Escalate Life Sciences
Researchers Map Structure of Coronavirus “Spike” Protein
The finding could help lay the groundwork for a vaccine
Researchers worldwide are racing to develop potential vaccines and drugs to fight the new coronavirus, called SARS-Cov-2. Now, a group of researchers has figured out the molecular structure of a key protein that the coronavirus uses to invade human cells, potentially opening the door to the development of a vaccine, according to new findings.
Previous research revealed that coronaviruses invade cells through so-called “spike” proteins, but those proteins take on different shapes in different coronaviruses. Figuring out the shape of the spike protein in SARS-Cov-2 is the key to figuring out how to target the virus, said Jason McLellan, senior author of the study and an associate professor of molecular biosciences at the University of Texas at Austin.
Though the coronavirus uses many different proteins to replicate and invade cells, the spike protein is the major surface protein that it uses to bind to a receptor — another protein that acts as a doorway into a human cell. After the spike protein binds to the human cell receptor, the viral membrane fuses with the human cell membrane, allowing the genome of the virus to enter human cells and begin infection. So “if you can prevent attachment and fusion, you will prevent entry,” McLellan told Live Science. But to target this protein, you need to know what it looks like.
Earlier this month, researchers published the genome of SARS-Cov-2. Using that genome, McLellan and his team, in collaboration with the National Institutes of Health (NIH), identified the specific genes that code for the spike protein. They then sent that gene information to a company that created the genes and sent them back. The group then injected those genes into mammalian cells in a lab dish and those cells produced the spike proteins.
Next, using a very detailed microscopy technique called cryogenic electron microscopy, the group created a 3D “map,” or “blueprint,” of the spike proteins. The blueprint revealed the structure of the molecule, mapping the location of each of its atoms in space.
“It’s impressive that these researchers were able to get the structure so quickly,” said Aubree Gordon, an associate professor of epidemiology at the University of Michigan who was not a part of the study. “It’s a very important step forward and may help in the development of a vaccine against SARS-COV-2.”
Stephen Morse, a professor at Columbia University’s Mailman School of Public Health who was also not a part of the study agrees. The spike protein “would be the likely choice for rapid development of vaccine antigens” and treatments, he told Live Science in an email. Knowing the structure would be “very helpful in developing vaccines and antibodies with good activity,” as would producing higher quantities of these proteins, he added.
The team is sending these atomic “coordinates” to dozens of research groups around the world who are working to develop vaccines and drugs to target SARS-CoV-2. Meanwhile, McLellan and his team hope to use the map of the spike protein as the basis for a vaccine.
When foreign invaders, such as bacteria or viruses, invade the body, immune cells fight back by producing proteins called antibodies. These antibodies bind to specific structures on the foreign invader, called the antigen. But producing antibodies can take time. Vaccines are dead or weakened antigens that train the immune system to create these antibodies before the body is exposed to the virus.
Written by: Yasemin Saplakoglu (LiveScience)
Published on: February 21, 2020