Abstract

The lipooligosaccharides of Haemophilus influenzae are important virulence factors. The lipid A portion of the lipooligosaccharide (LOS) is responsible in part for the toxicity associated with this organism. The role of the oligosaccharide portion of the LOS in pathogenesis of H. influenzae infection is less clear. Our preliminary studies outlined in the progress report have shown that these oligosaccharides from Hib and NTHi contain structures which mimic at least 3 different human surface glycolipid antigens (3). In addition, we have cloned two distinct clusters of biosynthesis genes associated with expression of these oligosaccharides (1,2,3). A 7.2 kb portion of one of these clusters has been sequenced and deletion or site directed H. influenzae mutants generated. Transformation of this modified DNA into Hib strain A2 has resulted in isogenic Hib strains with stable LOS mutations which are less invasive in human tissue culture cell lines than the isogenic wild type Hib strain. Our studies have resulted in physicochemical analysis of the structure of oligosaccharides from Hib and NTHi strains. This analysis has shown a unique deep core structure for the H. influenzae LOS oligosaccharide. Simultaneous substitution of the branched tri-heptose in this structure can lead to synthesis of a complex array of oligosaccharide side chains. In addition, physicochemical studies have provided structural confirmation of the oligosaccharide modifications produced by one of the oligosaccharide biosynthesis clusters we have identified. Our hypothesis in this resubmission states that H. influenzae LOS oligosaccharides play a role in pathogenesis by immune evasion through molecular mimicry and act to promote close range adherence to human cells and possibly facilitate human cell invasion. To resolve this hypothesis, we plan to continue to define the nature of the process involved in the biosynthesis of the Hib and NTHi oligosaccharides. In addition, we propose the study of LOS from a H. influenzae biogroup aegyptius (HIA) strain which has been shown to be invasive for the human nasopharyngeal organ culture model (4). By generation of Hib, NTHi and HIA mutants expressing a limited repertoire of oligosaccharides, we will define the oligosaccharide residues responsible for adherence and invasion of human cells. Finally, we will complete the structural analysis of the LOS ligosaccharide of Hib strain A2 and NTHi strain 2019 and institute analysis of the H. influenzae biogroup aegyptus LOS. These goals will be accomplished by the following Specific Aims: 1) Characterization of H. influenzae LOS oligosaccharide biosynthesis gene clusters. 2) Physicochemical characterization of the oligosaccharide portion of Hib, NTHi and HIA. LOS. 3) Definition of the LOS oligosaccharide structure(s) involved in adherence and invasion in tissue culture and organ culture systems.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37AI024616-15
Application #
6626338
Study Section
Special Emphasis Panel (NSS)
Program Officer
Klein, David L
Project Start
1988-03-01
Project End
2004-02-29
Budget Start
2003-01-01
Budget End
2004-02-29
Support Year
15
Fiscal Year
2003
Total Cost
$487,508
Indirect Cost

  Institution

Name
University of Iowa
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
062761671
City
Iowa City
State
IA
Country
United States
Zip Code
52242

  Publications

Apicella, Michael A; Coffin, Jeremy; Ketterer, Margaret et al. (2018) Nontypeable Haemophilus influenzae Lipooligosaccharide Expresses a Terminal Ketodeoxyoctanoate In Vivo, Which Can Be Used as a Target for Bactericidal Antibody. MBio 9:
Hartwig, Stacey M; Ketterer, Margaret; Apicella, Michael A et al. (2016) Non-typeable Haemophilus influenzae protects human airway epithelial cells from a subsequent respiratory syncytial virus challenge. Virology 498:128-135
Cho, Christine; Chande, Aroon; Gakhar, Lokesh et al. (2015) Role of the nuclease of nontypeable Haemophilus influenzae in dispersal of organisms from biofilms. Infect Immun 83:950-7
Day, Christopher J; Tran, Elizabeth N; Semchenko, Evgeny A et al. (2015) Glycan:glycan interactions: High affinity biomolecular interactions that can mediate binding of pathogenic bacteria to host cells. Proc Natl Acad Sci U S A 112:E7266-75
Gangi Setty, Thanuja; Cho, Christine; Govindappa, Sowmya et al. (2014) Bacterial periplasmic sialic acid-binding proteins exhibit a conserved binding site. Acta Crystallogr D Biol Crystallogr 70:1801-11
Schilling, Birgit; Hunt, Jason; Gibson, Bradford W et al. (2014) Site-specific acylation changes in the lipid A of Escherichia coli lpxL mutants grown at high temperatures. Innate Immun 20:269-82
Apicella, Michael A (2014) Lipid a is more than acyl chains. Infect Immun 82:2160-1
Poole, Jessica; Foster, Eric; Chaloner, Kathryn et al. (2013) Analysis of nontypeable haemophilus influenzae phase-variable genes during experimental human nasopharyngeal colonization. J Infect Dis 208:720-7
Johnston, Jason W; Shamsulddin, Haider; Miller, Anne-Frances et al. (2010) Sialic acid transport and catabolism are cooperatively regulated by SiaR and CRP in nontypeable Haemophilus influenzae. BMC Microbiol 10:240
Johansen, Eric B; Szoka, Francis C; Zaleski, Anthony et al. (2010) Utilizing the O-antigen lipopolysaccharide biosynthesis pathway in Escherichia coli to interrogate the substrate specificities of exogenous glycosyltransferase genes in a combinatorial approach. Glycobiology 20:763-74

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