Defensin
From Wikipedia, the free encyclopedia
Defensins are small (29-51 residue) cysteine rich cationic proteins found in both vertebrates and invertebrates. They are active against bacteria, fungi and enveloped viruses. They consist of 28-42 amino acids including six to eight conserved cysteine residues. Cells of the immune system contain these peptides to assist in killing phagocytized bacteria, for example in neutrophil granulozytes and almost all epithelial cells. Most defensins function by penetrating the microbial's cell membrane by way of electrical attraction, and once embedded, forming a pore in the membrane which allows efflux.
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[edit] Varities
The underlying genes responsible for defensin production are highly polymorphic. Some aspects are conserved, however; the hallmarks of a β-defensin are its small size, high density of cationic charge and six-cysteine-residue motif. Generally they are encoded by two-exon genes, where the first exon encodes for a hydrophobic leader sequence and the second for a peptide containing the cysteine motif.
There are three main (known) forms of mammalian defensins; α-defensins, β-defensins, and θ-defensins.
- α-defensins are expressed primarily in neutrophils as well as macrophages and the Paneth cells of the intestines (where they help maintain the correct microbial balance).
- β-defensins are the most widely distributed, being secreted by leukocytes and epithelial cells of many kinds. For example, they can be found on the tongue, skin, cornea, salivary glands, kidneys, oesophagus, and respiratory tract. It is theorised that some of the pathology of cystic fibrosis arises from the inhibition of β-defensin activity on the epithelial surfaces of the lungs and trachaea due to higher salt content.
- θ-defensins are rare, and thus far have been found only in the leukocytes of the rhesus macaque.
[edit] Function
In immature marsupials, because their immune system is underdeveloped at the time of birth, defensins play a major role in defense against pathogens. They are produced in the milk of the mother as well as by the young marsupial in question. It is also interesting to note that retrocyclin- a defensin created artificially by `fixing' a human pseudogene- is effective against HIV, though the mechanism by which it does this is unknown.
Interesting, also is the effect of defensins on the exotoxin produced by anthrax (bacillus anthracis). Chun Kim et. al showed how anthrax, which produces a metalloprotease Lethal Factor (LF) protein to target MAPKK, is vulnerable to human neutrophil protein-1 (HNP-1). This group showed HNP-1 to behave as a reversible noncompetitive inhibitor of LF.[1]
An imbalance of defensins in the skin may contribute to acne.[2]
A reduction of ileal defensins may predispose to Crohn's disease.[3][4]
Defensins are contained in the sebum secreted by the Sebaceous gland which melts at 30 degrees celsius. Most people in industrialised countries remove the sebum and therefore the defensins every day in the shower.
[edit] References
- ^ Kim C, Gajendran N, Mittrücker H, Weiwad M, Song Y, Hurwitz R, Wilmanns M, Fischer G, Kaufmann S (2005). "Human alpha-defensins neutralize anthrax lethal toxin and protect against its fatal consequences.". Proc Natl Acad Sci U S A 102 (13): 4830-5. PMID 15772169.
- ^ Philpott M (2003). "Defensins and acne.". Mol Immunol 40 (7): 457-62. PMID 14568392.
- ^ Genomics & Genetics Weekly, "Researchers discover a possible cause of chronic inflammations of Crohn Disease." August 11, 2006, page 72
- ^ Defensins in ileal Crohn's disease, free access paper: http://www.pnas.org/cgi/content/abstract/102/50/18129
[edit] External links
- Jones D (2005). "The potential immunomodulatory effects of topical retinoids.". Dermatol Online J 11 (1): 3. PMID 15748544. article
- Innate ( Nonspecific ) Immunity at wku.edu
- OPM database at phar.umich.edu: Calculated spatial positions of defensins in membranes