Abstract
Members of the genus Lactobacillus have a long history in food applications and are considered as promising and safe hosts for delivery of medically interesting proteins. We have assessed multiple surface anchors derived from Lactobacillus plantarum for protein surface display in multiple Lactobacillus species, using a Mycobacterium tuberculosis hybrid antigen as test protein. The anchors tested were a lipoprotein anchor and two cell wall anchors, one non-covalent (LysM domain) and one covalent (sortase-based anchoring using the LPXTG motif). Thus, three different expression vectors for surface-anchoring were tested in eight Lactobacillus species. When using the LPXTG and LysM cell wall anchors, surface display, as assessed by flow cytometry and fluorescence microscopy, was observed in all species except Lactobacillus acidophilus. Use of the cell membrane anchor revealed more variation in the apparent degree of surface-exposure among the various lactobacilli. Overproduction of the secreted and anchored antigen impaired bacterial growth rate to extents that varied among the lactobacilli and were dependent on the type of anchor. Overall, these results show that surface anchors derived from L. plantarum are promising candidates for efficient anchoring of medically interesting proteins in other food grade Lactobacillus species.
Highlights
The genus Lactobacillus consists of more than 200 species with substantial economic importance due to use in food products and in biotechnological and therapeutic applications[1]
We evaluated the potential of using three different surface anchors derived from Lactobacillus plantarum for targeting a Mycobacterium tuberculosis hybrid antigen in eight different species of Lactobacillus: L. plantarum, L. gasseri, L. reuteri, L. acidophilus, L. sakei, L. rhamnosus, L. curvatus and L. brevis
This latter study showed that signal peptides derived from L. plantarum could be used for secretion of nuclease A (NucA) in five different lactobacilli
Summary
The genus Lactobacillus consists of more than 200 species with substantial economic importance due to use in food products and in biotechnological and therapeutic applications[1]. Several studies have shown successful LPXTG-based covalent anchoring of a target protein to the cell wall of lactobacilli[11,19,24,25,26,27]. A previous study in which a lipoprotein-anchored tuberculosis antigen (AgE6) was expressed in L. plantarum, L. brevis, L. gasseri and L. reuteri showed that the resulting recombinant strains gave clearly different immune responses in mice[30].
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