Structural insights into kinetoplastid coronin oligomerization domain and F-actin interaction

Autor: Amogh A. Sahasrabuddhe, Aastha Singh, Sharanbasappa Shrimant Karade, Pankaj Singh Parihar, J. Venkatesh Pratap
Jazyk: angličtina
Rok vydání: 2021
Předmět:
Zdroj: Current Research in Structural Biology
Current Research in Structural Biology, Vol 3, Iss, Pp 268-276 (2021)
ISSN: 2665-928X
Popis: The two-domain actin associated protein coronin interacts with filamentous (F-) actin, facilitating diverse biological processes including cell proliferation, motility, phagocytosis, host-parasite interaction and cargo binding. The conserved N-terminal β-propeller domain is involved in protein: protein interactions, while the C-terminal coiled-coil domain mediates oligomerization, transducing conformational changes. The L. donovani coronin coiled-coil (LdCoroCC) domain exhibited a novel topology and oligomer association with an inherent asymmetry, caused primarily by three a residues of successive heptads. In the T.brucei homolog (TbrCoro), two of these ‘a’ residues are different (Val 493 & 507 replacing LdCoroCC Ile 486 and Met 500 respectively). The elucidated structure possesses a similar topology and assembly while comparative structural analysis shows that the T.brucei coronin coiled-coil domain (TbrCoroCC) too possesses the asymmetry though its magnitude is smaller. Analysis identifies that the asymmetric state is stabilized via cyclic salt bridges formed by Arg 497 and Glu 504. Co-localization studies (LdCoro, TbrCoro and corresponding mutant coiled coil constructs) with actin show that there are subtle differences in their binding patterns, with the double mutant V493I–V507M showing maximal effect. None of the constructs have an effect on F-actin length. Taken together with LdCoroCC, we therefore conclude that the inherent asymmetric structures are essential for kinetoplastids, and are of interest in understanding and exploiting actin dynamics.
Graphical abstract Image 1
Highlights • T.brucei coronin coiled-coil domain (TbrCoroCC) is an anti-parallel four-helix bundle as the L.donovani homolog(LdCoroCC). • Magnitude of asymmetry observed in TbrCoroCC is different from that in LdCoroCC. • Cyclic salt bridges stabilize the tetramer with contributions from steric interactions. • LdCoroCC and TbrCoroCC constructs show subtle differences in actin association in vivo.
Databáze: OpenAIRE