Influence of culture conditions on expression of the mucoid mode of growth of Pseudomonas aeruginosa

Abstract

Five strains of Pseudomonas aeruginosa that are routinely distinguished by diagnostic laboratories on the basis of their colony morphology on agar media were grown in different media to assess the effects of culture conditions on mucoid growth, which we define as the copious production of exopolysaccharide. On brain heart infusion agar, only two of these strains (mucoid and gelatinous) grew as slimy mucoid colonies. None of the five strains produced a mucoid pattern of growth in Mueller-Hinton broth, in which all grew as turbid, nonmucoid, homogeneous suspensions of bacterial cells. When Mueller-Hinton broth was supplemented with Mg2+, all of the strains produced some mucoid aggregated growth, but growth in a modified version of the chemically defined medium of Vogel and Bonner, with elevated levels of Mg2+ and gluconate, produced patently mucoid growth in all strains. This mucoid growth in a liquid medium takes the form of large, coherent, slimy aggregates within the medium and of a "collar" of adherent microcolonies at the air-medium interface. Direct observations by light and electron microscopy showed the submerged aggregates and the adherent microcolonies to be composed of bacterial cells enmeshed in a copious exopolysaccharide matrix. When agar was added to the supplemented medium of Vogel and Bonner, only the mucoid and gelatinous strains produced slimy mucoid colonies on its surface. We conclude that both chemical and physical factors affect exopolysaccharide production by these clinical strains of P. aeruginosa and that the colony morphology on a single agar medium is an insufficient criterion for the designation of a given isolate as being mucoid or nonmucoid.