PT  - JOURNAL ARTICLE
AU  - Mercedes Hernando-Pérez
AU  - Natalia Martín-González
AU  - Marta Pérez-Illana
AU  - Maarit Suomalainen
AU  - Philomena Ostapchuk
AU  - Gabriela. N. Condezo
AU  - M. Menéndez
AU  - Urs F. Greber
AU  - Patrick Hearing
AU  - Pedro J. de Pablo
AU  - Carmen San Martín
TI  - Dynamic competition for hexon binding between core protein VII and lytic protein VI promotes adenovirus maturation and entry
AID  - 10.1101/857581
DP  - 2019 Jan 01
TA  - bioRxiv
PG  - 857581
4099  - http://biorxiv.org/content/early/2019/12/05/857581.short
4100  - http://biorxiv.org/content/early/2019/12/05/857581.full
AB  - Adenovirus minor coat protein VI contains a membrane-disrupting peptide which is inactive when VI is bound to hexon trimers. Protein VI must be released during entry to ensure endosome escape. Hexon:VI stoichiometry has been uncertain, and only fragments of VI have been identified in the virion structure. Recent findings suggest an unexpected relationship between VI and the major core protein, VII. According to the high resolution structure of the mature virion, VI and VII may compete for the same binding site in hexon; and non-infectious human adenovirus type 5 particles assembled in the absence of VII (Ad5-VII-) are deficient in proteolytic maturation of protein VI and endosome escape. Here we show that Ad5-VII- particles are trapped in the endosome because they fail to increase VI exposure during entry. This failure was not due to increased particle stability, because capsid disruption happened at lower thermal or mechanical stress in Ad5-VII- compared to wildtype (Ad5-wt) particles. Cryo-EM difference maps indicated that VII can occupy the same binding pocket as VI in all hexon monomers, strongly arguing for binding competition. In the Ad5-VII- map, density corresponding to the immature amino-terminal region of VI indicates that in the absence of VII the lytic peptide is trapped inside the hexon cavity, and clarifies the hexon:VI stoichiometry conundrum. We propose a model where dynamic competition between proteins VI and VII for hexon binding facilitates the complete maturation of VI, and is responsible for releasing the lytic protein from the hexon cavity during entry and stepwise uncoating.Significance Statement Correct assembly of an adenovirus infectious particle involves the highly regulated interaction of more than ten different proteins as well as the viral genome. Here we examine the interplay between two of these proteins: the major core protein VII, involved in genome condensation, and the multifunctional minor coat protein VI. Protein VI binds to the inner surface of adenovirus hexons (trimers of the major coat protein) and contains a lytic peptide which must be released during entry to ensure endosome rupture. We present data supporting a dynamic competition model between proteins VI and VII for hexon binding during assembly. This competition facilitates the release of the lytic peptide from the hexon cavity and ensures virus escape from the early endosome.