In a latest research revealed in PNAS, researchers demonstrated the structural foundation of how the receptor-binding area (RBD) nested Omicron mutations have tailored to mouse angiotensin-converting enzyme 2 (ACE2) quite than human ACE2.
Research: Structural foundation for mouse receptor recognition by SARS-CoV-2 omicron variant. Picture Credit score: Naeblys/Shutterstock
Speculations in regards to the supply of the extreme acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Omicron variant of concern (VOC) are ample, but the experimental proof for a similar has been scarce. Its sudden emergence and speedy unfold have raised questions on its animal reservoir.
Just a few amino acid residues differentiate the prototypic RBD from the RBD of bat coronaviruses. The Omicron BA.2 RBD differs from the prototypic RBD by 16 residues, with seven nested contained in the receptor-binding motif (RBM) immediately contacting ACE2.
In regards to the research
Within the current research, researchers recovered the evolutionary traces of Omicron RBM mutations. They investigated ACE2 recognition of the Omicron’s RBD, specializing in Q493R, Q498R, N501Y, and Y505H mutations, surrounding two mutational hotspots, hotspot-31 or hotspot-353.
The researchers deployed site-directed mutagenesis to synthesize the gene encoding the SARS-CoV-2 prototypic S, hACE2, and mACE2. Subsequent, they used a floor plasmon resonance (SPR) assay to measure the binding interactions between RBDs and ACE2 molecules. To verify the SPR knowledge, the staff additionally carried out an Omicron pseudovirus entry assay. They packaged Omicron pseudoviruses with 4 reverse mutations (Q493R, Q498R, N501Y, and Y505H) earlier than infecting mACE2-expressing cells.
Lastly, the staff decided the crystal construction of Omicron RBD complexed with mouse ACE2 at 2.84 Å.
Though the prototypic SARS-CoV-2 didn’t infect mice effectively, different earlier SARS-CoV-2 VOCs from people and different animal species had advanced the N501Y mutation to facilitate the utilization of the mACE2 receptor by SARS-CoV-2. Additionally, solely mice have asparagine (Asn31) and histidine(His353) of their ACE2 sequence, suggesting that Omicron advanced in mice.
SPR assay confirmed that the prototypic RBD didn’t bind mACE2, whereas the Omicron RBD sure mACE2 with good affinity. Introducing R493Q, R498Q, Y501N, and H505Y reverse mutations to the Omicron’s RBD, solely barely diminished mACE2 binding. Additional, the research recognized Q493R, Q498R, and Y505H RBM mutations, particularly structurally tailored to mACE2, suggesting that these mutations had been the evolutionary traces left behind by Omicron.
It’s what seemingly occurred throughout SARS-CoV-2 evolution: a SARS-CoV-2 variant containing the N501Y mutation unfold from people or one other animal species into mice. Later, as this variant unfold in mice, mouse-specific RBM mutations (e.g., Q493R, Q498R, and Y505N) advanced, contributing to the emergence of the Omicron VOC. The ACE2 sequences of some rat species additionally comprise Asn31 or His353. Apart from people, Omicron may need additionally been transmitted to different species whose ACE2 contained virus binding motifs (VBM) residues appropriate with the Omicron RBD.
The complicated of the chimeric Omicron RBD and chimeric mACE2 revealed the intensive interactions between the Omicron RBM and mACE2 virus binding motifs (VBMs). Hotspot-31 stabilizes the core of the RBM/VBMs interface, the place lysine31 and glutamic acid35 VBM residues kind a hydrogen bond with glutamine493. In mACE2, residue 31 is an asparagine, changing Lys31 in hACE2. Thus, on the interface between the Omicron RBM and mouse VBMs, Arg493 in RBM types two bifurcated hydrogen bonds with Asn31 VBM, stabilizing the RBM/VBMs interface and enhancing Omicron RBD’s affinity for mACE2. General, the Omicron mutation Q493R round hotspot-31 structurally tailored to Asn31 in mACE2.
The present research knowledge revealed that the Omicron RBD was properly tailored to mouse ACE2 earlier than it even started infecting people. The researchers used biochemical and structural proof to point out that mice facilitated the evolution of the Omicron VOC, offering much-needed insights into the evolutionary origin of SARS-CoV-2. These findings would additionally facilitate epidemiological surveillance of SARS-CoV-2 in animals, similar to mice and rats, to make clear the SARS-CoV-2 evolutionary trajectory and forestall future coronavirus pandemics.