Sweet complexity: O-linked protein glycosylation in pathogenic Neisseria
The genus Neisseria , which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic Neisseria species are closely related but cause quite different diseases, meningococcal sepsis and meningitis ( Neisseria meningitidis ) and sexuall...
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| Published in | Frontiers in cellular and infection microbiology Vol. 14; p. 1407863 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2235-2988 2235-2988 |
| DOI | 10.3389/fcimb.2024.1407863 |
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| Abstract | The genus
Neisseria
, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic
Neisseria
species are closely related but cause quite different diseases, meningococcal sepsis and meningitis (
Neisseria meningitidis
) and sexually transmitted gonorrhea
(Neisseria gonorrhoeae
). Although obvious differences in bacterial niches and mechanisms for transmission exists, pathogenic
Neisseria
have high levels of conservation at the levels of nucleotide sequences, gene content and synteny. Species of
Neisseria
express broad-spectrum
O
-linked protein glycosylation where the glycoproteins are largely transmembrane proteins or lipoproteins localized on the cell surface or in the periplasm. There are diverse functions among the identified glycoproteins, for example type IV biogenesis proteins, proteins involved in antimicrobial resistance, as well as surface proteins that have been suggested as vaccine candidates. The most abundant glycoprotein, PilE, is the major subunit of pili which are an important colonization factor. The glycans attached can vary extensively due to phase variation of protein glycosylation (
pgl)
genes and polymorphic
pgl
gene content. The exact roles of glycosylation in
Neisseria
remains to be determined, but increasing evidence suggests that glycan variability can be a strategy to evade the human immune system. In addition, pathogenic and commensal
Neisseria
appear to have significant glycosylation differences. Here, the current knowledge and implications of protein glycosylation genes, glycan diversity, glycoproteins and immunogenicity in pathogenic
Neisseria
are summarized and discussed. |
|---|---|
| AbstractList | The genus
Neisseria
, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic
Neisseria
species are closely related but cause quite different diseases, meningococcal sepsis and meningitis (
Neisseria meningitidis
) and sexually transmitted gonorrhea
(Neisseria gonorrhoeae
). Although obvious differences in bacterial niches and mechanisms for transmission exists, pathogenic
Neisseria
have high levels of conservation at the levels of nucleotide sequences, gene content and synteny. Species of
Neisseria
express broad-spectrum
O
-linked protein glycosylation where the glycoproteins are largely transmembrane proteins or lipoproteins localized on the cell surface or in the periplasm. There are diverse functions among the identified glycoproteins, for example type IV biogenesis proteins, proteins involved in antimicrobial resistance, as well as surface proteins that have been suggested as vaccine candidates. The most abundant glycoprotein, PilE, is the major subunit of pili which are an important colonization factor. The glycans attached can vary extensively due to phase variation of protein glycosylation (
pgl)
genes and polymorphic
pgl
gene content. The exact roles of glycosylation in
Neisseria
remains to be determined, but increasing evidence suggests that glycan variability can be a strategy to evade the human immune system. In addition, pathogenic and commensal
Neisseria
appear to have significant glycosylation differences. Here, the current knowledge and implications of protein glycosylation genes, glycan diversity, glycoproteins and immunogenicity in pathogenic
Neisseria
are summarized and discussed. The genus Neisseria, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic Neisseria species are closely related but cause quite different diseases, meningococcal sepsis and meningitis (Neisseria meningitidis) and sexually transmitted gonorrhea (Neisseria gonorrhoeae). Although obvious differences in bacterial niches and mechanisms for transmission exists, pathogenic Neisseria have high levels of conservation at the levels of nucleotide sequences, gene content and synteny. Species of Neisseria express broad-spectrum O-linked protein glycosylation where the glycoproteins are largely transmembrane proteins or lipoproteins localized on the cell surface or in the periplasm. There are diverse functions among the identified glycoproteins, for example type IV biogenesis proteins, proteins involved in antimicrobial resistance, as well as surface proteins that have been suggested as vaccine candidates. The most abundant glycoprotein, PilE, is the major subunit of pili which are an important colonization factor. The glycans attached can vary extensively due to phase variation of protein glycosylation (pgl) genes and polymorphic pgl gene content. The exact roles of glycosylation in Neisseria remains to be determined, but increasing evidence suggests that glycan variability can be a strategy to evade the human immune system. In addition, pathogenic and commensal Neisseria appear to have significant glycosylation differences. Here, the current knowledge and implications of protein glycosylation genes, glycan diversity, glycoproteins and immunogenicity in pathogenic Neisseria are summarized and discussed.The genus Neisseria, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic Neisseria species are closely related but cause quite different diseases, meningococcal sepsis and meningitis (Neisseria meningitidis) and sexually transmitted gonorrhea (Neisseria gonorrhoeae). Although obvious differences in bacterial niches and mechanisms for transmission exists, pathogenic Neisseria have high levels of conservation at the levels of nucleotide sequences, gene content and synteny. Species of Neisseria express broad-spectrum O-linked protein glycosylation where the glycoproteins are largely transmembrane proteins or lipoproteins localized on the