A new COVID-19 vaccine could provide protection against existing and future strains of COVID-19 and other coronaviruses

Steven L. Zeichner, MD, PhD, of UVA Children's, says the vaccine could be produced very quickly, at very low cost, in existing factories around the world. The vaccine was developed using a platform Zeichner invented to speed vaccine development. CREDIT Dan Addison | UVA Communications

Steven L. Zeichner, MD, PhD, of UVA Children’s, says the vaccine could be produced very quickly, at very low cost, in existing factories around the world. The vaccine was developed using a platform Zeichner invented to speed vaccine development.

CREDIT: Dan Addison | UVA Communications

A new COVID-19 vaccine could provide protection against existing and future strains of COVID-19 and other coronaviruses

A COVID-19 vaccine that could provide protection against existing and future strains of the COVID-19 coronavirus, and other coronaviruses, and cost about $1 a dose has shown promising results in early animal testing.

Vaccines created by UVA Health’s Steven L. Zeichner, MD, PhD, and Virginia Tech’s Xiang-Jin Meng, MD, PhD, prevented pigs from being becoming ill with a pig model coronavirus, porcine epidemic diarrhea virus (PEDV). The vaccine was developed using an innovative approach that Zeichner says might one day open the door to a universal vaccine for coronaviruses, including coronaviruses that previously threatened pandemics or perhaps even coronaviruses that cause some cases of the common cold.

Their coronavirus vaccine offers several advantages that could overcome major obstacles to global vaccination efforts. It would be easy to store and transport, even in remote areas of the world, and could be produced in mass quantities using existing vaccine-manufacturing factories.

The UVA and Virginia Tech scientists created the vaccine using a new platform Zeichner invented to rapidly develop new vaccines. So the testing success bodes well for both the COVID-19 vaccine and Zeichner’s vaccine-development approach.

“Our new platform offers a new route to rapidly produce vaccines at very low cost that can be manufactured in existing facilities around the world, which should be particularly helpful for pandemic response,” Zeichner said.

New Vaccine Approach

Zeichner’s new vaccine-production platform involves synthesizing DNA that directs the production of a piece of the virus that can instruct the immune system how to mount a protective immune response against the virus.

That DNA is inserted into another small circle of DNA called a plasmid that can reproduce within bacteria. The plasmid is then introduced into bacteria, instructing the bacteria to place pieces of proteins on their surfaces. The technique uses the common bacteria E. coli.

One major innovation is that the E. coli have had a large number of its genes deleted. Removing many of the bacteria’s genes, including genes that make up part of its exterior surface or outer membrane, appears to substantially increase the ability of the immune system to recognize and respond to the vaccine antigen placed on the surface of the bacteria.

To produce the vaccine, the bacteria expressing the vaccine antigen are simply grown in a fermenter, much like the fermenters used in common microbial industrial processes like brewing, and then killed with a low concentration of formalin.

“Killed whole-cell vaccines are currently in widespread use to protect against deadly diseases like cholera and pertussis. Factories in many low-to-middle-income countries around the world are making hundreds of millions of doses of those vaccines per year now, for a $1 per dose or less,” Zeichner said. “It may be possible to adapt those factories to make this new vaccine. Since the technology is very similar, the cost should be similar too.”

The entire process, from identifying a potential vaccine target to producing the gene-deleted bacteria that have the vaccine antigens on their surfaces, can take place very quickly, in only two to three weeks, making the platform ideal for responding to a pandemic.

Targeting Coronavirus

Zeichner and Meng’s vaccine takes an unusual approach in that it targets a part of the spike protein of the virus, the “viral fusion peptide,” that is essentially universal among coronaviruses. The fusion peptide has not been observed to differ at all in the many genetic sequences of SARS-CoV-2, the virus that causes COVID-19, that have been obtained from thousands of patients around the world during the pandemic.

Meng and Zeichner made two vaccines, one designed to protect against COVID-19, and another designed to protect against PEDV. PEDV and the virus that causes COVID-19 are both coronaviruses, but they are distant relatives. PEDV and SARS-CoV-2, like all coronaviruses, share several of the amino acids that constitute the fusion peptide. PEDV infects pigs, causing diarrhea, vomiting and high fever, and has been a large burden on pig farmers around the world. When PEDV first appeared in pig herds in the US, it killed almost 10% of US pigs – a pig pandemic.

One advantage of studying PEDV in pigs is that Meng and Zeichner could study the ability of the vaccines to offer protection against a coronavirus infection in its native host – in this case, pigs. The other models that have been used to test COVID-19 vaccines study SARS-CoV-2 in non-native hosts, such as monkeys or hamsters, or in mice that have been genetically engineered to enable them to be infected with SARS-CoV-2. Pigs are also very similar in physiology and immunology to people – they may be the closest animal models to people other than primates.

In some unexpected results, Meng and Zeichner observed that both the vaccine against PEDV and the vaccine against SARS-CoV-2 protected the pigs against illness caused by PEDV. The vaccines did not prevent infection, but they protected the pigs from developing severe symptoms, much like the observations made when primates were tested with candidate COVID-19 vaccines. The vaccines also primed the immune system of the pigs to mount a much more vigorous immune response to the infection. If both the PEDV and the COVID-19 vaccines protected the pigs against disease caused by PEDV and primed the immune system to fight the disease, it is reasonable to think that the COVID-19 vaccine would also protect people against severe COVID-19 disease, the scientists say.

See Also

Next Steps

Additional testing – including human trials – would be required before the COVID-19 vaccine could be approved by the federal Food and Drug Administration or other regulatory agencies around the world for use in people, but the collaborators are pleased by the early successes of the vaccine-development platform.

Zeichner added that he was encouraged that a collaboration between UVA and Virginia Tech, schools with a well-known sports rivalry, has produced such promising results.

“XJ is just an amazing collaborator and a wonderful scientist. And he is incredibly generous with his time and the resources he has available,” Zeichner said. “If UVA and Virginia Tech scientists can work together to try to do something positive to address the pandemic, then maybe there is some hope for collaboration and cooperation in the country at large.”

 

Original Article: New COVID-19 vaccine may offer broad protection from coronaviruses

More from: University of Virginia | Virginia Polytechnic Institute and State University

 

 

The Latest Updates from Bing News & Google News

Go deeper with Bing News on:
COVID-19 vaccine
Go deeper with Google Headlines on:
COVID-19 vaccine

[google_news title=”” keyword=”COVID-19 vaccine” num_posts=”5″ blurb_length=”0″ show_thumb=”left”]

Go deeper with Bing News on:
Coronavirus vaccine
Go deeper with Google Headlines on:
Coronavirus vaccine

[google_news title=”” keyword=”coronavirus vaccine” num_posts=”5″ blurb_length=”0″ show_thumb=”left”]

What's Your Reaction?
Don't Like it!
0
I Like it!
0
Scroll To Top