, the formation of Prostaglandin H2 from arachidonic acid which is very similar in structure to mead acid. When physiological levels of arachidonic acid are low, other unsaturated fatty acids including mead and linoleic acid are oxidized by COX.

Mead acid is also converted to Leukotrienes C3 and D3.

References

Mary Enig (Spring, 2005). "A Reply to Ray Peat on Essential Fatty Acid Deficiency". Wise Traditions in Food, Farming and the Healing Arts. Archived from the original on 2007-10-07. Retrieved 2007-10-22. {{cite journal}}: Check date values in: |year= (help)CS1 maint: year (link)
Cyberlipid Center. "PROSTAGLANDINS AND RELATED COMPOUNDS". Retrieved 2007-10-24.
Lipomics. "Mead acid". Retrieved February 14, 2006.
Phinney, SD, RS Odin, SB Johnson and RT Holman (1990). "Reduced arachidonate in serum phospholipids and cholesteryl esters associated with vegetarian diets in humans". Retrieved February 11, 2006.{{cite web}}: CS1 maint: multiple names: authors list (link)
Gerard Hornstra (2007). "Essential Polyunsaturated Fatty Acids and Early Human Development". Fats of Life Newsletter. Archived from the original ( – ) on 2008-06-07. Retrieved 2007-10-23. {{cite journal}}: External link in |format= (help); Unknown parameter |month= ignored (help)
EN Siguel, KM Chee, JX Gong and EJ Schaefer (October 1, 1987). "Criteria for essential fatty acid deficiency in plasma as assessed by capillary column gas-liquid chromatography". Clinical Chemistry. 33 (10): 1869–1873. PMID 3665042. Retrieved 2007-10-24.{{cite journal}}: CS1 maint: multiple names: authors list (link)
, Conversion of 5,8,11-Eicosatrienoic Acidt o Leukotrienes C3 and D3 Journal of Biological Chemistry (1981) vol. 256, p. 2275

v t e Lipids: fatty acids
Saturated	Propionic (C3) Butyric (C4) Valeric (C5) Caproic (C6) Enanthic (C7) Caprylic (C8) Pelargonic (C9) Capric (C10) Undecylic (C11) Lauric (C12) Tridecylic (C13) Myristic (C14) Pentadecylic (C15) Palmitic (C16) Margaric (C17) Stearic (C18) Nonadecylic (C19) Arachidic (C20) Heneicosylic (C21) Behenic (C22) Tricosylic (C23) Lignoceric (C24) Pentacosylic (C25) Cerotic (C26) Carboceric (C27) Montanic (C28) Nonacosylic (C29) Melissic (C30) Hentriacontylic (C31) Lacceroic (C32) Psyllic (C33) Geddic (C34) Ceroplastic (C35) Hexatriacontylic (C36) Heptatriacontanoic (C37) Octatriacontanoic (C38) Nonatriacontanoic (C39) Tetracontanoic (C40)
ω−3 Unsaturated	Octenoic (8:1) Decenoic (10:1) Decadienoic (10:2) Lauroleic (12:1) Laurolinoleic (12:2) Myristovaccenic (14:1) Myristolinoleic (14:2) Myristolinolenic (14:3) Palmitolinolenic (16:3) Palmitidonic (16:4) α-Linolenic (18:3) Stearidonic (18:4) α-Parinaric (18:4) Dihomo-α-linolenic (20:3) Eicosatetraenoic (20:4) Eicosapentaenoic (20:5) Clupanodonic (22:5) Docosahexaenoic (22:6) 9,12,15,18,21-Tetracosapentaenoic (24:5) 6,9,12,15,18,21-Tetracosahexaenoic (24:6)
ω−5 Unsaturated	Myristoleic (14:1) Palmitovaccenic (16:1) α-Eleostearic (18:3) β-Eleostearic (trans-18:3) Punicic (18:3) 7,10,13-Octadecatrienoic (18:3) 9,12,15-Eicosatrienoic (20:3) β-Eicosatetraenoic (20:4)
ω−6 Unsaturated	8-Tetradecenoic (14:1) 12-Octadecenoic (18:1) Linoleic (18:2) Linolelaidic (trans-18:2) γ-Linolenic (18:3) Calendic (18:3) Pinolenic (18:3) Dihomo-linoleic (20:2) Dihomo-γ-linolenic (20:3) Sciadonic (20:3) Arachidonic (20:4) Adrenic (22:4) Osbond (22:5)
ω−7 Unsaturated	Palmitoleic (16:1) Vaccenic (18:1) Rumenic (18:2) Paullinic (20:1) 7,10,13-Eicosatrienoic (20:3)
ω−9 Unsaturated	Oleic (18:1) Elaidic (trans-18:1) Gondoic (20:1) Erucic (22:1) Nervonic (24:1) 8,11-Eicosadienoic (20:2) Mead (20:3)
ω−10 Unsaturated	Sapienic (16:1)
ω−11 Unsaturated	Gadoleic (20:1)
ω−12 Unsaturated	4-Hexadecenoic (16:1) Petroselinic (18:1) 8-Eicosenoic (20:1)

Category:

Fatty acids

Chemistry

Physiology

Role in inflammation

See also

References