Aeromonas spp. (gram-negative, aquatic bacteria which include enteropathogenic strains) have two distinct flagellar systems, namely a polar flagellum for swimming in liquid and multiple lateral flagella for swarming over surfaces. Only ϳ60% of mesophilic strains can produce lateral flagella. To evaluate flagellar contributions to Aeromonas intestinal colonization, we compared polar and lateral flagellar mutant strains of a diarrheal isolate of Aeromonas caviae for the ability to adhere to the intestinal cell lines Henle 407 and Caco-2, which have the characteristic features of human intestinal enterocytes. Strains lacking polar flagella were virtually nonadherent to these cell lines, while loss of the lateral flagellum decreased adherence by ϳ60% in comparison to the wild-type level. Motility mutants (unable to swim or swarm in agar assays) had adhesion levels of ϳ50% of wild-type values, irrespective of their flagellar expression. Flagellar mutant strains were also evaluated for the ability to form biofilms in a borosilicate glass tube model which was optimized for Aeromonas spp. (broth inoculum, with a 16-to 20-h incubation at 37°C). All flagellar mutants showed a decreased ability to form biofilms (at least 30% lower than the wild type). For the chemotactic motility mutant cheA, biofilm formation decreased >80% from the wild-type level. The complementation of flagellar phenotypes (polar flagellar mutants) restored biofilms to wild-type levels. We concluded that both flagellar types are enterocyte adhesins and need to be fully functional for optimal biofilm formation.Aeromonas bacteria (aeromonads) comprise a complex genus of at least 14 recognized DNA hybridization groups (HG), or genomospecies (1). Representatives of these species are found in most aquatic environments and are common contaminants of many retail foods. Aeromonads colonize and form biofilms in water distribution and food-processing systems as well as on water-dwelling plants and animals (e.g., fish, leeches, and frogs). They are significant pathogens of reptiles, amphibians, and fish and are isolated as part of the fecal floras of a wide variety of other animals, including some used for human consumption, such as pigs, cows, sheep, and poultry. In humans, members of the genus cause water-associated wound infections and serious opportunistic infections (e.g., septicemia and meningitis) in immunocompromised individuals. Some strains, particularly of the species Aeromonas hydrophila (HG1), Aeromonas veronii bv. Sobria (HG8/10), and Aeromonas caviae (HG4), are also enteropathogens that cause diarrhea and dysenteric infections in children, the elderly and immunocompromised, and travelers in the summer (9, 11, 12).Little is yet known about how aeromonads adapt to colonize such a variety of inert and host cell surfaces.A greater understanding of Aeromonas-host colonization mechanisms is needed, as at present it is not possible to identify strains in foods and water that are of public health significance. A type IV pilus ("bundle-forming pilus") has b...
