Proline catabolism, relaxation of osmotic strain and membrane permeability in the diatom Phaeodactylum tricornutum

The influence of osmotic stress on proline catabolism in the diatom Phaeodactylum tricornutum and the fate of proline after relaxation of osmotic stress are described. The conversion of ¹⁴C-proline into metabolic products is greatly inhibited during water stress conditions. A sudden reversal of osmotic stress from 1.9 to 0.77 osmolar in the algal medium leads to a rapid decrease of the cellular proline concentration. This is mainly due to a release of proline into the outside medium of the algal cells, caused by a temporary breakdown of selective permeability in the plasmamembrane. The magnitude of membrane leakage depends on the concentration differences applied. It is supposed that the altered barrier properties reflect an increase in membrane fluidity, as a consequence of osmotic downshock. A replacement of NaCl by KCl, during continued osmotic stress, leads to a rapid and irreversible breakdown of selective permeability in the plasmamembrane. This effect might be due to a special lipid composition of the plasmamembrane or caused by an influence on the membrane potential.