TY - JOUR
T1 - A key region of molecular specificity orchestrates unique ephrin-B1 utilization by Cedar virus
AU - Pryce, Rhys
AU - Azarm, Kristopher
AU - Rissanen, Ilona
AU - Harlos, Karl
AU - Bowden, Thomas A.
AU - Lee, Benhur
N1 - Publisher Copyright:
© 2019 Pryce et al.
PY - 2020
Y1 - 2020
N2 - The emergent zoonotic henipaviruses, Hendra, and Nipah are responsible for frequent and fatal disease outbreaks in domestic animals and humans. Specificity of henipavirus attachment glycoproteins (G) for highly species-conserved ephrin ligands underpins their broad host range and is associated with systemic and neurological disease pathologies. Here, we demonstrate that Cedar virus (CedV)—a related henipavirus that is ostensibly nonpathogenic—possesses an idiosyncratic entry receptor repertoire that includes the common henipaviral receptor, ephrinB2, but, distinct from pathogenic henipaviruses, does not include ephrin-B3. Uniquely among known henipaviruses, CedV can use ephrin-B1 for cellular entry. Structural analyses of CedV-G reveal a key region of molecular specificity that directs ephrin-B1 utilization, while preserving a universal mode of ephrin-B2 recognition. The structural and functional insights presented uncover diversity within the known henipavirus receptor repertoire and suggest that only modest structural changes may be required to modulate receptor specificities within this group of lethal human pathogens.
AB - The emergent zoonotic henipaviruses, Hendra, and Nipah are responsible for frequent and fatal disease outbreaks in domestic animals and humans. Specificity of henipavirus attachment glycoproteins (G) for highly species-conserved ephrin ligands underpins their broad host range and is associated with systemic and neurological disease pathologies. Here, we demonstrate that Cedar virus (CedV)—a related henipavirus that is ostensibly nonpathogenic—possesses an idiosyncratic entry receptor repertoire that includes the common henipaviral receptor, ephrinB2, but, distinct from pathogenic henipaviruses, does not include ephrin-B3. Uniquely among known henipaviruses, CedV can use ephrin-B1 for cellular entry. Structural analyses of CedV-G reveal a key region of molecular specificity that directs ephrin-B1 utilization, while preserving a universal mode of ephrin-B2 recognition. The structural and functional insights presented uncover diversity within the known henipavirus receptor repertoire and suggest that only modest structural changes may be required to modulate receptor specificities within this group of lethal human pathogens.
UR - http://www.scopus.com/inward/record.url?scp=85077058244&partnerID=8YFLogxK
U2 - 10.26508/lsa.201900578
DO - 10.26508/lsa.201900578
M3 - Article
C2 - 31862858
AN - SCOPUS:85077058244
SN - 2575-1077
VL - 3
JO - Life Science Alliance
JF - Life Science Alliance
IS - 1
M1 - e201900578
ER -