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RAGE (receptor)
RAGE, the receptor for advanced glycation endproducts is a 35kD transmembrane receptor of the immunoglobulin super family which was first characterized in 1992 by Neeper et al.[1]. Its name comes from its ability to bind advanced glycation endproducts (AGE), a heterogeneous group of non-enzymatically altered proteins. Besides AGEs, RAGE is also able to bind other ligands and is thus often referred to as a pattern-recognition receptor. The interaction between RAGE and its ligands is thought to result in pro-inflammatory gene activation[2]. Due to an enhanced level of RAGE ligands in diabetes or other chronic disorders, this receptor is hypothesised to have a causative effect in a range of inflammatory diseases such as diabetic complications, Alzheimer's disease and even some tumors. Isoforms of the RAGE protein, which lack the transmembrane and the signalling domain (commonly referred to as soluble RAGE or sRAGE) are hypothesized to counteract the detrimental action of the full-length receptor and are hoped to provide a means to develop a cure against RAGE-associated diseases. Additional recommended knowledge
Gene/polymorphismsThe human RAGE gene lies within the major histocompatibility complex (MHC) class III region on chromosome 6 and comprises 11 exons interlaced by 10 introns. Total length of the gene is about 1400 base pairs (bp) including the promoter region, which partly overlaps with the PBX2 gene[3]. About 30 polymorphisms are known most of which are single nucleotide polymorphisms (SNP)[4]. RNA/alternative splicingThe primary transcript of the human RAGE gene (pre-mRNA) is thought to be alternatively spliced. So far about 6 isoforms including the full length transmembrane receptor have been found in different tissues such as lung, kidney, brain etc. Five of these 6 isoforms lack the transmembrane domain and are thus believed to be secreted from cells. Generally these isoforms are referred to as sRAGE (soluble RAGE) or esRAGE (endogenous secretory RAGE). One of the isoforms lacks the V-domain and is thus believed not to be able to bind RAGE ligands. StructureThe full receptor consists of 5 domains: The cytosolic domain, which is responsible for signal transduction, the transmembrane domain which anchors the receptor in the cell membrane, the variable domain which binds the RAGE ligands and two constant domains. RAGE ligandsRAGE is able to bind several ligands and therefore is referred to as a pattern-recognition receptor. Proteins which have so far been found to bind RAGE are:
RAGE and diseaseRAGE has been linked to several chronic diseases, which are thought to result from vascular damage. The pathogenesis is hypothesized to include ligand binding upon which RAGE signals activation of the nuclear factor kappa B (NF-κB). NF-κB controls several genes which are involved in inflammation. Interestingly, RAGE itself will also be up-regulated by NF-κB. Given a condition, where there is a large amount of RAGE ligands (e.g. AGE in diabetes or Amyloid-β-protein in Alzheimer's Disease) this establishes a positive feed-back cycle, which leads to chronic inflammation. This chronic condition is then believed to alter the micro- and macrovasculature in a fatal way which ends in organ damage or even organ failure. Diseases that have been linked to RAGE are:
AGE receptorsBesides RAGE there are other receptors which are believed to bind advanced glycation endproducts. However, these receptors could play a role in removal of AGE rather than in signal transduction as it is the case for RAGE. Other AGE receptors are:
References
Further reading
Categories: Genes on chromosome 6 | Human proteins | Receptors |
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This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "RAGE_(receptor)". A list of authors is available in Wikipedia. |