C.M. Ferreirós scite author profile

SUMMARYPeroxidase-conjugated transferrin was used to detect transferrin receptors both in intact outer membrane vesicles (OMVs) from Neisseria species in a dot blot assay, and in SDS-PAGEseparated OMV proteins after transferring to nitrocellulose membranes. All N. meningitidis strains produced transferrin receptors after culturing in either iron sufficiency or iron restriction although expression was higher in the latter case, whereas only six N. lactamica and two N. sicca (among 20 commensal species) were able to bind transferrin. Molecular mass (MM) of the receptors were mainly between 78 kDa and 85 kDa (87.5% of strains), 12.5% had receptors with MM close to 70 kDa, and 5% showed receptors with MM over 85 kDa. Our results confirm the molecular mass heterogeneity of the transferrin receptors in N. meningitidis, completely disagree withCorrespondence to: C.M. Ferreir6s, Departarnento Microbiologla y Parasitologla,

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Immunogenicity and antigenic heterogeneity of a human transferrin-binding protein in Neisseria meningitidis

Ferrón

Ferreirós

Criado

et al. 1992

Infect Immun

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Growing Neisseria meningitidis on an iron restriction medium induces the synthesis of new outer membrane proteins, some of them true iron-regulated outer membrane proteins (IROMPs) and others synthesized because of the stress produced by the iron restriction. Some of these proteins are antigenic and can be considered for the development of vaccines; this is especially desirable in the case of N. meningitidis serogroup B, for which polysaccharide vaccines are not efficient. The antigenicity of N. meningitidis 37- and 70-kDa IROMPs has been studied previously; in this work, we studied the immunogenicity and antigenic heterogeneity of another IROMP, the human transferrin-binding protein 2 (TBP2), which seems to be indispensable for meningococcal growth inside the host. Mice were inoculated with purified outer membrane vesicles (blebs) from 5 selected N. meningitidis strains, and the five serum samples obtained were analyzed for anti-TBP2 antibodies by using the homologous strain and for cross-reactivity with the TBP2 of the 4 other selected strains and another 35 heterologous N. meningitidis strains. The TBP2s of the 5 strains tested were all immunogenic in mice to various degrees depending on the strain, and all five TBP2s shared one or more epitopes with heterologous strains (as shown by the cross-reactivities of the five serum samples), although the number of cross-reacting strains was very variable, ranging from 2 for strain V002 to 35 for strain P391. This suggests that the TBP2 epitopes of different strains differ in nature or in their accessibility to the immune system. Under the iron restriction conditions used, all strains synthesized a non-TBP2 antigenic 56-kDa protein thought to be a stress protein.

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Identification of Neisseria meningitidis Outer Membrane Vesicle Complexes Using 2-D High Resolution Clear Native/SDS-PAGE

et al. 2009

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The identification and characterization of meningococcal outer membrane vesicle complexes can be important for gaining an in-depth understaining of their structure and functionality. Analysis of the vesicle complexome by 'traditional' 2-D analysis, in which isoelectrofocusing is used for separation in the first dimension, is hampered by the high hydrophobicity and extreme isoelectric points of many relevant proteins. Analysis of the meningococcal outer membrane vesicle complexome using Blue Native (nondenaturing) electrophoresis instead of isoelectrofocusing in the first dimension showed several porin complexes, but their composition could not be clearly resolved after separation by SDS-PAGE in the second dimension. In this work, using a recently described native separation technique -high resolution Clear Native Electrophoresis-and different bidimensional approaches, we were able to demonstrate the presence of relevant outer membrane complexes which could be resolved with a higher resolution than in previous analysis. The most relevant were nine porin complexes formed by different combinations of the meningococcal PorA, PorB and RmpM proteins, and comparison with the complexes formed in specific knockout mutants allowed us to infer the relevance of each porin in the formation of each complex.

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Analysis of outer membrane porin complexes of Neisseria meningitidis in wild‐type and specific knock‐out mutant strains

et al. 2009

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The structure of the porin complexes of Neisseria meningitidis was assessed in the vaccine strain H44/76 and its homologous mutants lacking the main porins (PorA and PorB) and other outer membrane (OM) components (RmpM and FetA). The analysis using 1-D blue native (BN) electrophoresis, 2-D BN/SDS-PAGE and 2-D diagonal electrophoresis, followed by LC/MS-MS (for 1-D gels) or MALDI-TOF (for 2-D gels) revealed at least six porin complexes in the wild-type strain with molecular masses (MW) ranging from 145 to 195 kDa and variable composition: The two higher MW complexes are formed by PorA, PorB and RmpM, the following three are formed by PorA and PorB, and the lower MW one is formed by only PorB. Complexes in the mutants lacking either PorA, PorB or RmpM, but not those in the mutant lacking FetA, were alterered respect to those in the wild-type strain. The most evident alteration was seen in the mutant lacking PorB, in which PorA formed only a high MW complex (approximately 800 kDa). Our results suggest that PorA and PorB could form a 'basic' template for the transportation systems in the OM of the meningococci. Other proteins (such as RmpM) could be transiently associated to the porin complexes, depending on the specific tranport needs at different stages of the meningococcal life cycle, resulting in a dynamic net of pores of variable composition.

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In vivo human immune response to transferrin-binding protein 2 and other iron-regulated proteins of Neisseria meningitidis

Ferreirós¹

1994

FEMS Immunology and Medical Microbiology

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When grown under iron restriction, Neisseria meningitidis expresses new outer-membrane proteins, some of which are antigenic and potentially useful as vaccine components. This is particularly relevant to N. meningitidis serogroup B, against which neither polysaccharide nor conjugate vaccines are effective. We investigated recognition of N. meningitidis serogroup B outer-membrane antigens by three sera from patients recovered from meningitis. Recognition of antigens from the homologous strain provided information on in vivo expression during infection and immunogenicity, while cross-reactivity with outer membrane proteins from the other two strains and from another five strains in our collection allowed evaluation of antigenic heterogeneity. Our results demonstrate that transferrin-binding protein 2 (TBP2) is immunogenic in humans, to varying degrees depending on the strain, and that TBP2s (like the equivalent proteins of Haemophilus influenzae type b) are among the most important iron-regulated outer membrane antigens expressed during infection. Other immunogenic outer membrane proteins (some iron-regulated) are also expressed during infection; in a previous study in mouse, three of these proteins (with M(r) of 50, 70 and 77 kDa) did not induce an immune response. Our cross-reactivity data provide some support for Robki et al.'s two-group classification of N. meningitidis strains, and provide evidence against the possibility that the antigenic domains shared by the TBP2s of all N. meningitidis strains induce immune responses in vivo.

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C.M. Ferreirós

Analysis of the molecular mass heterogeneity of the transferrin receptor in Neisseria meningitidis and commensal Neisseria

Immunogenicity and antigenic heterogeneity of a human transferrin-binding protein in Neisseria meningitidis

Identification of Neisseria meningitidis Outer Membrane Vesicle Complexes Using 2-D High Resolution Clear Native/SDS-PAGE

Analysis of outer membrane porin complexes of Neisseria meningitidis in wild‐type and specific knock‐out mutant strains

In vivo human immune response to transferrin-binding protein 2 and other iron-regulated proteins of Neisseria meningitidis

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