Abstract
Background
EVUSHELD was developed for the prevention and treatment of mild-to-moderate COVID-19 for high-risk individuals. However, the SARS-CoV-2 virus continues to evolve in the presence of natural- and vaccine-acquired immunity, escaping previously authorized antibody therapies such as bebtelovimab and EVUSHELD.
AZD3152 was selected to neutralize all known SARS-CoV-2 variants of concern and is being developed to provide immunocompromised individuals with continued protection against SARS-CoV-2.
Methods
Structural analyses were performed to map the AZD3152 binding site. Neutralization assays were employed to determine the potency of AZD3152 across a panel of historical and emerging SARS-CoV-2 variants. Hamsters were prophylactically administered 6.7-60 mg/kg AZD3152 or a control antibody, then challenged intranasally with 6x103 PFU WA-1 SARS-CoV-2, then monitored for weight loss; lung viral load and pathology were evaluated at days 3 and 7.
A 3 week GLP repeat IM and IV dose toxicity study in nonhuman primates (NHP) was performed.
Results
AZD3152 binds to a conserved epitope on the spike receptor binding domain and blocks ACE2 binding. AZD3152 potently neutralizes authentic viral variants (EC50 range, 8.3 to 110.9 ng/mL) and SARS-CoV-2 pseudoviruses (EC50 range of 3.2 to 25.0 ng/mL), including XBB.1.5. Prophylactic administration of AZD3152 conferred dose-dependent protection to hamsters following challenge. Even at a suboptimal dose of 6.7 mg/kg, < 5% weight loss and 2 logs reduction in lung viral subgenomic RNA were observed. AZD3152 was not associated with any adverse findings in NHP and the no observed-adverse-effect-level was the highest dose tested (150 mg/kg). Toxicokinetics demonstrated similar systemic exposure following IM and IV dosing with bioavailability of 94.9% and half-life range of 15.2-26.5 days by IM.
Conclusion
These results demonstrate that AZD3152 binds a conserved epitope resulting in broad neutralization of SARS-CoV-2 variants, protects hamsters from disease, and has a favorable safety profile in NHP. Thus, AZD3152 may serve as a next-generation antibody for the prevention and treatment of COVID-19.
Disclosures
Joseph R Francica, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Yingyun Cai, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Seme Diallo, MS, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Kim Rosenthal, MS, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Kuishu Ren, BS, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Daniel J. Flores, MS, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Andrew Dippel, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Yuling Wu, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Xiaoru Chen, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Erin Cantu, BS, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Rakesh Choudhary, MS, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Michal Sulikowski, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Hibret Adissu, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Nydia van Dyk, MSc, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Vaheh Oganesyan, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Saravanan Rajan, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Patricia C. Ryan, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Yueh-Ming Loo, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Taylor Cohen, PhD, AstraZeneca: Employement|AstraZeneca: Stocks/Bonds Mark T. Esser, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds Wade Blair, PhD, AstraZeneca: Employee|AstraZeneca: Stocks/Bonds