Chromium(VI) and phenol stress induces changes in physic state of membrane and lipid signaling in Acinetobacter guillouiae SFC 500-1A

MARILINA FERNANDEZ; NATALIA S. PAULUCCI; MICAELA PEPPINO MARGUTTI; ALICIA M. BIASUTTI; , GRACIELA E. RACAGNI; ANA L. VILLASUSO; ELIZABETH AGOSTINI; PAOLA S. GONZÁLEZ

LIPIDS

SPRINGER HEIDELBERG

Lugar: HEIDELBERG; Año: 2019 p. 557 - 570

0024-4201

The remodeling of membrane lipids is a mechanism that allows microorganisms to survive in unfavorable environments such as industrial effluents, which often contain inorganic and organic pollutants, like chromium and phenol. In the present work, we evaluated the effect of Cr(VI) and phenol on the membrane of Acinetobacter guillouiae SFC 500-1A, a bacterial strain isolated from tannery sediments where such pollutants can be found. The presence of lipid kinases and phospholipases and the changes in their activities under exposure to these pollutants were determined. Cr(VI) and Cr(VI) + phenol caused the membrane to become more rigid for up to 16 h after exposure. This could be due to an increase in cardiolipin (Ptd2Gro) and a decrease in phosphatidylethanolamine (PtdEtn), which are indicative of more order and rigidity in the membrane. Increased phospholipase A activity (PLA, EC 3.1.1.4) could be responsible for the decrease in PtdEtn levels. Moreover, our results indicate that Cr(VI) and Cr(VI) + phenol trigger the phosphatidic acid (PtdOH) signal. The finding of significantly increased phosphatidylinositol-4-phosphate (PtdIns-4-P) levels means this is likely achieved via PtdIns-PLC/DGK. This report provides the first evidence that A. guillouiae SFC 500-1A is able to sense Cr(VI) and phenol, transduce this signal through changes in the physical state of the membrane, and trigger lipid-signaling events.