The effect of exogenous, highly diluted formaldehyde on the rate of demethylation/re-methylation of veratric acid by the bacteria Rhodococcus erythropolis was studied using electrophoretic and microscopic techniques. The activity of 4-O-demethylase, responsible for accumulation of vanillic acid, and the levels of veratric and vanillic acids were determined using capillary electrophoresis. Formaldehyde was serially diluted at 1:100 ratios, and the total number of iterations was 20. After incubation of the successive dilutions of formaldehyde with the bacteria, demethylase activity oscillated in a sinusoidal manner. It was established using capillary electrophoresis that methylation of vanillic acid to veratric acid occurred at a double rate, as shown by the doubled fluctuation in the concentration of veratrate. There were also changes in the NADH oxidase activity, which is associated with methylation processes. Microscopic observations revealed the presence of numerous enlarged vacuoles in bacterial cells during the accumulation of large amounts of vanillic acid, and their disappearance together with a decrease in 4-O-demethylase activity. The presented results give evidence for the ability of living cells to detect the presence of submolecular concentrations of biological effectors in their environment and provide a basis for a scientific explanation of the law of hormesis and the therapeutic effect of homeopathic dilutions.
Although Rhodococcus spp. strains are able to degrade methoxyphenols by enzymatic means, the contact with veratric acid (3, 4-dimethoxybenzoic acid, hereafter called veratrate) is very stressful for the cells of Rhodococcus erythropolis DSM 1069 (Rh). Within 5 min of contact veratrate in phosphate buffer, the emergence of many vacuoles was observed in the cell body and respiratory bursts, with violent endogenous oxygen uptake, took place several times during the 24 h incubation. During these peaks (where the cells were in their MAX states), increased activity of NADH oxidase was noted, accompanied by maximal accumulation of vanillic and isovanillic acids (3-methoxy-4-hydroxybenzoic acid and 4-hydroxy-3-methoxybenzoic acid respectively, hereafter called vanillates) in the incubation medium, which appeared to be products of veratrate demethylation. At the troughs (cell in their MIN state), the vacuoles disappeared from the cell body, oxygen uptake was normal, and the pool of vanillates decreased while the veratrate level in the medium increased. The cells from MAX and MIN states reacted in opposite ways in the presence of either formaldehyde and GSH, or paraquate and cAMP. The NADH oxidase activity, measured as oxygen uptake against NADH in the membrane pellets of MAX and MIN stage cells, differed in their response to the exogenous presence of FAD, ATP, cAMP, catalase, GSH, H(2)O(2)and methoxyphenolic substrates. The periodic character of these events is described here. Co-operation between two multiprotein membrane complexes (NAD(P)H oxidase and 3-O/4-O-demethylases) in Rhodococcus erythropolis cells and their competition for two common substrates-NAD(P)H and O(2)-is proposed as an explanation for rhythmical nature of these reactions.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.