Post-translational maturation of natural and drug-induced missorted phytohemagglutinin

The bean lectin phytohemagglutinin (PHA) was expressed in transgenic suspension-cultured BY-2 tobacco cells simultaneously with another recombinant vacuolar protein, the sweet potato sporamin. In contrast to previous observations in different transgenic plant systems when expressed in BY-2 tobacco cells, phytohemagglutinin is mostly but not exclusively targeted to the vacuole. Indeed, a small amount of recombinant phytohemagglutinin is secreted into the culture medium of tobacco cells. Furthermore part of this extracellular phytohemagglutinin has no lectin activity and presents an abnormal glycosylation consistent with higher accessibility of glycans N-linked to these extracellular phytohemagglutinin forms. Phytohemagglutinin secretion occurs regardless of recombinant protein expression level. Consequently, missorting in this case is due to an abnormal phytohemagglutinin conformation or oligomerization rather than to receptor saturation. The treatment of BY-2 cells with drugs, such as monensin and wortmannin, increases even more the transport of phytohemagglutinin to the cell surface through a general inhibition of the sorting mechanisms of vacuolar proteins. The sensitivity to wortmannin is similar for the sorting of phytohemagglutinin and endogenous tobacco chitinase and β-1,3-glucanase, suggesting that phytohemagglutinin and COOH-terminal propeptide mediated vacuolar sorting share similar mechanisms. A characterization of glycans N-linked to extracellular phytohemagglutinin secreted by monensin- or wortmannin-treated transgenic tobacco cells illustrates that in contrast with monensin, wortmannin completely inhibits the sorting of vacuolar proteins without having any effect on the efficiency of Golgi processing enzymes.