The role of the lipoprotein sorting signal (aspartate +2) in pullulanase secretion

Abstract

The analyses of hybrid proteins and of deletion and insertion mutations reveal that the only amino acid at the amino-proximal end of the cell surface lipoprotein pullulanase that is specifically required for its extracellular secretion is an aspartate at position +2, immediately after the fatty acylated amino-terminal cysteine. To see whether the requirement for this amino acid is related to its proposed role as a cyto-plasmic membrane lipoprotein sorting signal, we used sucrose gradient floatation analysis to determine the subcellular location of pullulanase variants (with or without the aspartate residue) that accumulated in cells lacking the pullulanase-specific secretion genes. A non-secretable pullulanase variant with a serine at position +2 cofractionated mainly with the major peak of outer membrane porin. In contrast, most (55%) of a pullulanase variant with an aspartate at position +2 cofractionated with slightty lighter fractions that contained small proportions of both outer membrane porin and the cytoplasmic membrane marker NADH oxidase. Only 5% of this pullulanase variant cofractionated with the major NADH oxidase peak, while the rest (c. 40%) remained at the bottom of the gradient in fractions totally devoid of porin and NADH oxidase. When analysed by sedimentation through sucrose gradients, however, a large proportion of this variant was recovered from fractions near the top of the gradient that also contained the major NADH oxidase peak. When this peak fraction was applied to a floatation gradient, the pullulanase activity remained at the bottom while the NADH oxidase floated to the top. Thus, there is no evidence that lipoproteins that cofractionate with the cytoplasmic membrane under certain conditions are actually associated with the membrane. Instead, the results support our previous proposal that lipoproteins with an aspartate +2 residue are specifically enriched in a distinct domain of the cell envelope that contains material from both the cytoplasmic and the outer membranes. Possible explanations for the requirement for the aspartate residue in pullulanase secretion are discussed.