Michelson Prizes- Next-Generation Grants: Advancing Immunology and Vaccine Innovation ePanel

On March 24, 2023, Keystone Symposia will host a live ePanel event featuring the recipients of the Michelson Prizes: Next Generation Grants, an international prize that supports early-career researchers who are applying disruptive concepts and inventive processes to advance human immunology, vaccine discovery, and immunotherapy research. The prize is a collaboration between the Michelson Medical Research Foundation and the Human Immunome Project. Presented since 2017, the $150,000 research grants are awarded annually to encourage and support young investigators from a wide range of disciplines.

The ePanel event will showcase the 2022 award recipients Noam Auslander, Romain Guyon, Brittany Hartwell and Jenna Guthmiller, and their groundbreaking work to improve vaccine development.  (Read more about their innovative work below)  Each will present their award-winning research and participate in a live Q&A panel discussion with the global audience.

Introductory remarks will be made by Dr. Gary Michelson, founder and co-chair of Michelson Philanthropies and the Michelson Medical Research Foundation, and Dr. Wayne Koff, president and CEO of the Human Immunome Project.

Register HERE to attend this free ePanel Event!

Michelson HIP 2023 ePanel FINAL

Applications for the 2023 Michelson Prizes open on April 3.

For more information, visit:

  https://www.michelsonmedicalresearch.org/michelson-prizes-next-generation  & https://www.humanimmunomeproject.org/michelson-prizes/

#MichelsonPrizes

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The 2022 Michelson Laureates

Noam-blog

Assistant Professor, Molecular & Cellular Oncogenesis Program, The Wistar Institute
 
Artificial intelligence-based identification of microbes associated with immune responses in cancer and immune diseases.
 

Dr. Auslander is developing an artificial intelligence-based approach to efficiently detect microbial expression in cancer and immune diseases. Her approach outperforms existing strategies and allows the detection of new microbes in human disease tissues, whose expression correlates with patients’ immune responses and disease outcomes. Dr. Auslander’s successful proposal offers a new technique to study the role of microbes in disease immune responses and to ultimately improve both vaccine and immunotherapy development.

 
 
Guyon-blog
PhD Student, The University of Oxford
 
Demonstration of new single-dose vaccine technology towards a first-in-man clinical application.
 

Single-dose immunization could provide an effective solution to improving global vaccination coverage and easing the logistical and cost burdens during outbreaks. Mr. Guyon uses a novel microfluidics system to generate biodegradable particles encapsulating the vaccine booster dose to be delivered with the priming vaccine dose in a single injection, delaying the booster release in the body. Mr. Guyon’s successful proposal will assess the utility of this technology using the licensed rabies vaccine for single-visit post-exposure prophylaxis and assess scale-up feasibility to facilitate a first-in-human clinical trial.

 
 
hartwell-blog
Assistant Professor, Dept. of Biomedical Engineering, University of Minnesota
 
Engineering albumin-hitchhiking intranasal vaccines with enhanced transmucosal uptake to promote protective immunity.
 

To combat the global HIV epidemic and evolving threats such as SARS-CoV-2, immunization strategies are needed that elicit protection at mucosal portals of entry to halt transmission. Immunization directly through airway surfaces is effective in driving mucosal immunity, but poor vaccine uptake across mucosal barriers is a major limitation. Dr. Hartwell’s winning proposal uses a strategy of ‘albumin hitchhiking’ that enables an intranasal vaccine to efficiently bypass mucosal barriers in the nose in order to promote stronger mucosal immunity.

 
 
 
Guthmiller-blog
Assistant Professor, Dept. of Immunology & Microbiology,
University of Colorado Anschutz School of Medicine
 
Mapping preexisting mucosal B cell specificities engaged by potential universal influenza vaccines.
 

Universal influenza vaccines have the potential to provide broad protection against circulating and emerging influenza viruses. However, the preexisting B cell repertoires that can be stimulated by these vaccines at the site of infection remain uncharted. Dr. Guthmiller’s successful proposal will map the preexisting human B cell repertoire within the draining lymph nodes of the upper and lower respiratory tract that bind and respond to next-generation influenza vaccines. This study will provide a framework of B cell specificities in the respiratory tract to improve mucosal vaccine design. 

 
 
to see the awardees present their work and ask your questions live!
 
 
In collaboration with:
 
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