Categories: Uncategorized

COVID-19: Virus spike protein flexibility improved by human cell’s own modifications

When the coronavirus that causes COVID-19 infects human cells, the cell’s protein-processing machinery modifies the spike protein, making it more flexible and mobile, potentially increasing its ability to infect other cells and evade antibodies, according to a new study from the University of Illinois Urbana-Champaign.

The researchers developed an atomic-level computer model of the spike protein and performed several simulations to investigate the protein’s dynamics and how cell changes altered those dynamics. According to the researchers, this is the first study to offer such a thorough image of the protein that plays a major role in COVID-19 infection and immunity.

Biochemistry professor Emad Tajkhorshid, postdoctoral researcher Karan Kapoor and graduate student Tianle Chen published their findings in the Proceedings of the National Academy of Sciences.

“The dynamics of a spike are very important — how much it moves and how flexible it is to search for and bind to receptors on the host cell,” said Tajkhorshid, who also is a member of the Beckman Institute for Advanced Science and Technology. “In order to have a realistic representation, you have to look at the protein at the atomic level. We hope that the results of our simulations can be used for developing new treatments. Instead of using one static structure of the protein to search for drug-binding pockets, we want to reproduce its movements and use all of the relevant shapes it adopts to provide a more complete platform for screening drug candidates instead of just one structure.”

Also Read: Daily avocados improve diet quality, help lower cholesterol levels: Study

The spike protein of SARS-CoV-2, the virus that causes COVID-19, is the protein that juts out from the surface of the virus and binds to receptors on the surface of human cells to infect them. It also is the target of antibodies in those who have been vaccinated or recovered from infection.

Many studies have looked at the spike protein and its amino acid sequence, but knowledge of its structure has largely relied on static images, Tajkhorshid said. The atomistic simulations give researchers a glimpse of dynamics that affect how the protein interacts with receptors on cells it seeks to infect and with antibodies that seek to bind to it.

They found that the protein has several “hinges” or moving parts, allowing the head of the protein to swivel on the stalk that sticks out from the virus. The researchers documented several different conformations, including active and inactive forms, and mapped how the protein shifts from one form to another. The conformations seen in their computational simulations lined up with the types and frequencies of angles observed in experimental structural studies, the researchers said, lending support to the validity of the simulations.

Changes in Covid Spike Protein

The researchers also found that processing by the host cell changed the viral protein’s dynamics. Much research has focused on the virus’s genetic code and the mutations it has acquired as new variants emerge. However, the spike protein goes through a number of changes as it is folded and “packaged” for shipping throughout the cell. One of the most common modifications, glycosylation, is the addition of sugars called glycans at specific points.

“Little is known about these post-translational modifications. The main role that has been noted is that glycans shield the protein from the targeting of antibodies,” Chen said. “We compared glycosylated and nonglycosylated forms of the spike protein and found significant dynamic differences between the two.”

The researchers noticed enhanced range of motion in the spike protein, making it more able to flex and interact with cell surface receptors. The glycans themselves also interacted with the cell membrane, allowing the spike protein to move and search along the membrane for the receptor.

“Glycosylations not only provide an immune shield but also mediate and enhance the mobility of the spikes, increasing the chances of the virus to successfully attach to and infect the human cells. Thus, the functions of these post-translational modifications are much wider than what was initially thought,” Kapoor said. “This understanding can now provide additional opportunities for targeting the function of this virus.”

The researchers said their findings highlight the importance of understanding not only genetic mutations in the spike protein of new virus variants, but also modifications such as glycosylation and how those modifications can add to virus infectivity and immune avoidance. They also anticipate other researchers using their models to develop new diagnostics, vaccines and antiviral drugs.

“The hope is that down the road, this new understanding of the spike protein is going to be useful for therapeutic efforts. I imagine we can target the dynamics of the spike protein with compounds that bind to the hinges and make them inflexible, and therefore in principle, make the virus less effective,” Tajkhorshid said.

Source: University of Illinois at Urbana-Champaign, News Bureau

Follow Medically Speaking on Instagram

Medically Speaking Team

Recent Posts

Cold Hands & Feet in Winter: Causes, Remedies, and Prevention Tips

https://youtu.be/LZi8Jn0tAA8?si=bpMPudQxl1LUdgXN Cold Hands & Feet in Winter: Causes, Remedies, and Prevention Tips Winter can be…

26 mins ago

Dysautonomia: The Silent Illness Affecting Millions Globally

Dysautonomia: The Silent Illness Impacting Millions of People Worldwide Dysautonomia is an umbrella term used…

2 days ago

Chyawanprash: Your Ayurvedic Shield Against Cough & Cold

https://youtu.be/mdl3AFFFcuk?si=i2cYzTX7WJ-z6wRp Does Chyawanprash Help in Cough & Cold? Exploring Its Benefits and Efficacy Chyawanprash, a…

2 days ago

Why Winter Morning Walks (7-9 AM) Are Perfect for Your Health

Walk In Winter: In winter, the time from 7:00 AM to 9:00 AM is considered…

2 days ago

Does Maida Stick to Your Gut? Debunking Myths and Health Risks

Does Maida Stick To Your Gut Lining: In this article, we debunk the common myth…

2 days ago

Think Twice Before Heating Packaged Milk: Hidden Risks You Should Know!

https://youtu.be/4NTKSfNf1TM?si=Y4xkEOKDUvqpIEZt The Disadvantages of Heating Packaged Milk Milk is a staple in many households and…

2 days ago