Literature DB >> 20008529

Fusobacterium nucleatum envelope protein FomA is immunogenic and binds to the salivary statherin-derived peptide.

Hidetaka Nakagaki1, Shinichi Sekine, Yutaka Terao, Masahiro Toe, Muneo Tanaka, Hiro-O Ito, Shigetada Kawabata, Satoshi Shizukuishi, Kohtaro Fujihashi, Kosuke Kataoka.   

Abstract

We have previously shown that one of the minimal active regions of statherin, a human salivary protein, for binding to Fusobacterium nucleatum is a YQPVPE amino acid sequence. In this study, we identified the FomA protein of F. nucleatum, which is responsible for binding to the statherin-derived YQPVPE peptide. Overlay analysis showed that a 40-kDa protein of the F. nucleatum cell envelope (40-kDa CE) specifically bound to the YQPVPE peptide. The equilibrium association constant between the affinity-purified 40-kDa CE and the YQPVPE peptide was 4.30 x 10(6). Further, the purity and amino acid sequence analyses of the purified 40-kDa CE revealed approximately 98.7% (wt/wt) purity and a high degree of homology with FomA, a major porin protein of F. nucleatum. Thus, a FomA-deficient mutant failed to bind to the YQPVPE peptide. In addition, increased levels of a FomA-specific mucosal IgA antibody (Ab) and plasma IgG and IgA Abs were seen only in mice immunized nasally with cholera toxin (CT) and the purified 40-kDa FomA protein. Interestingly, saliva from mice that received FomA plus CT as a mucosal adjuvant nasally prevented in vitro binding of F. nucleatum to statherin-coated polyvinyl chloride plates. Taken together, these results suggest that induction of specific immunity to the 40-kDa FomA protein of F. nucleatum, which specifically binds to the statherin-derived peptide, may be an effective tool for preventing the formation of F. nucleatum biofilms in the oral cavity.

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Year:  2009        PMID: 20008529      PMCID: PMC2825909          DOI: 10.1128/IAI.01224-09

Source DB:  PubMed          Journal:  Infect Immun        ISSN: 0019-9567            Impact factor:   3.441


  40 in total

1.  Molecular interactions of Porphyromonas gingivalis fimbriae with host proteins: kinetic analyses based on surface plasmon resonance.

Authors:  A Amano; T Nakamura; S Kimura; I Morisaki; I Nakagawa; S Kawabata; S Hamada
Journal:  Infect Immun       Date:  1999-05       Impact factor: 3.441

2.  Binding sites of salivary statherin for Porphyromonas gingivalis recombinant fimbrillin.

Authors:  A Amano; K Kataoka; P A Raj; R J Genco; S Shizukuishi
Journal:  Infect Immun       Date:  1996-10       Impact factor: 3.441

3.  Nasopharyngeal-associated lymphoreticular tissue (NALT) immunity: fimbriae-specific Th1 and Th2 cell-regulated IgA responses for the inhibition of bacterial attachment to epithelial cells and subsequent inflammatory cytokine production.

Authors:  M Yanagita; T Hiroi; N Kitagaki; S Hamada; H O Ito; H Shimauchi; S Murakami; H Okada; H Kiyono
Journal:  J Immunol       Date:  1999-03-15       Impact factor: 5.422

4.  Protective immunity against Streptococcus pyogenes challenge in mice after immunization with fibronectin-binding protein.

Authors:  Yutaka Terao; Shigefumi Okamoto; Kosuke Kataoka; Shigeyuki Hamada; Shigetada Kawabata
Journal:  J Infect Dis       Date:  2005-11-11       Impact factor: 5.226

5.  The Fusobacterium nucleatum major outer-membrane protein (FomA) forms trimeric, water-filled channels in lipid bilayer membranes.

Authors:  H Kleivdal; R Benz; H B Jensen
Journal:  Eur J Biochem       Date:  1995-10-01

6.  Role of Fusobacterium nucleatum and coaggregation in anaerobe survival in planktonic and biofilm oral microbial communities during aeration.

Authors:  D J Bradshaw; P D Marsh; G K Watson; C Allison
Journal:  Infect Immun       Date:  1998-10       Impact factor: 3.441

7.  Intranasal immunization with liposomes induces strong mucosal immune responses in mice.

Authors:  J Vadolas; J K Davies; P J Wright; R A Strugnell
Journal:  Eur J Immunol       Date:  1995-04       Impact factor: 5.532

8.  Initiation of biofilm formation in Pseudomonas fluorescens WCS365 proceeds via multiple, convergent signalling pathways: a genetic analysis.

