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Davoud Farajzadeh , Sedigheh Karimi-Gharigh, Siavoush Dastmalchi ,
Volume 75, Issue 3 (6-2017)
Abstract

Tumor necrosis factor-alpha (TNF-α) is a pro-inflammatory cytokine produced by a variety of cells, including hematopoietic and non-hematopoietic cells, malignant cells, macrophages, B lymphocytes, T lymphocytes, natural killer cells, neutrophils, astrocytes, endothelial cells, and smooth muscle cells. TNF-α is a homo-trimeric molecular whose individual subunits are composed of antiparallel beta-sheets, forming a regular triangular prism shape. TNF-α binds to three receptor molecules through its receptor-binding sites, which are at the base of its pyramid structure. Biological responses to TNF-α are mediated through two different receptors: TNFR1 and TNFR2. These receptors are transmembrane glycoproteins with extracellular domains containing multiple cysteine-rich repeats that are structurally and functionally homologous, and the intracellular domains that are discrete and transduce their signals through both overlapping and distinct pathways. However, though TNF-α was initially discovered as an anti-tumor agent, it has been revealed that TNF-α and other ligands of this family are involved in some diseases like cancer, neurological, pulmonary, cardiovascular and autoimmune diseases and metabolic disorders. In general, TNF-α activates the control systems involved in cell proliferation, differentiation, inflammation and cell death, and the regulation of immune system. Although a normal level of TNF-α is very important for the regulation of immune responses, the persistence of the immune response as a result of inappropriate and excessive production of TNF-α can cause some inflammatory or autoimmune diseases. Accordingly, either neutralization TNF-α or blockade of its receptors using TNF-α inhibitors can be an effective therapeutic strategy to prevent or treat such inflammatory diseases. Several methods have been used to inhibit TNF-α, including the production of chimeric or fully human antibodies, soluble TNF-α receptors, or anti-TNF-α small molecules. The two previous agents are mostly capable of inhibiting the binding of TNF-α to its associated receptors, while anti-TNF-α small molecules, in addition to the above, inhibit the biosynthesis of TNF-α by blocking TNF-α mRNA biosynthesis, through the inhibition of its post-translational processing, or by blocking TNF-α receptors. Therefore, in this review article, we discuss the structure and characteristics of TNF-α and its related receptors: TNF-α signaling, TNF-α-mediated inflammatory diseases as well as TNF-α inhibition strategies.



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