Periodic Reporting for period 3 - CARE (Corona Accelerated R&D in Europe)
Berichtszeitraum: 2022-04-01 bis 2023-03-31
CARE has developed an insight-driven research approach that simultaneously addresses the therapeutic needs of patients with COVID-19 now, while also considering the needs of future patients, by initiating research to discover and develop new treatments to protect against SARS-CoV-2, its variants of concern and other coronavirus threats.
In this context, the CARE consortium aims to foster synergies between research, industry and the clinic to accelerate the development of effective therapies and improve evidence-based patient management. We are one project with two areas of focus: rapid emergency response and long-term preparedness for future outbreaks. Our goal is to apply these learnings to the current COVID-19 emergency response through drug repositioning, and current and/or future coronavirus outbreaks by broad-spectrum small-molecule drug discovery and/or virus-neutralizing antibody discovery. To achieve this, a collection of repurposed drugs, focused libraries and small molecule libraries will be screened against SARS-CoV-2, other emerging SARS-CoV-2 variants of concern and related coronavirus genera in phenotypic or target-based assays. A focused medicinal chemistry campaign will identify small-molecule hits. In parallel, virus-neutralizing monoclonal antibodies will be generated and further characterized. Lead candidates will be evaluated in preclinical studies and advanced into Phase 1 and Phase 2 clinical trials in humans. Finally, immune markers will be identified contributing to the host immune responses to SARS-CoV-2 infections, and the correlation with clinical and virological outcomes will be determined.
The small molecule drug discovery efforts performed within CARE have led to the identification of several antiviral compound series with innovative mechanism of action which can form the basis of preventive or therapeutic interventions against coronaviruses. A selection of compound series is being developed towards candidate drugs and proof-of-concept animal models has been obtained for two programs. CARE has indeed validated several animals models, including mouse, syrian hamster and non-human primate models.
CARE has delivered two well-characterized potent monoclonal antibodies, CH-P5C3 and CH-P2G3, isolated from human donor B cells. Both antibodies showed complete prophylactic protection in hamsters challenged with SARS-CoV-2 virus. The epitopes for CH-P5C3 and CH-P2G3 do not overlap, thereby allowing both antibodies to bind to the Spike protein simultaneously and greatly reducing the risk of escape mutants. CARE is now developing neutralizing antibodies with broader activity against Sarbecoviruses and/or more broadly against betacoronaviruses by evaluating bispecific antibodies that would synergise in neutralizing potency and breadth in binding two conserved epitopes on the Spike protein. Several of these bispecific antibodies have potential improvements in potency and/or breadth against recent variants including BQ.1.1.
OMICS experiments are ongoing to evaluate the physiopathology of SARS-CoV-2 infection. This will complement the analyses of the samples from French and Swiss COVID-19 cohorts which highlighted neutrophil activation as a hallmark of severe disease, and characterized a “core signature” of gene expression in convalescent severe COVID-19 patients and a gene expression profile associated with thrombosis in these subjects.
CARE has establish a complete Clinical Trial Platform infrastructure and site network for the design and conduct of clinical trials targeting COVID-19. The platform covers different aspects to speed up the setup and conduct of a clinical trial. The clinical trial platform also offers services that may be of interest to outside stakeholders looking for a clinical trial network with a specific expertise in COVID-19.
It is now recognized that antiviral drugs will be needed after the SARS-CoV-2 pandemic, and to prepare for potential future coronavirus outbreaks. The availability of a potent, broad-spectrum anti-coronavirus drug will allow treatment of patients (such as transplant patients or individuals with other immune system deficiencies) that cannot be vaccinated, as well as rapid deployment after the detection of a spill-over event or outbreak with a new coronavirus. As such, therapeutical containment will be instrumental in halting the current SARS-CoV-2 pandemic, and preventing the social-economic burden of the next one.