Abstract
Aeromonas spp. are generally found in aquatic environments, although they have also been isolated from both fresh and processed food. These Gram-negative, rod-shaped bacteria are mostly infective to poikilothermic animals, although they are also considered opportunistic pathogens of both aquatic and terrestrial homeotherms, and some species have been associated with gastrointestinal and extraintestinal septicemic infections in humans. Among the different pathogenic factors associated with virulence, several cell-surface glucans have been shown to contribute to colonization and survival of Aeromonas pathogenic strains, in different hosts. Lipopolysaccharide (LPS), capsule and α-glucan structures, for instance, have been shown to play important roles in bacterial–host interactions related to pathogenesis, such as adherence, biofilm formation, or immune evasion. In addition, glycosylation of both polar and lateral flagella has been shown to be mandatory for flagella production and motility in different Aeromonas strains, and has also been associated with increased bacterial adhesion, biofilm formation, and induction of the host proinflammatory response. The main aspects of these structures are covered in this review.
Highlights
The Aeromonadaceae family comprises Gram-negative, facultative anaerobic, and chemoorganotrophic bacteria, with an optimal growing temperature of 22–37 ◦ C [1]
In Aeromonas spp., a similar surface α-glucan has been described in A. piscicola AH-3, and A. hydrophila strains AH-1 and PPD134/91 [34]
Among the different pathogenic factors associated with Aeromonas spp. virulence, Among the have different factors associatedrole with
Summary
The Aeromonadaceae family comprises Gram-negative, facultative anaerobic, and chemoorganotrophic bacteria, with an optimal growing temperature of 22–37 ◦ C [1] Members of this family are generally motile by polar flagellation, and are able to reduce nitrates to nitrites. Aeromonas spp. could potentially pose a serious risk to public health, as many strains are able to grow and produce exotoxins at low temperatures and high salt concentrations [3,4]. They are emerging as the causative agents of gastrointestinal and extraintestinal diseases in a wide range of animals [2]. The main structural and molecular aspects of the surface glucans identified in Aeromonas spp. to date, as well as their biological implications, are discussed in this review
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