CETR OVERALL ABSTRACT Widespread antimicrobial resistance (AMR), both in the USA and globally, has made it increasingly difficult to treat enteric and invasive nosocomial bacterial infections that were previously responsive to antimicrobials. Among the most important enteric bacterial pathogens that cause severe clinical disease and death if they cannot be treated with effective antibiotics are ones that cause diarrhea, dysentery or enteric fever. Some bacterial enteric pathogens are epidemiologically emerging or re-emerging, e.g.: multi-drug resistant H58 lineage of Salmonella Typhi; S. Paratyphi A; multi-drug resistant Shigella; drug-resistant Campylobacter jejuni and Clostridium difficile. A few bacterial enteropathogens are of special interest from the civilian biodefense perspective, as they have been used by nefarious individuals to promulgate bioterror (non-typhoidal Salmonella [NTS]), or have properties that suit them to such a purpose (Shigella dysenteriae 1). Two of the most important opportunistic drug-resistant bacterial pathogens that cause invasive infections in compromised hosts are Klebsiella pneumoniae and Pseudomonas aeruginosa. Vaccines and other preventives against these pathogens can ameliorate the AMR problem by preventing clinical disease, thereby precluding the need to administer antibiotics and relieving selection pressure. The five projects described in this Center of Excellence for Translational Research (CETR) proposal, bonded by the theme ?Active Vaccination and Passive Antibody Strategies to Prevent Disease Caused by Multidrug-Resistant Bacterial Pathogens?, will undertake translational research towards developing the following countermeasures to prevent disease caused by important multi-drug resistant bacterial pathogens: an improved Shigella live vector vaccine consisting of 6 attenuated strains of key serotypes, each expressing protective antigens to prevent clinical illness caused by ETEC, as well as Shigella (Project 1); engineered attenuated NTS strains representing serogroups B, C1, C2 & D to serve as a multivalent broadly protective live oral vaccine (Project 2); a conjugate vaccine consisting of O polysaccharides of K. pneumoniae serotypes O1, O2, O3 & O5, representing the vast majority of invasive isolates, linked to flagellin type A or B of P. aeruginosa, to prevent invasive disease (Project 3); the probiotic yeast Saccharomyces boulardii engineered to secrete antibodies against K. pneumoniae fimbriae that mediate intestinal colonization, thereby diminishing a major risk factor (colonization) for invasive disease (Project 3); recombinant S. boulardii that secrete antibodies directed against C. difficile toxins and somatic antigens or against flagellin of C. jejuni, administered orally to inhibit gut colonization and prevent diarrheal disease (Project 4); a compendium of immune response measurements to Salmonella serovars to identify correlates of protection and guide development of broadly protective live oral Salmonella vaccines (Project 5). Translational research will advance these countermeasures to where Investigational New Drug Applications (IND) can be prepared to initiate Phase 1 clinical trials.

Public Health Relevance

So-called ?enteric infections?, which include different types of diarrheal illnesses, dysentery (bloody diarrhea) and typhoid fever, along with bacterial infections acquired in hospital that invade the bloodstream, represent unsolved clinical problems that particularly affect young children, the elderly, and those with impaired immune systems, in both advanced countries like the USA and among underprivileged populations in developing countries. As disease-causing microorganisms (germs) are becoming increasingly resistant to antibiotics, new vaccines and other tools to prevent these infections can solve the antibiotic resistance problem by preventing the disease altogether, thereby avoiding the need to give antibiotics. If the ?Center of Excellence for Translational Research? that we are proposing is successful, it will speed up development of safe and effective new vaccines and other preventive tools for some of the most worrisome, difficult to treat, antibiotic-resistant, potentially-lethal infections, thereby preventing hundreds of thousands of illnesses and saving thousands of lives in the USA and worldwide.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program--Cooperative Agreements (U19)
Project #
5U19AI142725-03
Application #
10118082
Study Section
Special Emphasis Panel (ZAI1)
Program Officer
Alexander, William A
Project Start
2019-03-15
Project End
2024-02-29
Budget Start
2021-03-01
Budget End
2022-02-28
Support Year
3
Fiscal Year
2021
Total Cost
Indirect Cost
Name
University of Maryland Baltimore
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
188435911
City
Baltimore
State
MD
Country
United States
Zip Code
21201