by University of Alabama at Birmingham
Credit: University of Alabama at Birmingham
Preclinical studies of a COVID-19 vaccine candidate at the University of Alabama at Birmingham show positive results that appear to distinguish this vaccine candidate from other vaccine candidates that are currently in advanced stages of clinical development, the Maryland-based Altimmune Inc. announced today.
Unlike the other candidates that are administered by an intramuscular shot, the Altimmune candidate, AdCOVID, is administered by a single intranasal spray. In animal models at UAB, that single dose resulted in a potent T-cell response at the mucus layer of the lungs, including killer CD8+ T-cells, which can recognize and kill virally infected cells. Recent reports have suggested the importance of T-cell responses for long-term protection from COVID-19.
"The mucosal T-cell response in the respiratory tract is believed to be dependent on the intranasal route of administration, and we believe it has the potential to provide additional protection against COVID-19," Altimmune announced today in a press release. "The induction of a mucosal T-cell response in the lungs has not been shown, to date, with the intramuscularly administered COVID-19 vaccine candidates that are currently in the advanced stages of clinical development."
This news follows the July announcement by Altimmune that the vaccine candidate—tested as an intranasal spray in mice by UAB researchers—prompted a mouse immune response in the blood that was strong enough to neutralize the COVID-19 virus, as well as a potent immune response in the respiratory tract—the site where the COVID-19 virus first infects. The vaccine candidate creates an immune response against the COVID-19 virus spike protein that helps the virus bind to a human cell to start infection.
"The property that sets AdCOVID apart is that it has been shown preclinically to induce a potent T-cell and IgA antibody response in the lungs, in addition to the systemic neutralizing antibody response induced by intramuscular vaccine candidates," said Frances Lund, Ph.D., the Charles H. McCauley Professor and chair of the UAB Department of Microbiology and lead investigator for preclinical testing of the AdCOVID vaccine candidates. "This local mucosal immune response is an important addition to the systemic immune response and has the potential to block infection and prevent transmission."
In addition to potent immunogenicity after a single dose administration, AdCOVID is expected to show further benefits in terms of vaccine distribution and administration. Intranasal dosing provides AdCOVID with the potential to be administered rapidly and without the need for needles, syringes or trained health care personnel. Also, the expected room temperature stability of AdCOVID may allow broad distribution of the vaccine without the need for expensive cold-chain logistics, such as refrigeration or freezing.
Altimmune is currently manufacturing AdCOVID for a human Phase 1 safety and immunogenicity study, expected to begin in the fourth quarter of 2020.
The Altimmune-UAB collaboration was announced March 30, and Lund made that work the highest priority for her group, which included six UAB labs, all working under UAB COVID-19 safety protocols. "The goal," she said at the time, "is to get the data to Altimmune as rapidly as possible, so they will use the information gained from the preclinical study to design their clinical trial in people."
In detail, Altimmune's announcement today said that AdCOVID showed potent stimulation of antigen-specific CD4+ and CD8+ T-cells in the lungs of CD-1 mice as early as 10 days following a single intranasal vaccination, with responses strongly biased toward CD8+ T-cells. Both CD4+ and CD8+ T-cells displayed phenotypes consistent with the Th1-type immune response that is important for control of viral infection.
Provided by University of Alabama at Birmingham
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