Lipofuscin is the name given to finely granular yellow-brown pigment granules^[1] composed of lipid-containing residues of lysosomal digestion. It is considered one of the aging or "wear and tear" pigments, found in the liver, kidney, heart muscle, adrenals, nerve cells, and ganglion cells. It is specifically arranged around the nucleus. And is a type of Lipochrome.

Contents 1 Formation and turnover 2 Relation to diseases 3 Possible therapies to reduce lipofuscin accumulation 4 References 5 External links for general reviews 6 Other uses of lipofuscin 7 Selected references:

[edit] Formation and turnover

It appears to be the product of the oxidation of unsaturated fatty acids, and may be symptomatic of membrane damage, or damage to mitochondria and lysosomes. Aside from a large lipid content, lipofuscin is known to contain sugars and metals, including mercury, aluminum, iron, copper and zinc.^[2]

The accumulation of lipofuscin-like material may be the result of an imbalance between formation and disposal mechanisms: Such accumulation can be induced in rats by administering a protease inhibitor (leupeptin); after a period of three months, the levels of the lipofuscin-like material return to normal, indicating the action of a significant disposal mechanism. ^[3] However, this result is controversial, as it is questionable if the leupeptin-induced material is true lipofuscin.^[4][5] There exists evidence that "true lipofuscin" is not degradable in vitro^[6][7][8]; whether this holds in vivo over longer time periods is not clear.

[edit] Relation to diseases

Lipofuscin accumulation is a major risk factor implicated in macular degeneration, a degenerative disease of the eye.^[9]

Abnormal accumulation of lipofuscin is associated with a group of diseases of neurodegenerative disorder type called lipofuscinoses, e.g., neuronal ceroid lipofuscinosis, also known as Batten disease, as well as some other names.

Pathological accumulation of lipofuscin is implicated in Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis, certain lysosomal diseases, acromegaly, denervation atrophy, lipid myopathy, chronic obstructive pulmonary disease^[10], centronuclear myopathy.

Accumulation of lipofuscin in the colon is the cause of the condition melanosis coli.

[edit] Possible therapies to reduce lipofuscin accumulation

Calorie restriction,^[2] vitamin E,^[2], and increased glutathione appear to reduce or halt the production of lipofuscin.

The nootropic drug piracetam appears to significantly reduce accumulation of lipofuscin in the brain tissue of rats. ^[11]

Other possible treatments:

• Centrophenoxine^[12]
• Acetyl-L-Carnitine ^[13]
• Ginko Biloba ^[14]
• DMAE [1]

Wet macular degeneration can be treated using Selective Photothermolysis where a pulsed unfocused laser prodominantly heats and kills pigment (ie: lipofuscin) rich cells, leaving untouched healthy cells to multiply and fill in the gaps. The technique is also used as a skin treatment to remove tattoos, liverspots, and generally make skin appear younger. This ability to selectively target lipofuscin has opened up research opportunities in the field of Anti-aging medicine.

[edit] References

[edit] External links for general reviews

• Chris Gaugler, "Lipofuscin", Stanislaus Journal of Biochemical Reviews May 1997
• Terman A, Brunk U (2004). "Lipofuscin". Int J Biochem Cell Biol 36 (8): 1400–4. doi:10.1016/j.biocel.2003.08.009. PMID 15147719. 
• Histology at neuro.wustl.edu
• Histology at BU 20301loa
• Destroying Lipofuscin and Destroying Cancer, FightAging.org
• Unfocused Pulsed Lasers Selectively Destroy Lipofuscin, AcceleratingFuture.com

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[edit] Other uses of lipofuscin

An interesting application of lipofuscin quantification is in age determination in various crustacea such as lobsters. Since these animals lack bony parts they cannot be aged in the same way as bony fish where annual increments in the ear-bones or otoliths are commonly used. Age determination of fish and shellfish is a fundamental step in generating basic biological data such as growth curves and is needed for many stock assessment methods. Several studies have indicated that quantifying the amount of lipofuscin present in the eye-stalks of various crutacea can give an index of their age. This method has not yet been widely applied in fisheries management mainly due to problems in relating lipofuscin levels in wild-caught animals with accumulation curves derived from aquarium reared animals.

[edit] Selected references:

O'Donovan, V. & O. Tully. 1996. Lipofuscin (age pigment) as an index of crustacean age: correlation with age, temperature and body size in cultured juvenile Homarus gammarus L. Journal of Experimental Marine Biology and Ecology 207: 1-14.

Ju, S.-J., D.H. Secor & R. Harvey. 1999. Use of extractable lipofuscin for age determination of blue crab Callinectes sapidus. Marine Ecology Progress Series 185: 171-179.

Hartnoll, R.G. 2001. Growth in Crustacea - twenty years on. Hydrobiologia 449: 111-122.

Uglem, I., M. Belchier & T. Svåsand. 2009. Age determination of European lobsters (Homarus gammarus L.) by histological quantification of lipofuscin. Journal of Crustacean Biology 25: 95-99.