The role of ABC transporters in cuticular lipid secretion

The aerial surfaces of plants are enveloped by a waxy cuticle, which among other functions serves as a barrier to limit non-stomatal water loss and defend against pathogens. The cuticle is a complex three-dimensional structure composed of cutin (a lipid polyester matrix) and waxes (very long chain fatty acid derivatives), which are embedded within and layered on top of the cutin matrix. Biosynthesis of cuticular lipids is believed to take place solely within aerial epidermal cells. Once synthesized, both the waxes and the cutin precursors must leave the cytoplasm, pass through the hydrophilic apoplastic space, and finally assemble to form the cuticle. These processes of secretion and assembly are essentially unknown. Initial steps toward our understanding of these processes were the characterization of CER5/ABCG12/WBC12 and more recently ABCG11/WBC11, a pair of ABC transporters required for cuticular lipid secretion. ABCG12 is involved in wax secretion, as mutations in this gene result in a lower surface-load of wax and a concomitant accumulation of lipidic inclusions within the epidermal cell cytoplasm. Mutations in ABCG11 result in a similar wax phenotype as cer5 and similar cytoplasmic inclusions. In contrast to cer5, however, abcg11 mutants also show significantly reduced cutin, post-genital organ fusions, and reduced growth and fertility. Thus, for the first time, a transporter is implicated in cutin accumulation. This review will discuss the secretion of cuticular lipids, focusing on ABCG12, ABCG11 and the potential involvement of other ABC transporters in the ABCG subfamily.