A distinct physiological state of Lactococcus lactis cells that confers survival against a direct and prolonged exposure to severe stresses

When exponential phase cultures of Lactococcus lactis were directly exposed to severe stresses (acid, bile salt, heat, and hydrogen peroxide) for a prolonged period, most of the cells were quickly killed, however, a small number of the cells, approximately 0.01% of the population, was found to survive. How these 'survivor' cells might have survived the stresses, when other supposedly-the-same cells could not, was investigated. The cultures were not exposed to any mild stresses prior to the exposure to the severe stresses, and therefore adaptation can be ruled out as the cause of survival. When the survivor cells were re-cultured and re-exposed to the same severe stresses a similar pattern of survival was displayed, indicating that the survivor cells were not stress-resistant mutants. Furthermore, the survivor cells displayed typical growth kinetics once they were freed of the stresses. The survivor cells appear to be in a distinct physiological state, because when they were tested against a second stress they exhibited significantly greater survival against that stress than the normal cells exposed to the same stress. Also, cells at different time points of synchronously growing culture displayed different levels of survival against stress. It is proposed that the difference in survival of exponential phase cells is due to the difference in the protein makeup of cells at different stages of the cell cycle. (C) 2002 Federation of European Microbiological Societies. Published by Elsevier Science B.V. All rights reserved.