Effect of aluminium on the activity of apoplastic acid phosphatase and the exudation of macromolecules by roots and suspension-culture cells ofZea mays L.

Aluminium accumulates predominantly in the root apoplast where it binds to the pectin matrix of the cell wall with its negative charges. In this study, we investigated whether short-term Al treatment (2 h) affects the activity of apoplastic acid phosphatase and the exudation of macromolecules by roots and suspension-culture cells of Zea mays L. The pectin content of the cell cultures was modified by long-term adaptation to NaCl stress or long-term adaptation to the cellulose-synthesis inhibitor 2,6-dichlorbenzonitrile (DCB), and by short-term treatment for up to 15 min with pectolyase. At pH 4.5, neither acid phosphatase activity of commercial enzyme preparations nor of exudates from root-tips and suspension-cells of Zea mays L. were affected directly by Al. However, the exudation and the activity of apoplastic acid phosphatase was reduced to a greater extent by Al cells with high pectin content than in cells with normal pectin content. The strongest reduction of acid phosphatase exudation was observed in pectolyase-treated cells with the lowest pectin content. Al reduced not only the release of acid phosphatase from the suspension cells, but also the release of total proteins and pectins. However, no relationship existed between the magnitude of Al-induced reduction of protein and pectin release and the cell pectin contents. These results support the assumption that Al modifies cell-wall and plasma-membrane transport-properties for macromolecules and the activity of apoplastic enzymes thus modifying Al sensitivity.