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Active NON-SBIR/STTR RPGS NIH (US)

Dissecting the role of sialic acid and sialidase in the pathophysiology of Porphyromonas gingivalis

$4.84M USD

Funder NATIONAL INSTITUTE OF DENTAL & CRANIOFACIAL RESEARCH
Recipient Organization Virginia Commonwealth University
Country United States
Start Date Feb 15, 2021
End Date Jan 31, 2026
Duration 1,811 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 10350709
Grant Description

The overarching goal of this application is to investigate the role of sialidase and sialic acid in the keystone pathogen Porphyromonas gingivalis (Pg) and their contributions to the pathogenesis of periodontitis. Sialic acid (SA), a group of structurally related nine-carbon sugar acids, plays critical roles in host-pathogen interactions.

On the host side, mammalian mucosal surfaces and secretions of the mouth, airway, gut, and vagina are especially sialoglycan-rich, which have a variety of biological, biophysical, antimicrobial, and immunological functions. In addition, a number of cell surface receptors (e.g., chemokine-, immunoglobulin-, and toll-like-

receptors) are either sialylated or recognize sialylated ligands, which play critical roles in immune recognition and activation. On the pathogen side, many bacterial pathogens have evolved different mechanisms to target host SA for adherence, invasion, immune modulation and nutrient acquisition, thereby promoting their fitness

and pathogenesis. Specifically, bacterial pathogens often use sialidases to hydrolyze host sialoglycans, compromise host immune defenses, and promote their survival in the mucosal niche. Salivary and gingival crevicular fluids contain a high concentration of SA bound to sialoglycans in various proteins such as mucins.

Clinical studies indicate that sialidase activity in the oral cavity is positively associated with the severity of periodontitis; thus, it is recommended as a biomarker for periodontitis diagnosis. Accordingly, sialidases have been found in numerous oral bacteria including the keystone pathogen Porphyromonas gingivalis (Pg). Pg

lacks genes to synthesize SA. Instead, it encodes a sialidase (PG0352), which is highly conserved among all genome sequenced Pg isolates. Previous studies from our group and others have shown that PG0352 plays a crucial role in Pg capsule synthesis, biofilms, stress response, innate immune responses, and virulence.

However, the molecular mechanism underlying these phenotypes remains elusive. In this application, we hypothesize that Pg employs a sialidase and a SA specific transporter to scavenge host SA, which is in turn used to modify Pg cell surface molecules such as capsule and lipopolysaccharide (LPS), thereby intercepting

host innate immune defenses, such as complement killing and phagocytosis of neutrophils and macrophage. To test this hypothesis, the following studies are specifically designed and will be implemented: Aim 1: To delineate the biochemical and structural features of PG0352 by using an approach of genetics, biochemistry, and

crystallography; Aim 2: To investigate how Pg imports and utilizes SA by using a multidisciplinary approach of genetics, biochemistry, glycobiology, immunology, and biofilm assays; and Aim 3: To elucidate the role of PG0352 in the pathogenicity of Pg by using various in vitro and in vivo approaches. Completion of this project

will not only provide mechanistic insights into understanding the role of SA and sialidase in the pathophysiology of Pg and perhaps other oral pathogens as well, but also will pave a way for future development of specific sialidase inhibitors against oral pathogens, which can provide alternatives to mitigate periodontal diseases.

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Virginia Commonwealth University

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