The post-entry restriction factor Trim5α blocks infection of retroviral pathogens shortly after the virus gains entry to the cell, preventing reverse transcription and integration into the host genome. Central to the mechanism of restriction is recognition of the lattice of capsid protein that forms the inner-shell of the retrovirus. To recognise this lattice, Trim5α has been shown to assemble into a large hexagonal array, complementary to the capsid lattice. Structures of the Trim5α coiled-coil region reveal an elongated anti-parallel dimer consistent with the edges of this array placing the Bbox domain at each end of the coiled-coil to facilitate assembly. To investigate the nature of this assembly we have designed and characterised a monomeric version of the TRIM RBCC motif with a truncated coiled-coil. Biophysical characterisation by SEC-MALLS, AUC, and SAXS demonstrate that this construct forms compact folded domain that assembles into a trimer that would support the formation of a hexagonal lattice. Furthermore, the RING domain and elements of the coiled-coil region are shown to contribute to assembly. Ubiquitylation assays demonstrate that this assembly increases ubiquitylation activity providing a link from recognition of the capsid lattice and assembly to the activation of innate immune signalling and restriction.
Members of the TRIM protein family have been shown to inhibit a range of viral infections. Recently, TRIM69 was identified as a potent inhibitor of Vesicular stomatitis Indiana virus infection, with its inhibition being dependent upon multimerization. Using SEC-MALLS analysis, it is demonstrated that the assembly of TRIM69 is mediated through the RING domain and not the Bbox domain as has been shown for other TRIM proteins. Using X-ray crystallography, the structure of the TRIM69 RING domain has been determined to a resolution of 2.1 Å, the oligomerization interface has been identified and regions outside the four-helix bundle have been observed to form interactions that are likely to support assembly.
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