Vancouver biotech company discovering antibodies for COVID-19 treatment
FILE - In this April 14, 2020 file photo, a woman holds her hand out to have blood collected for COVID-19 antibodies at a drive-thru site in Hempstead, N.Y. (AP Photo/Seth Wenig, File)
Amy Smart, The Canadian Press
Published Tuesday, May 5, 2020, 8:01AM EDT
VANCOUVER -- There may be another valuable shield in the fight against COVID-19, and the head of a Vancouver biotech firm says it could buy time as researchers race to develop a vaccine.
Carl Hansen, CEO of AbCellera Biologics Inc., said a drug built with antibodies could be used to protect vulnerable populations until a vaccine is more widely available.
The antibodies would give patients all the molecular material they need to fight the disease instead of depending on their bodies to develop their own as with a vaccine, giving them faster protection, he said.
"A prophylactic antibody could well be more effective than a vaccine," he said.
On Sunday, Prime Minister Justin Trudeau announced $175 million federal funding for AbCellera to support its work in discovering those antibodies using a high-tech platform.
The funding also supports the company's plans to build technology and manufacturing infrastructure for antibody therapies against future pandemic threats.
In partnership with pharmaceutical giant Eli Lilly, AbCellera is among a handful of companies on track for clinical trials this summer.
"There are many groups trying to rapidly develop vaccines for COVID-19 and vaccines are a very important part of the global response," Hansen said.
"What we're doing is different. What we're doing is searching through an immune response that was generated from an actual infection and recovery in a patient and then finding that one antibody out of the literally millions that is best suited to stop the virus and that can be manufactured," he said.
In 2012, Hansen said AbCellera recognized it could combine technologies from artificial intelligence, genomics, microfluidics, and immunology to quickly search through natural immune systems to find antibodies that fight infection.
Two years ago, AbCellera began working with the Defense Advanced Research Projects Agency in the United States as part of a program to "radically accelerate" pandemic response, Hansen said. The company was working on simulations using its antibody-identifying technology when the COVID-19 pandemic struck.
"We quickly pivoted our efforts," Hansen said.
Using blood samples from one of the first recovered COVID-19 patients in the United States on Feb. 25, AbCellera began screening millions of cells.
It narrowed down 500 unique human antibodies against the virus to a set of 24 that showed high promise of being therapeutic, he said.
"More recently we have further refined that set to a single antibody that is now being manufactured with the objective of having a first-in-human trial start in July," Hansen said.
What typically takes up to five years has been accelerated to less than four months, he said.
Vaccines and antibody-based prevention drugs work differently. With a vaccine, you inject a patient with a weakened virus or part of a virus to stimulate the immune system's natural production of antibodies. With a prophylactic antibody, you insert the antibodies into the patient, Hansen said.
There are benefits and drawbacks. On one hand, prophylactics create more immediate protection because there's no waiting period for the body to create its own antibodies. It's also more broadly effective, because not all patients' immune systems may be up to the task of producing their own antibodies.
On the other hand, a substantial number of antibodies must be administered to the patient in order to protect them.
"What that means is that the ability to manufacture hundreds of millions or even a billion doses of a vaccine is something well within the realm of possibility today. Making that many doses of antibodies is not," he said.
That would mean giving the antibody to select groups of people at risk, such as health workers or the elderly, Hansen said.
The World Health Organization recommends that pharmacological treatment for COVID-19 should not be used outside of clinical trials.
On April 27, British Columbia's COVID-19 therapeutics committee issued the same warning.
"There are no proven therapies for the prevention or treatment of COVID-19. All agents have the possibility of associated harm, and pharmaceutical supplies province-wide and nationally for many of the possible agents are severely limited," it said.
For Hansen, research and development during the pandemic has not been business as usual.
"It's not a race against our competitors nearly as much as it's a race against the virus," he said.
"What matters most is we get a therapy out there that works for patients and do so as quickly as possible."
This report by The Canadian Press was first published on May 5, 2020.
FILE - In this April 14, 2020 file photo, a woman holds her hand out to have blood collected for COVID-19 antibodies at a drive-thru site in Hempstead, N.Y. (AP Photo/Seth Wenig, File)
Amy Smart, The Canadian Press
Published Tuesday, May 5, 2020, 8:01AM EDT
VANCOUVER -- There may be another valuable shield in the fight against COVID-19, and the head of a Vancouver biotech firm says it could buy time as researchers race to develop a vaccine.
Carl Hansen, CEO of AbCellera Biologics Inc., said a drug built with antibodies could be used to protect vulnerable populations until a vaccine is more widely available.
The antibodies would give patients all the molecular material they need to fight the disease instead of depending on their bodies to develop their own as with a vaccine, giving them faster protection, he said.
"A prophylactic antibody could well be more effective than a vaccine," he said.
On Sunday, Prime Minister Justin Trudeau announced $175 million federal funding for AbCellera to support its work in discovering those antibodies using a high-tech platform.
The funding also supports the company's plans to build technology and manufacturing infrastructure for antibody therapies against future pandemic threats.
In partnership with pharmaceutical giant Eli Lilly, AbCellera is among a handful of companies on track for clinical trials this summer.