Authors:  G A O'Toole; R Kolter
Journal:  Mol Microbiol       Date:  1998-05       Impact factor: 3.501

9.  Oral immunization of interleukin-4 (IL-4) knockout mice with a recombinant Salmonella strain or cholera toxin reveals that CD4+ Th2 cells producing IL-6 and IL-10 are associated with mucosal immunoglobulin A responses.

Authors:  N Okahashi; M Yamamoto; J L Vancott; S N Chatfield; M Roberts; H Bluethmann; T Hiroi; H Kiyono; J R McGhee
Journal:  Infect Immun       Date:  1996-05       Impact factor: 3.441

10.  A nontoxic mutant of cholera toxin elicits Th2-type responses for enhanced mucosal immunity.

Authors:  S Yamamoto; H Kiyono; M Yamamoto; K Imaoka; K Fujihashi; F W Van Ginkel; M Noda; Y Takeda; J R McGhee
Journal:  Proc Natl Acad Sci U S A       Date:  1997-05-13       Impact factor: 11.205
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  17 in total

Review 1.  Stick to your gums: mechanisms of oral microbial adherence.

Authors:  A H Nobbs; H F Jenkinson; N S Jakubovics
Journal:  J Dent Res       Date:  2011-02-18       Impact factor: 6.116

2.  The FomA porin from Fusobacterium nucleatum is a Toll-like receptor 2 agonist with immune adjuvant activity.

Authors:  Deana N Toussi; Xiuping Liu; Paola Massari
Journal:  Clin Vaccine Immunol       Date:  2012-05-23

3.  Fusobacterium nucleatum Increases Proliferation of Colorectal Cancer Cells and Tumor Development in Mice by Activating Toll-Like Receptor 4 Signaling to Nuclear Factor-κB, and Up-regulating Expression of MicroRNA-21.

Authors:  Yongzhi Yang; Wenhao Weng; Junjie Peng; Leiming Hong; Lei Yang; Yuji Toiyama; Renyuan Gao; Minfeng Liu; Mingming Yin; Cheng Pan; Hao Li; Bomin Guo; Qingchao Zhu; Qing Wei; Mary-Pat Moyer; Ping Wang; Sanjun Cai; Ajay Goel; Huanlong Qin; Yanlei Ma
Journal:  Gastroenterology       Date:  2016-11-19       Impact factor: 22.682

Review 4.  Fusobacterium nucleatum - symbiont, opportunist and oncobacterium.

Authors:  Caitlin A Brennan; Wendy S Garrett
Journal:  Nat Rev Microbiol       Date:  2019-03       Impact factor: 60.633

5.  Immunization with alkyl hydroperoxide reductase subunit C reduces Fusobacterium nucleatum load in the intestinal tract.

Authors:  Song-He Guo; Hai-Fang Wang; Zhi-Gang Nian; Yi-Dan Wang; Qiu-Yao Zeng; Ge Zhang
Journal:  Sci Rep       Date:  2017-09-05       Impact factor: 4.379

6.  Fusobacterium spp. target human CEACAM1 via the trimeric autotransporter adhesin CbpF.

Authors:  Matthew L Brewer; David Dymock; R Leo Brady; Bernhard B Singer; Mumtaz Virji; Darryl J Hill
Journal:  J Oral Microbiol       Date:  2019-01-24       Impact factor: 5.474

7.  The protective effect of recombinant FomA-expressing Lactobacillus acidophilus against periodontal infection.

Authors:  Li Ma; Qinfeng Ding; Xiping Feng; Fei Li
Journal:  Inflammation       Date:  2013-10       Impact factor: 4.092

8.  Fusobacterium nucleatum Causes Microbial Dysbiosis and Exacerbates Visceral Hypersensitivity in a Colonization-Independent Manner.

Authors:  Xiang Gu; Li-Jin Song; Li-Xiang Li; Tong Liu; Ming-Ming Zhang; Zhen Li; Peng Wang; Ming Li; Xiu-Li Zuo
Journal:  Front Microbiol       Date:  2020-06-24       Impact factor: 5.640

9.  Role of FAD-I in Fusobacterial Interspecies Interaction and Biofilm Formation.

Authors:  Bhumika Shokeen; Jane Park; Emily Duong; Sonam Rambhia; Manash Paul; Aaron Weinberg; Wenyuan Shi; Renate Lux
Journal:  Microorganisms       Date:  2020-01-02

10.  Heat-Killed Fusobacterium nucleatum Triggers Varying Heme-Related Inflammatory and Stress Responses Depending on Primary Human Respiratory Epithelial Cell Type.

Authors:  Ryo Koike; Marni E Cueno; Keiko Nodomi; Muneaki Tamura; Noriaki Kamio; Hajime Tanaka; Ai Kotani; Kenichi Imai
Journal:  Molecules       Date:  2020-08-24       Impact factor: 4.411
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