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Title: Phosphatidylcholine  
Author: World Heritage Encyclopedia
Language: English
Subject: Phospholipid, Citicoline, Phosphatidylethanolamine, Lecithin, Lipid bilayer
Collection: Phospholipids
Publisher: World Heritage Encyclopedia


Phosphatidylcholines (PC) are a class of phospholipids that incorporate choline as a headgroup. They are a major component of biological membranes and can be easily obtained from a variety of readily available sources, such as egg yolk or soybeans, from which they are mechanically or chemically extracted using hexane. They are also a member of the lecithin group of yellow-brownish fatty substances occurring in animal and plant tissues. Dipalmitoyl phosphatidylcholine (aka: lecithin) is a major component of pulmonary surfactant and is often used in the L/S ratio to calculate fetal lung maturity. While phosphatidylcholines are found in all plant and animal cells, they are absent in the membranes of most bacteria,[1] including Escherichia coli.[2] Purified phosphatidylcholine is produced commercially.

The name "lecithin" was originally defined from the Greek lekithos (λεκιθος, egg yolk) by Theodore Nicolas Gobley, a French chemist and pharmacist of the mid-19th century, who applied it to the egg yolk phosphatidylcholine that he identified in 1847. Gobley eventually completely described his lecithin from chemical structural point of view, in 1874. Phosphatidylcholines are such a major component of lecithin that in some contexts the terms are sometimes used as synonyms. However, lecithin extracts consist of a mixture of phosphatidylcholine and other compounds. It is also used along with sodium taurocholate for simulating fed- and fasted-state biorelevant media in dissolution studies of highly lipophilic drugs.

Phosphatidylcholine is a major constituent of cell membranes and pulmonary surfactant, and is more commonly found in the exoplasmic or outer leaflet of a cell membrane. It is thought to be transported between membranes within the cell by phosphatidylcholine transfer protein (PCTP).[3]

Phosphatidylcholine also plays a role in membrane-mediated cell signaling and PCTP activation of other enzymes.[4]


  • Structure and physical properties 1
  • Possible health benefits 2
    • Senescence 2.1
    • Liver repair 2.2
    • Lipolysis 2.3
    • Ulcerative colitis 2.4
  • Possible health risks 3
  • See also 4
  • Additional images 5
  • References 6
  • External links 7

Structure and physical properties

Palmitoyl-oleyl-sn-phosphatidylcholine, a phosphatidylcholine derivative

This phospholipid is composed of a choline head group and glycerophosphoric acid, with a variety of fatty acids. Usually, one is a saturated fatty acid (in the given figure, this can be palmitic or hexadecanoic acid, H3C-(CH2)14-COOH; margaric acid identified by Gobley in egg yolk, or heptadecanoic acid H3C-(CH2)15-COOH, also belong to that class); and the other is an unsaturated fatty acid (here oleic acid, or 9Z-octadecenoic acid, as in Gobley's original egg yolk lecithin). However, there are also examples of disaturated species. Animal lung phosphatidylcholine, for example, contains a high proportion of dipalmitoylphosphatidylcholine.[5]

Phospholipase D catalyzes the hydrolysis of phosphatidylcholine to form phosphatidic acid (PA), releasing the soluble choline headgroup into the cytosol.

Phosphatidylcholine is a neutral lipid, but it carries an electric dipole moment of about 10 D.[6] Vibrational dynamics of phosphatidylcholine and its hydration waters has been recently calculated from first principles.[7]

Possible health benefits


Phosphatidylcholine is a vital substance found in every cell of the human body. Thus, some researchers have used mutant mouse models with severe oxidative damage as a model of "accelerated aging" to investigate the possible role of phosphatidylcholine supplementation as a way of slowing down aging-related processes[8] and improving brain functioning and memory capacity in dementia.[9] However, a systematic review of clinical trials in humans found that there is not enough evidence to support lecithin or phosphatidylcholine supplementation for patients with dementia. The study does admit that a moderate benefit cannot be ruled out until further large scale studies are performed.[10]

Liver repair

Recent studies have examined potential benefits of phosphatidylcholine for liver repair. Results are mixed in animal models,[11] and no clinical evidence shows a health benefit in humans. One study shows the healing effect of phosphatidylcholine in mice with hepatitis A, hepatitis B, and hepatitis C. The administration of phosphatidylcholine for chronic, active hepatitis resulted in significant reduction of disease activity in mice.[12]


Some organizations promote the use of injected phosphatidylcholine, otherwise known as injection lipolysis, claiming the procedure can break down fat cells, and thus serve as an alternative to liposuction. While the procedure cites early experiments that showed lipolysis in cases of fat emboli,[13] no peer-reviewed studies have shown any amount of lipolysis even remotely comparable to liposuction.[14][15]

Ulcerative colitis

Phase IIa/b clinical trials performed at the Heidelberg University Hospital[16] have shown that delayed release purified phosphatidylcholine is an anti-inflammatory agent, and a surface hydrophobicity increasing compound with promising therapeutic potential in the treatment of inflammatory bowel disease.

