L-arabinose induces the formation of viable non-proliferatingVibrio choleraespheroplasts

Abstract

AbstractA general survival strategy of many life forms faced with harmful growth conditions is to enter into a non-proliferating state until conditions suitable for growth are restored. In bacteria, this survival strategy is associated with antimicrobial tolerance, chronic infections and environmental dispersion. In particular, the agent of the deadly human disease cholera,Vibrio cholerae, undergoes a morphological transition from a rod-shaped proliferative form to a spherical non-proliferating form after exposure to cold or cell wall targeting antibiotics. Growth is resumed when the adverse conditions have ceased.Here, we show that a component of the hemicellulose and pectin of terrestrial plants, L-arabinose, triggers the formation of non-proliferatingV. choleraespherical cells, which are able to return to growth when L-arabinose is removed from the growth medium. We found that the cell wall of L-arabinose treatedV. choleraecells has a peptidoglycan composition similar to the cell wall of spheroplasts and that they revert to a wild-type morphology through the formation of branched cells like L-forms. Unlike L-forms, however, they are osmo-resistant. Through a random Tn genetic screen for mutants insensitive to L-arabinose, we identified genes involved in the uptake and catabolism of galactose and in glycolysis. We hypothesize that L-arabinose is enzymatically processed by the galactose catabolism and glycolysis pathways until it is transformed in a product that cannot be further recognized byV. choleraeenzymes. Accumulation of this enzymatic by-product triggers the formation of viable non-dividing cell wall deficient spherical cells.