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R01AI150885

Project Grant

Overview

Grant Description
High-Throughput Assays and Small-Molecule Discovery of Antiviral Candidates Targeting Influenza Hemagglutinin - Project Summary / Abstract

Influenza A viruses exhibit extreme diversity as exemplified by the multiple serotypes of the hemagglutinin (HA, H1-H18) and neuraminidase (NA, N1-N11) surface antigens. To date, only 3 of 198 possible combinations of HA and NA in avian and other animal reservoirs have been associated with human pandemics (H1N1, H2N2, H3N2). Recent appearances of H5N1, H6N1, H7N7, H7N9, H9N2, and H10N8 in humans are constant reminders of the potential for devastating new pandemics. Influenza B viruses with its two lineages further increase the health and economic burdens of seasonal influenza.

No effective antiviral drugs are currently available for preventing entry of influenza A or B viruses into host cells (scientific premise). However, relatively recent discoveries of broadly neutralizing antibodies to human influenza viruses and concomitant structural studies have identified sites-of-vulnerability on the HA in pandemic, seasonal, and emerging influenza viruses. These HA surface sites include the receptor binding site and membrane-proximal stem housing the fusion machinery, both of which are essential for cellular infection. Common features for recognition of these sites can now be exploited in design of small molecules to ultimately develop broadly applicable influenza antivirals.

Here, we will employ this structural information into the optimization and execution of high-throughput assays to identify new small-molecule scaffolds that target the highly conserved and vulnerable stem-binding site. High-throughput screening will be performed in parallel on representative HAs from influenza A group 1 against 600K structurally diverse molecules (SA1). We will also subject group 2 and influenza B HAs to a 300K compound screen (SA2). Validated hit compounds will be prioritized based on affinity and breadth across HAs, and top candidates will be rigorously optimized into lead molecules by X-ray structure-based design cycled with medicinal chemistry. Biophysical binding, cellular infectivity, and resistance assays (e.g., combinatorial viral libraries of HA mutants) will aid in iterative design, selection, and characterization of potential novel therapeutic candidates with favorable drug-like properties. All of these methods are actively employed in the Wolan and Wilson laboratories.

As proof-of-concept for this approach, we identified a molecule with modest affinity to the stem of group 1 HAs with an HT assay of our own design. Its co-crystal structure with HA provided critical information towards design and synthesis of a focused compound library, which we used to produce a stereoselective molecule with nanomolar affinity and antiviral activity. Our overall goal is to identify and improve molecules with broad potency against the stem of groups 1 and 2 as well as flu B HAs. To our knowledge, we are the first to design an assay against group 2 and flu B HAs amenable to HTS (innovation). We anticipate that several classes of stem-targeted compound scaffolds will be identified with nanomolar affinity to HAs with cellular antiviral activity and suitable PK-ADME properties. Future efforts will include animal models of influenza infections to further validate our antivirals with the ultimate goal of combating future influenza pandemics and seasonal epidemics.
Funding Goals
<P>THE GOALS ARE:</P><UL><LI>TO FOSTER FUNDAMENTAL CREATIVE DISCOVERIES, INNOVATIVE RESEARCH STRATEGIES, AND THEIR APPLICATIONS AS A BASIS FOR ULTIMATELY PROTECTING AND IMPROVING HEALTH;</LI><LI>TO DEVELOP, MAINTAIN, AND RENEW SCIENTIFIC HUMAN AND PHYSICAL RESOURCES THAT WILL ENSURE THE NATION'S CAPABILITY TO PREVENT DISEASE;</LI><LI>TO EXPAND THE KNOWLEDGE BASE IN MEDICAL AND ASSOCIATED SCIENCES IN ORDER TO ENHANCE THE NATION'S ECONOMIC WELL-BEING AND ENSURE A CONTINUED HIGH RETURN ON THE PUBLIC INVESTMENT IN RESEARCH; AND</LI><LI>TO EXEMPLIFY AND PROMOTE THE HIGHEST LEVEL OF SCIENTIFIC INTEGRITY, PUBLIC ACCOUNTABILITY, AND SOCIAL RESPONSIBILITY IN THE CONDUCT OF SCIENCE.</LI></UL><P>IN REALIZING THESE GOALS, THE NIH PROVIDES LEADERSHIP AND DIRECTION TO PROGRAMS DESIGNED TO IMPROVE THE HEALTH OF THE NATION BY CONDUCTING AND SUPPORTING RESEARCH:</P><UL><LI>IN THE CAUSES, DIAGNOSIS, PREVENTION, AND CURE OF HUMAN DISEASES;</LI><LI>IN THE PROCESSES OF HUMAN GROWTH AND DEVELOPMENT;</LI><LI>IN THE BIOLOGICAL EFFECTS OF ENVIRONMENTAL CONTAMINANTS;</LI><LI>IN THE UNDERSTANDING OF MENTAL, ADDICTIVE AND PHYSICAL DISORDERS; AND</LI><LI>IN DIRECTING PROGRAMS FOR THE COLLECTION, DISSEMINATION, AND EXCHANGE OF INFORMATION IN MEDICINE AND HEALTH, INCLUDING THE DEVELOPMENT AND SUPPORT OF MEDICAL LIBRARIES AND THE TRAINING OF MEDICAL LIBRARIANS AND OTHER HEALTH INFORMATION SPECIALISTS.</LI></UL>
Place of Performance
La Jolla, California 920371000 United States
Geographic Scope
Single Zip Code
Analysis Notes
Amendment Since initial award the End Date has been extended from 04/30/25 to 06/30/31 and the total obligations have increased 433% from $678,526 to $3,614,033.
Scripps Research Institute was awarded High-Throughput Assays for Antiviral Discovery Targeting Influenza HA Project Grant R01AI150885 worth $3,614,033 from the National Institute of Allergy and Infectious Diseases in May 2021 with work to be completed primarily in La Jolla California United States. The grant has a duration of 10 years 1 months and was awarded through assistance program 93.855 Allergy and Infectious Diseases Research. The Project Grant was awarded through grant opportunity NIH Research Project Grant (Parent R01 Clinical Trial Not Allowed).

Status
(Ongoing)

Last Modified 7/6/26

Period of Performance
5/1/21
Start Date
6/30/31
End Date
51.0% Complete

Funding Split
$3.6M
Federal Obligation
$0.0
Non-Federal Obligation
$3.6M
Total Obligated
100.0% Federal Funding
0.0% Non-Federal Funding

Activity Timeline

Interactive chart of timeline of amendments to R01AI150885

Transaction History

Modifications to R01AI150885

Additional Detail

Award ID FAIN
R01AI150885
SAI Number
R01AI150885-868279193
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Nonprofit With 501(c)(3) IRS Status (Other Than An Institution Of Higher Education)
Awarding Office
75NM00 NIH National Institute of Allergy and Infectious Diseases
Funding Office
75NM00 NIH National Institute of Allergy and Infectious Diseases
Awardee UEI
PHZJFZ32NKH4
Awardee CAGE
08PA3
Performance District
CA-50
Senators
Dianne Feinstein
Alejandro Padilla

Budget Funding

Federal Account Budget Subfunction Object Class Total Percentage
National Institute of Allergy and Infectious Diseases, National Institutes of Health, Health and Human Services (075-0885) Health research and training Grants, subsidies, and contributions (41.0) $1,357,052 100%
Modified: 7/6/26