EMD-45253
Merbecovirus MOW15-22 Spike glycoprotein RBD bound to the P. davyi ACE2
EMD-45253
Single-particle2.77 Å
Deposition: 07/06/2024Map released: 05/03/2025
Last modified: 05/03/2025
Sample Organism:
Sarbecovirus,
Merbecovirus,
Pteronotus davyi
Sample: MOW15-22 RBD bound to the P. davyi ACE2 ectodomain
Fitted models: 9c6o
Deposition Authors: Park YJ, Veesler D, Seattle Structural Genomics Center for Infectious Disease (SSGCID)
Sample: MOW15-22 RBD bound to the P. davyi ACE2 ectodomain
Fitted models: 9c6o
Deposition Authors: Park YJ, Veesler D, Seattle Structural Genomics Center for Infectious Disease (SSGCID)
Multiple independent acquisitions of ACE2 usage in MERS-related coronaviruses.
Ma CB,
Liu C,
Park YJ,
Tang J,
Chen J,
Xiong Q,
Lee J,
Stewart C,
Asarnow D,
Brown J,
Tortorici MA,
Yang X,
Sun YH,
Chen YM,
Yu X,
Si JY,
Liu P,
Tong F,
Huang ML,
Li J,
Shi ZL,
Deng Z,
Veesler D,
Yan H
(2025) Cell
(2025) Cell
Abstract:
The angiotensin-converting enzyme 2 (ACE2) receptor is shared by various coronaviruses with distinct receptor-binding domain (RBD) architectures, yet our understanding of these convergent acquisition events remains elusive. Here, we report that two bat MERS-related coronaviruses (MERSr-CoVs) infecting Pipistrellus nathusii (P.nat)-MOW15-22 and PnNL2018B-use ACE2 as their receptor, with narrow ortholog specificity. Cryoelectron microscopy structures of the MOW15-22/PnNL2018B RBD-ACE2 complexes unveil an unexpected and entirely distinct binding mode, mapping >45 Å away from that of any other known ACE2-using coronaviruses. Functional profiling of ACE2 orthologs from 105 mammalian species led to the identification of host tropism determinants, including an ACE2 N432-glycosylation restricting viral recognition, and the design of a soluble P.nat ACE2 mutant with potent viral neutralizing activity. Our findings reveal convergent acquisition of ACE2 usage for merbecoviruses found in European bats, underscoring the extraordinary diversity of ACE2 recognition modes among coronaviruses and the promiscuity of this receptor.
The angiotensin-converting enzyme 2 (ACE2) receptor is shared by various coronaviruses with distinct receptor-binding domain (RBD) architectures, yet our understanding of these convergent acquisition events remains elusive. Here, we report that two bat MERS-related coronaviruses (MERSr-CoVs) infecting Pipistrellus nathusii (P.nat)-MOW15-22 and PnNL2018B-use ACE2 as their receptor, with narrow ortholog specificity. Cryoelectron microscopy structures of the MOW15-22/PnNL2018B RBD-ACE2 complexes unveil an unexpected and entirely distinct binding mode, mapping >45 Å away from that of any other known ACE2-using coronaviruses. Functional profiling of ACE2 orthologs from 105 mammalian species led to the identification of host tropism determinants, including an ACE2 N432-glycosylation restricting viral recognition, and the design of a soluble P.nat ACE2 mutant with potent viral neutralizing activity. Our findings reveal convergent acquisition of ACE2 usage for merbecoviruses found in European bats, underscoring the extraordinary diversity of ACE2 recognition modes among coronaviruses and the promiscuity of this receptor.