Tracey Q. Devine scite author profile

Activation of the cell surface receptors for tumor necrosis factor (TNF) is effected by the aggregation of cytoplasmic domains that occurs when the extracellular domains of two or three receptors bind to trimeric TNF alpha or TNF beta. The structure of the type I TNF receptor extracellular domain (sTNF-R1), crystallized in the absence of TNF, has now been determined at 2.25-A resolution. The receptor itself is an elongated molecule comprising four disulfide-rich domains in a nearly linear array. Contrary to expectations, the unliganded domains are found to associate into dimers of two distinct types, in which monomers are related by local two-fold axes of symmetry. In one case, the receptors are antiparallel to each other and associate through an interface that overlaps the TNF binding site. If intact receptors were capable of such an association, their cytoplasmic domains would be separated by over 100 A. This interaction could inhibit signaling in the absence of TNF. Parallel dimers are also observed in which the dimer interface is well separated from the TNF binding site. Associations among TNF-bound parallel dimers could cause receptor clustering. Both dimers bury substantial areas of protein surface and are formed by polar and non-polar interactions.

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Structures of the extracellular domain of the type I tumor necrosis factor receptor

Naismith

et al. 1996

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The occurrence of the antiparallel dimers in both low pH crystal forms suggest that they are not an artefact of crystal packing. Such dimers may form in the low pH environment of the endosome. Because the dimer contact surface occludes the TNF-binding site, formation of this dimer would dissociate the TNF-receptor complex within the endosome. Three of the four cysteine-rich domains of TNF-R1 are constructed from two distinct structural modules, termed A1 and B2. The fourth subdomain comprises an A1 module followed by an unusual C2 module. Although the orientation of these modules with respect to each other is sensitive to crystal packing, ligand binding, pH and ionic strength, the modules are structurally well conserved between and within the known sTNF-R1 structures.

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Two Crystal Forms of the Extracellular Domain of Type I Tumor Necrosis Factor Receptor

Rodseth

Brandhuber

Devine

et al. 1994

Journal of Molecular Biology

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Tracey Q. Devine

Crystallographic Evidence for Dimerization of Unliganded Tumor Necrosis Factor Receptor

Structures of the extracellular domain of the type I tumor necrosis factor receptor

Two Crystal Forms of the Extracellular Domain of Type I Tumor Necrosis Factor Receptor

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