cell surface or in the periplasm. There are diverse functions among the identified glycoproteins, for example type IV biogenesis proteins, proteins involved in antimicrobial resistance, as well as surface proteins that have been suggested as vaccine candidates. The most abundant glycoprotein, PilE, is the major subunit of pili which are an important colonization factor. The glycans attached can vary extensively due to phase variation of protein glycosylation (pgl) genes and polymorphic pgl gene content. The exact roles of glycosylation in Neisseria remains to be determined, but increasing evidence suggests that glycan variability can be a strategy to evade the human immune system. In addition, pathogenic and commensal Neisseria appear to have significant glycosylation differences. Here, the current knowledge and implications of protein glycosylation genes, glycan diversity, glycoproteins and immunogenicity in pathogenic Neisseria are summarized and discussed. The genus Neisseria, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic Neisseria species are closely related but cause quite different diseases, meningococcal sepsis and meningitis (Neisseria meningitidis) and sexually transmitted gonorrhea (Neisseria gonorrhoeae). Although obvious differences in bacterial niches and mechanisms for transmission exists, pathogenic Neisseria have high levels of conservation at the levels of nucleotide sequences, gene content and synteny. Species of Neisseria express broad-spectrum O-linked protein glycosylation where the glycoproteins are largely transmembrane proteins or lipoproteins localized on the cell surface or in the periplasm. There are diverse functions among the identified glycoproteins, for example type IV biogenesis proteins, proteins involved in antimicrobial resistance, as well as surface proteins that have been suggested as vaccine candidates. The most abundant glycoprotein, PilE, is the major subunit of pili which are an important colonization factor. The glycans attached can vary extensively due to phase variation of protein glycosylation (pgl) genes and polymorphic pgl gene content. The exact roles of glycosylation in Neisseria remains to be determined, but increasing evidence suggests that glycan variability can be a strategy to evade the human immune system. In addition, pathogenic and commensal Neisseria appear to have significant glycosylation differences. Here, the current knowledge and implications of protein glycosylation genes, glycan diversity, glycoproteins and immunogenicity in pathogenic Neisseria are summarized and discussed. The genus , which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic species are closely related but cause quite different diseases, meningococcal sepsis and meningitis ( ) and sexually transmitted gonorrhea ). Although obvious differences in bacterial niches and mechanisms for transmission exists, pathogenic have high levels of conservation at the levels of nucleotide sequences, gene content and synteny. Species of express broad-spectrum -linked protein glycosylation where the glycoproteins are largely transmembrane proteins or lipoproteins localized on the cell surface or in the periplasm. There are diverse functions among the identified glycoproteins, for example type IV biogenesis proteins, proteins involved in antimicrobial resistance, as well as surface proteins that have been suggested as vaccine candidates. The most abundant glycoprotein, PilE, is the major subunit of pili which are an important colonization factor. The glycans attached can vary extensively due to phase variation of protein glycosylation ( genes and polymorphic gene content. The exact roles of glycosylation in remains to be determined, but increasing evidence suggests that glycan variability can be a strategy to evade the human immune system. In addition, pathogenic and commensal appear to have significant glycosylation differences. Here, the current knowledge and implications of protein glycosylation genes, glycan diversity, glycoproteins and immunogenicity in pathogenic are summarized and discussed. |
| Author | Børud, Bente Koomey, Michael |
| AuthorAffiliation | 1 Department of Bacteriology, Division for Infection Control and Environmental Health, Norwegian Institute of Public Health , Oslo , Norway 2 Department of Biosciences, Section for Genetics and Evolutionary Biology, University of Oslo , Oslo , Norway |
| AuthorAffiliation_xml | – name: 2 Department of Biosciences, Section for Genetics and Evolutionary Biology, University of Oslo , Oslo , Norway – name: 1 Department of Bacteriology, Division for Infection Control and Environmental Health, Norwegian Institute of Public Health , Oslo , Norway |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38808060$$D View this record in MEDLINE/PubMed |
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| Keywords | Neisseria meningitidis glycan diversity immune escape Neisseria gonorrhoeae immunogenicity |
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Neisseria
, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic... The genus , which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic species are... The genus Neisseria, which colonizes mucosal surfaces, includes both commensal and pathogenic species that are exclusive to humans. The two pathogenic... |
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| SubjectTerms | Bacterial Proteins - genetics Bacterial Proteins - metabolism Cellular and Infection Microbiology glycan diversity Glycoproteins - genetics Glycoproteins - metabolism Glycosylation Gonorrhea - microbiology Humans immune escape immunogenicity Meningitis, Meningococcal - microbiology Neisseria gonorrhoeae Neisseria gonorrhoeae - genetics Neisseria gonorrhoeae - immunology Neisseria gonorrhoeae - metabolism Neisseria gonorrhoeae - pathogenicity Neisseria meningitidis Neisseria meningitidis - genetics Neisseria meningitidis - metabolism Polysaccharides - metabolism |
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| Title | Sweet complexity: O-linked protein glycosylation in pathogenic Neisseria |
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