Possible health risks

A report in 2011 has linked the microbial catabolites of phosphatidylcholine with increased atherosclerosis in mice through the production of choline, trimethylamine oxide, and betaine.[17]

See also

Additional images


  1. ^ Jackowski, Suzanne; Cronan, jr., John E.; Rock, Charles O. (1991). "Chapter 2: Lipid metabolism in procaryotes". In Vance, Dennis E.; Vance, J. Biochemistry of Lipids, Lipoproteins and Membranes. Elsevier. pp. 80–81.  
  2. ^ Chen F, Zhao Q, Cai X, Lv L, Lin W, Yu X, Li C, Li Y, Xiong M, Wang XG (November 2009). "Phosphatidylcholine in membrane of Escherichia coli changes bacterial antigenicity.". Can. J. Microbiol. 55 (11): 1328–34.  
  3. ^ Wirtz KW (July 1991). "Phospholipid transfer proteins.". Ann. Rev. Biochem. 60 (13): 73–99.  
  4. ^ Kanno K, Wu MK, Agate DA, Fanelli BK, Wagle N, Scapa EF, Ukomadu C, Cohen DE (October 2007). "Interacting proteins dictate function of the minimal START domain phosphatidylcholine transfer protein/StarD2.". J. Biol. Chem. 282 (42): 30728–36.  
  5. ^
  6. ^ 136, 114709 (2012)Journal of Chemical PhysicsMashaghi et al.
  7. ^ Tayebeh Jadidi et al 2013 1|Europhysics Letters 102 28008
  8. ^ Mei-Chu Hung, Koji Shibasaki, Riki Yoshida, Masao Sato and Katsumi Imaizumi (2001). Learning behaviour and cerebral protein kinase C, antioxidant status, lipid composition in senescence-accelerated mouse: influence of a phosphatidylcholine–vitamin B12 diet. British Journal of Nutrition, 86, pp 163-171 doi:10.1079/BJN2001391
  9. ^ Chung, Shu-Ying, Tomoe Moriyama, Eiko Uezu, Kayoko Uezu, Rieko Hirata, Noriko Yohena, Yasnunobu Masuda, Toyohiko Kokubu, and Shigeru Yamamoto. 1995. "Administration of Phosphatidylcholine Increases Brain Acetylcholine Concentration and Improves Memory in Mice with Dementia." The Journal of Nutrition 125: 1484-489. Print.
  10. ^ Higgins, Julian; Leon Flicker (21 January 2009). Higgins, Julian PT, ed. "Lecithin for dementia and cognitive impairment". Cochrane Database of Systematic Reviews of Systematic Reviews 4 (3): CD001015.  
  11. ^ Niebergall, LJ; Jacobs, RL; Chaba, T; Vance, DE (2011). "Phosphatidylcholine protects against steatosis in mice but not non-alcoholic steatohepatitis". Biochimica et Biophysica Acta 1811 (12): 1177–85.  
  12. ^ Tandy S, Phosphatidylcholine Supplementation Reduces Hepatic Lipid Levels in Mice. Nutrition and Metabolism Group, Heart Research Institute, Australia. (2010)
  13. ^ Hasegawa, Toshio; Matsukura, Tomoyuki; Ikeda, Shigaku (2010). "Mesotherapy for Benign Symmetric Lipomatosis". Aesthetic Plastic Surgery 34 (2): 153–156.  
  14. ^ Rotunda, Adam M.; Kolodney, Michael S. (2006). "Mesotherapy and Phosphatidylcholine Injections: Historical Clarification and Review". Dermatologic Surgery 32 (4): 465–480.  
  15. ^ Park, Seung Ha; Kim, Deok Woo; Lee, Min Ah; Yoo, Sang Chul; Rhee, Seung Chul; Koo, Sang Hwan; Seol, Geun Hye; Cho, Eun Young (April 2008). "Effectiveness of Mesotherapy on Body Contouring". Plastic & Reconstructive Surgery 121 (4): 179e–185e.  
  16. ^ Schneider, H.; Braun, A.; Füllekrug, J.; Stremmel, W.; Ehehalt, R. (2010). "Lipid Based Therapy for Ulcerative Colitis—Modulation of Intestinal Mucus Membrane Phospholipids as a Tool to Influence Inflammation". International Journal of Molecular Sciences 11 (10): 4149–4164.  
  17. ^ Wang Z; Klipfell, Elizabeth; Bennett, Brian J.; Koeth, Robert; Levison, Bruce S.; Dugar, Brandon; Feldstein, Ariel E.; Britt, Earl B.; et al. (April 2011). "Gut flora metabolism of phosphatidylcholine promotes cardiovascular disease". Nature 472 (7341): 57–63.  

External links

  • Phosphatidylcholines at the US National Library of Medicine Medical Subject Headings (MeSH)
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