https://www.nature.com/articles/d41586-021-02275-2 Skip to main content Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles and JavaScript. Advertisement Advertisement Nature * View all journals * Search * My Account Login * Explore content * Journal information * Publish with us Subscribe * Sign up for alerts * RSS feed 1. nature 2. news 3. article * NEWS * 20 August 2021 The mutation that helps Delta spread like wildfire A key amino-acid change might underlie the coronavirus variant's ferocious infectivity. * Ewen Callaway 1. Ewen Callaway View author publications You can also search for this author in PubMed Google Scholar * Share on Twitter * Share on Facebook * Share via E-Mail You have full access to this article via your institution. Download PDF Coloured transmission electron micrograph of SARS-CoV-2 coronavirus particles SARS-CoV-2 coronavirus particles isolated from a US case of COVID-19. Scientists are trying to understand why the Delta variant spreads so quickly.Credit: National Institutes of Health/Science Photo Library As the world grapples with the hyper-infectious Delta coronavirus variant, scientists are racing to understand the biological basis for its behaviour. A slew of studies has highlighted an amino-acid change present in Delta that might contribute to its swift spread. Delta is at least 40% more transmissible than is the Alpha variant identified in the United Kingdom in late 2020, epidemiological studies suggest. "The key hallmark of Delta is that transmissibility seems to be ramping up to the next notch," says Pei-Yong Shi, a virologist at the University of Texas Medical Branch in Galveston. "We thought Alpha was pretty bad, very good at spreading. This one seems to be even more." [d41586-021] How do vaccinated people spread Delta? What the science says Shi's team and other groups have zeroed in on a mutation that alters a single amino acid in the SARS-CoV-2 spike protein -- the viral molecule responsible for recognizing and invading cells. The change, which is called P681R and transforms a proline residue into an arginine, falls within an intensely studied region of the spike protein called the furin cleavage site. The presence of this short string of amino acids set off alarm bells when SARS-CoV-2 was first identified in China, because it is associated with heightened infectivity in other viruses such as influenza, but had not previously been found in other sarbecoviruses, the family of coronaviruses to which SARS-CoV-2 belongs. "This little insert sticks out and hits you in the face," says Gary Whittaker, a virologist at Cornell University in Ithaca, New York. Pre-activated virus To penetrate cells, the SARS-CoV-2 spike protein must be cut twice by host proteins. In the SARS-CoV-1 virus that causes severe acute respiratory syndrome (SARS), both incisions occur after the virus has locked on to a cell. But with SARS-CoV-2, the presence of the furin cleavage site means that host enzymes (including one called furin) can make the first cut as newly formed viral particles emerge from an infected cell. These pre-activated viral particles can then go on to infect cells more efficiently than do particles requiring two cuts, says Whittaker. Delta wasn't the first SARS-CoV-2 variant to gain a mutation that alters the furin cleavage site. The Alpha variant has a different amino-acid change at the same location as Delta. But the available evidence suggests that the mutation's effect has been especially profound in Delta. In a study reported as a preprint on 13 August^1, Shi's team found that the spike protein is cut much more efficiently in Delta-variant particles than in Alpha particles, echoing results reported in May by virologist Wendy Barclay at Imperial College London and her team, who compared Delta with an earlier strain^2. Follow-up experiments by both groups showed that the P681R change was largely responsible for spike being clipped so much more efficiently. "This really nailed it, in terms of the mechanism," says Shi. [d41586-021] COVID vaccines slash viral spread - but Delta is an unknown Researchers are also beginning to join the dots between P681R and Delta's ferocious infectivity. Shi's team found that, in cultured human-airway epithelial cells infected with equal numbers of Delta and Alpha viral particles, Delta rapidly outcompeted the Alpha variant, mimicking epidemiological patterns that have played out globally. But Delta's advantage disappeared when the researchers eliminated the P681R change. The mutation might also speed up the spread of SARS-CoV-2 from cell to cell. A team led by Kei Sato, a virologist at the University of Tokyo, found that spike proteins bearing the P681R change fuse with the plasma membranes of uninfected cells -- a key step in infection -- almost three times faster than do spike proteins lacking the change^3 . "I think the virus is succeeding on volume and speed," says Whittaker. "It's become a much more efficient virus. It's going through people and going through cells a lot quicker." More than one mutation Although evidence is building that the P681R change is a crucial feature of Delta, researchers emphasize that it is unlikely to be the only mutation responsible for the variant's fast spread. Delta carries numerous other mutations to the spike protein, as well as to other less well-studied proteins, that might be important. "It's very simplistic to say it's just this 681 change. I think it's a sum of everything," says Teresa Aydillo-Gomez, a virologist at Icahn School of Medicine at Mount Sinai in New York City. Context, both epidemiological and genetic, is also likely to have had a role in Delta's rise, say scientists. One of Delta's siblings, a variant called Kappa that, like Delta, was first identified in India, carries many of the same mutations, including P681R, but its effects haven't been as devastating as Delta's. In a preprint posted on 17 August, a team led by structural biologist Bing Chen at Harvard Medical School in Boston, Massachusetts, reports that Kappa's spike protein is cleaved less frequently and fuses to cell membranes much less efficiently than does Delta's^4. The researchers say this finding raises questions over the role of P681R. [d41586-021] How the Delta variant achieves its ultrafast spread Researchers in Uganda identified the P681R change in a variant that spread widely in the country in early 2021, but that never took off as Delta did, even though it displays many of the same properties in cell-based lab studies. Whittaker's team inserted the P681R change into a spike protein from the coronavirus that was circulating in Wuhan, China, at the beginning of the pandemic, and found no increase in its infectivity^5. "It takes more than one mutation to make a difference," he adds. Regardless of its role in Delta's dominance, Whittaker and other scientists say, the mutation has underscored the importance of understanding changes in the coronavirus's furin cleavage site. Whittaker doesn't expect P681R to be the last furin cleavage site mutation to cause concern. "I'm waiting to see what happens next." doi: https://doi.org/10.1038/d41586-021-02275-2 References 1. 1. Liu, Y. et al. Preprint at bioRxiv https://www.biorxiv.org/ content/10.1101/2021.08.12.456173v1 (2021). 2. 2. Peacock, T. P. et al. Preprint at bioRxiv https://www.biorxiv.org /content/10.1101/2021.05.28.446163v1 (2021). 3. 3. Saito, A. et al. Preprint at bioRxiv https://www.biorxiv.org/ content/10.1101/2021.06.17.448820v2 (2021). 4. 4. Zhang, J. et al. Preprint at bioRxiv https://www.biorxiv.org/ content/10.1101/2021.08.17.456689v1 (2021). 5. 5. Lubinski, B. et al. Preprint at bioRxiv https://www.biorxiv.org/ content/10.1101/2021.06.30.450632v3 (2021). 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