IL-4 signaling pathway (Bos taurus)
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Description
IL-4 is a glycoprotein which is composed of 129 amino acids and has a molecular weight of 20kDa. IL-4 and IL-13 are produced by CD4+ cells and exhibit significant functional overlap. Both these cytokines play a critical role in the promotion of allergic responses. IL-4 is primarily involved in promoting the differentiation and proliferation of T helper 2 (TH2) cells and the synthesis of immunoglobulin E (IgE). Apart from its role in allergic responses including asthma, IL-4 was also found to regulate retinal progenitor proliferation, rod photoreceptor differentiation, cholinergic and GABAergic amacrine differentiation and neuroprotection and survival. IL-4 was also found to have regulatory effects in a number of neurological diseases including Alzheimer's disease, Multiple sclerosis, Experimental autoimmune encephelitis. It was also found to relieve inflammatory and neuropathic pain. IL-4 is capable of exerting its biological activities through interaction with two cell surface receptor complexes - Type I IL4 receptor and Type II IL4 Receptor. Both these receptor complexes comprise of a common IL4Rα (CD124) subunit, which is also the functional receptor chain. Type I IL-4 receptor is formed by the interaction of IL4Rα subunit with IL-2γc (CD132). Type II IL-4 receptor is formed by the interaction of IL-4Rα subunit with IL-13Rα. Interaction of IL-4 with its receptor results in receptor dimerization and activation. The Type I receptors activates JAK1 and 3, which are associated with the receptor subunits. The activated JAK phosphorylates tyrosine residues the cytoplasmic tails of the receptor which then serves as docking sites for a number of adaptor or signaling molecules including STAT6. Activated STAT6 dimerizes, translocated to the nucleus and transcriptionally actives genes responsive to IL-4. Many of the key functions of IL4 allergic disorders, including TH2 cell differentiation, airway hyper responsiveness, mucus cell metaplasia and IgE synthesis are dependent on STAT6 activation. Other phosphorylated tyrosine residue bind to proteins with phospho-tyrosine binding (PTB) motifs including IRS proteins. This results in the phosphorylation of the IRS proteins, which can then potentially activate the PI3K/AKT cascade by binding to the p85 subunit of PI3K or the Ras/Raf/MEK/ERK cascade. The PI3K/AKT pathway is thought to mediate the growth and survival signals in multiple IL-4 responsive cell types including T- and B- lymphocytes and natural killer cells.
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If you use this pathway, you must cite following paper:
Kandasamy, K., Mohan, S. S., Raju, R., Keerthikumar, S., Kumar, G. S. S., Venugopal, A. K., Telikicherla, D., Navarro, J. D., Mathivanan, S., Pecquet, C., Gollapudi, S. K., Tattikota, S. G., Mohan, S., Padhukasahasram, H., Subbannayya, Y., Goel, R., Jacob, H. K. C., Zhong, J., Sekhar, R., Nanjappa, V., Balakrishnan, L., Subbaiah, R., Ramachandra, Y. L., Rahiman, B. A., Prasad, T. S. K., Lin, J., Houtman, J. C. D., Desiderio, S., Renauld, J., Constantinescu, S. N., Ohara, O., Hirano, T., Kubo, M., Singh, S., Khatri, P., Draghici, S., Bader, G. D., Sander, C., Leonard, W. J. and Pandey, A. (2010). NetPath: A public resource of curated signal transduction pathways. Genome Biology. 11:R3.
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