EFFECT OF NOVEL COMPOUND, 1-METHYL-1-PIPERIDINO METHANE SULFONATE (MPMS), ON THE OSMOPROTECTANT ACTIVITY OF GLYCINE BETAINE, CHOLINE AND L-PROLINE IN ESCHERICHIA-COLI
Cm. Kunin et al., EFFECT OF NOVEL COMPOUND, 1-METHYL-1-PIPERIDINO METHANE SULFONATE (MPMS), ON THE OSMOPROTECTANT ACTIVITY OF GLYCINE BETAINE, CHOLINE AND L-PROLINE IN ESCHERICHIA-COLI, Archives of microbiology, 160(2), 1993, pp. 81-86
A novel compound, 1-methyl-1-piperidino methane sulfonate (MPMS), was
found to block the osmoprotectant activity of choline and L-proline, b
ut not glycine betaine in Escherichia coli. MPMS was more active again
st salt-sensitive than salt-resistant strains, but had no effect on th
e salt tolerance of a mutant which was unable to transport choline, gl
ycine betaine and proline. Growth of E. coli in NaCl was inhibited by
MPMS and restored by glycine betaine, but not by choline or L-proline.
Uptake of radiolabeled glycine betaine, choline or L-proline by cells
grown at high osmolarity was not inhibited when MPMS and the radioact
ive substrates were added simultaneously. Preincubation for 5 min with
MPMS reduced the uptake of choline and L-proline, but not glycine bet
aine. Similar incubation with MPMS had no effect on the uptake of radi
olabeled glucose or succinate. The toxicity of MPMS was much lower tha
n that of the L-proline analogues L-azetidine-2-carboxylic acid and 3,
4-dehydro-DL-proline. The exact mechanism by which MPMS exerts its eff
ect is not entirely clear. MPMS or a metabolite may interfere with the
activity of several independent permeases involved in the uptake of o
smoprotective compounds, or the conversion of choline to glycine betai
ne, or effect the expression of some of the osmoregulatory genes.