"There are many groups trying to rapidly develop vaccines for COVID-19 and vaccines are a very important part of the global response," Hansen said.
"What we're doing is different. What we're doing is searching through an immune response that was generated from an actual infection and recovery in a patient and then finding that one antibody out of the literally millions that is best suited to stop the virus and that can be manufactured," he said.
In 2012, Hansen said AbCellera recognized it could combine technologies from artificial intelligence, genomics, microfluidics, and immunology to quickly search through natural immune systems to find antibodies that fight infection.
Two years ago, AbCellera began working with the Defense Advanced Research Projects Agency in the United States as part of a program to "radically accelerate" pandemic response, Hansen said. The company was working on simulations using its antibody-identifying technology when the COVID-19 pandemic struck.
"We quickly pivoted our efforts," Hansen said.
Using blood samples from one of the first recovered COVID-19 patients in the United States on Feb. 25, AbCellera began screening millions of cells.
It narrowed down 500 unique human antibodies against the virus to a set of 24 that showed high promise of being therapeutic, he said.
"More recently we have further refined that set to a single antibody that is now being manufactured with the objective of having a first-in-human trial start in July," Hansen said.
What typically takes up to five years has been accelerated to less than four months, he said.
Vaccines and antibody-based prevention drugs work differently. With a vaccine, you inject a patient with a weakened virus or part of a virus to stimulate the immune system's natural production of antibodies. With a prophylactic antibody, you insert the antibodies into the patient, Hansen said.
There are benefits and drawbacks. On one hand, prophylactics create more immediate protection because there's no waiting period for the body to create its own antibodies. It's also more broadly effective, because not all patients' immune systems may be up to the task of producing their own antibodies.
On the other hand, a substantial number of antibodies must be administered to the patient in order to protect them.
"What that means is that the ability to manufacture hundreds of millions or even a billion doses of a vaccine is something well within the realm of possibility today. Making that many doses of antibodies is not," he said.
That would mean giving the antibody to select groups of people at risk, such as health workers or the elderly, Hansen said.
The World Health Organization recommends that pharmacological treatment for COVID-19 should not be used outside of clinical trials.
On April 27, British Columbia's COVID-19 therapeutics committee issued the same warning.
"There are no proven therapies for the prevention or treatment of COVID-19. All agents have the possibility of associated harm, and pharmaceutical supplies province-wide and nationally for many of the possible agents are severely limited," it said.
For Hansen, research and development during the pandemic has not been business as usual.
"It's not a race against our competitors nearly as much as it's a race against the virus," he said.
"What matters most is we get a therapy out there that works for patients and do so as quickly as possible."
This report by The Canadian Press was first published on May 5, 2020.
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A breakthrough in Israel.
Israel isolates coronavirus antibody in 'significant breakthrough': Minister
The "monoclonal neutralizing antibody" developed at the Israel Institute for Biological Research (IIBR) "can neutralize it (the disease-causing coronavirus) inside carriers' bodies," Defence Minister Naftali Bennett said.
Reuters|
Last Updated: May 06, ..
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A Scripps Research analysis found that the antibody binding site is relatively remote from the part of the virus that grabs hold of cell-surface protein receptors in preparation for penetrating cells in our lungs. That suggests that, at least for SARS-CoV, CR3022 neutralizes the virus’s ability to infect cells in some indirect way.
Adding to the mystery is the finding that the antibody binding site on these viruses is not normally accessible to antibodies.
“We found that this region is usually hidden inside the virus, and only exposed when that part of the virus changes its structure, as it would in natural infection,” says co-first author Meng Yuan, PhD, also a research associate in the Wilson lab.
Despite the slightness of difference between the two coronaviruses, the antibody binds much less tightly to SARS-CoV-2 than it does to the SARS virus, and cannot neutralize SARS-CoV-2 in lab dish tests as it does SARS-CoV.
Still, the findings suggest that the binding site for this antibody on SARS-CoV-2 is a site of vulnerability and that antibodies binding it more tightly would plausibly succeed in neutralizing the virus. Such neutralizing antibodies, if developed into therapies, could be used to treat COVID-19 patients and to provide temporary protection from the virus to uninfected individuals, for example, healthcare workers.
The fact that this binding site is highly conserved between SARS-CoV and SARS-CoV-2 also hints that there may be antibodies, still to be discovered, that can effectively neutralize both viruses—and perhaps in the same way, can neutralize future emergent coronaviruses before they can cause pandemics.
Labs at Scripps Research and throughout the world are currently seeking antibodies, via blood donations, from people who have recovered from COVID-19 for further studies along these lines.
Authors of “A highly conserved cryptic epitope in the receptor-binding domains of SARS-CoV-2 and SARS-CoV” are Meng Yuan, Nicholas Wu, Xueyong Zhu, Chang-Chun Lee, and Ian Wilson, of Scripps Research; and Ray So, Huibin Lv, and Chris Mok of the University of Hong Kong.
Support was provided in part by the National Institutes of Health (K99 AI139445) and the Bill and Melinda Gates Foundation (OPP1170236).
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