Monoclonal Antibodies against Vibrio vulnificus RtxA1 Elicit Protective Immunity through Distinct Mechanisms

Lee, Tae Hee; Shin, Sun Mi; Lee, Chang Seop; Rhee, Joon Haeng; Chung, Kyung Min

doi:10.1128/iai.02130-14

Cited by 10 publications

(10 citation statements)

References 58 publications

(79 reference statements)

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“…The identity of this protein was confirmed by western blotting with an anti‐RtxA1‐C monoclonal antibody (22RA) and anti‐serum from V. vulnificus M06‐24/O‐infected mice (Fig. c and data not shown) ; equivalent amounts (100 ng) of purified GST (Fig. c, lane 1) and CPD Vv (C3725S) (Fig.…”

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confidence: 82%

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTX_Vv as a potential vaccine for Vibrio vulnificus

Lee¹,

Chung

2015

Microbiology and Immunology

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Recent studies have defined several virulence factors as vaccine candidates against Vibrio vulnificus. However, most of these factors have the potential to cause pathogenic effects in the vaccinees or induce incomplete protection. To overcome these drawbacks, a catalytically inactive form, CPD Vv (C3725S), of the well-conserved cysteine protease domain (CPD) of V. vulnificus multifunctional autoprocessing repeats-in-toxin (MARTX Vv /RtxA1) was recombinantly generated and characterized. Notably, active and passive immunization with CPD Vv (C3725S) conferred protective immunity against V. vulnificus strains. These results may provide a novel framework for developing safe and efficient subunit vaccines and/or therapeutics against V. vulnificus that target the CPD of MARTX toxins.Key words cysteine protease domain, protective immunity, RtxA1/MARTX Vv , Vibrio vulnificus.Infection with Vibrio vulnificus, an important opportunistic human pathogen, is associated with seafood consumption and exposure of wounds to seawater containing the bacteria (1-4). Despite aggressive antibiotic therapy and supportive care, these infections frequently progress to severe skin lesions and septicemia with a mortality rate exceeding 50% (3,(5)(6)(7)(8). The annual incidence of V. vulnificus infection has been increasing worldwide, including in the USA, Japan, Korea and Taiwan (6,[9][10][11][12][13]. However, no vaccine to control this lethal bacterial disease has yet been licensed for human use.Although recent studies have shown that traditionally inactivated V. vulnificus cells and several virulence determinants such as V. vulnificus capsular polysaccharide, quorum sensing-dependent metalloprotease and multifunctional autoprocessing repeats-in-toxin (MARTX Vv or RtxA1) can induce protective immunity against V. vulnificus infection (14-17), these antigens for possible vaccine development also have the potential to elicit cytotoxicity or induce incomplete protection, both of which could complicate vaccine design (18-23). For example, V. vulnificus RtxA1/MARTX Vv , a large secreted MARTX family protein, has several effector domains, including extensive repeats at both the N and C termini, an actin cross-linking domain, a Rho inactivation domain and a CPD (24-27). These repeats and domains are associated with multiple cytotoxic and cytopathic activities (28)(29)(30)(31)(32)(33)(34). Collectively, these observations imply that successful development of a highly effective V. vulnificus vaccine depends on designing conserved immunogens in diverse V. vulnificus strains, thus both avoiding potential risk(s) and eliciting broad protective immunity.Of the potential vaccine targets for V. vulnificus, the C-terminal region (amino acids 3491-4701; molecular weight %130 kDa) of V. vulnificus RtxA1/MARTX Vv , RtxA1-C, harbors highly conserved regions including CPD and GD-rich repeats (14,(24)(25)(26)(35)(36)(37)(38)(39) a recent study suggested that the C-terminal %130 kDa cleavage product of secreted RtxA1/MARTX Vv from V. vulnificus might be ...

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confidence: 82%

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTX_Vv as a potential vaccine for Vibrio vulnificus

Lee¹,

Chung

2015

Microbiology and Immunology

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“…Recent studies have shown that protective immunity against Vibrio species is induced by both bacterial components and toxins, including LPS, pili, capsular polysaccharides, cholera toxins and MARTX toxins . Among these protective immunogens, MARTX toxins, which comprise a subfamily of large secreted RTX proteins, have been identified in a number of Vibrio species and other pathogenic gram‐negative bacteria .…”

Section: Cross‐reactivity and Cross‐protectivity Of Anti‐rtxa1‐c‐mabsmentioning

confidence: 99%

Section: Cross‐reactivity and Cross‐protectivity Of Anti‐rtxa1‐c‐mabsmentioning

confidence: 99%

“…We previously generated a panel of mAbs against the C‐terminal region (aa residues 3491–4701) of V. vulnificus RtxA1/MARTX Vv , RtxA1‐C . We also characterized the protective activity of anti‐RtxA1‐C mAbs in mouse models of V. vulnificus infection . Although an earlier study reported cross‐protection between different V. vulnificus strains , no mAbs against V. vulnificus RtxA1/MARTX Vv have yet been investigated for their ability to inhibit other Vibrio species.…”

Section: Cross‐reactivity and Cross‐protectivity Of Anti‐rtxa1‐c‐mabsmentioning

confidence: 99%

“…We also characterized the protective activity of anti‐RtxA1‐C mAbs in mouse models of V. vulnificus infection . Although an earlier study reported cross‐protection between different V. vulnificus strains , no mAbs against V. vulnificus RtxA1/MARTX Vv have yet been investigated for their ability to inhibit other Vibrio species. To evaluate whether mAbs against V. vulnificus confer protective activity against different Vibrio species with MARTX toxins, we first assessed their immunoreactivity by ELISA using MARTX Vc proteins from the V. cholerae O1 biotype El Tor strain N16961 because there are highly conserved domains between the C‐terminal region of V. vulnificus RtxA1/MARTX Vv and V. cholerae MARTX Vc proteins (Fig.…”

Section: Cross‐reactivity and Cross‐protectivity Of Anti‐rtxa1‐c‐mabsmentioning

confidence: 99%

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Cross‐protection against Vibrio cholerae infection by monoclonal antibodies against Vibrio vulnificus RtxA1/MARTX_Vv

Lee

Cha

Lee

et al. 2016

Microbiology and Immunology

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Gram-negative Vibrio species secrete multifunctional autoprocessing repeats-in-toxin (MARTX) toxins associated with bacterial pathogenesis. Here, the cross-reactivity and cross-protectivity of mAbs against V. vulnificus RtxA1/MARTX was evaluated. Passive administration of any of these mAbs (21RA, 24RA, 46RA, 47RA and 50RA) provided strong protection against lethal V. cholerae infection. Interestingly, 24RA and 46RA, which map to the cysteine protease domain of V. cholerae MARTX , inhibited CPD autocleavage in vitro; this process is involved in V. cholerae pathogenesis. These results generate new insight into the development of broadly protective mAbs and/or vaccines against Vibrio species with MARTX toxins.

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Capsular polysaccharide production and serum survival of Vibrio vulnificus are dependent on antitermination control by RfaH

et al. 2016

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The human pathogen Vibrio vulnificus undergoes phase variation among colonial morphotypes, including a virulent opaque form which produces capsular polysaccharide (CPS) and a translucent phenotype that produces little or no CPS and is attenuated. Here, we found that a V. vulnificus mutant defective for RfaH antitermination control showed a diminished capacity to undergo phase variation and displayed significantly reduced distal gene expression within the Group I CPS operon. Moreover, the rfaH mutant produced negligible CPS and was highly sensitive to killing by normal human serum, results which indicate that RfaH is likely essential for virulence in this bacterium.

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Monoclonal Antibodies against Vibrio vulnificus RtxA1 Elicit Protective Immunity through Distinct Mechanisms

Cited by 10 publications

References 58 publications

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTX_Vv as a potential vaccine for Vibrio vulnificus

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTX_Vv as a potential vaccine for Vibrio vulnificus

Cross‐protection against Vibrio cholerae infection by monoclonal antibodies against Vibrio vulnificus RtxA1/MARTX_Vv

Capsular polysaccharide production and serum survival of Vibrio vulnificus are dependent on antitermination control by RfaH

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Monoclonal Antibodies against Vibrio vulnificus RtxA1 Elicit Protective Immunity through Distinct Mechanisms

Cited by 10 publications

References 58 publications

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTXVv as a potential vaccine for Vibrio vulnificus

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTXVv as a potential vaccine for Vibrio vulnificus

Cross‐protection against Vibrio cholerae infection by monoclonal antibodies against Vibrio vulnificus RtxA1/MARTXVv

Capsular polysaccharide production and serum survival of Vibrio vulnificus are dependent on antitermination control by RfaH

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Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTX_Vv as a potential vaccine for Vibrio vulnificus

Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTX_Vv as a potential vaccine for Vibrio vulnificus

Cross‐protection against Vibrio cholerae infection by monoclonal antibodies against Vibrio vulnificus RtxA1/MARTX_Vv