Abstract
BackgroundProteases catalyze the hydrolysis of peptide bonds of proteins, thereby improving dietary protein digestibility, nutrient availability, as well as flavor and texture of fermented food and feed products. The lactobacilli Lactiplantibacillus plantarum (formerly Lactobacillus plantarum) and Pediococcus acidilactici are widely used in food and feed fermentations due to their broad metabolic capabilities and safe use. However, extracellular protease activity in these two species is low. Here, we optimized protease expression and secretion in L. plantarum and P. acidilactici via a genetic engineering strategy.ResultsTo this end, we first developed a versatile and stable plasmid, pUC256E, which can propagate in both L. plantarum and P. acidilactici. We then confirmed expression and secretion of protease PepG1 as a functional enzyme in both strains with the aid of the previously described L. plantarum-derived signal peptide LP_0373. To further increase secretion of PepG1, we carried out a genome-wide experimental screening of signal peptide functionality. A total of 155 predicted signal peptides originating from L. plantarum and 110 predicted signal peptides from P. acidilactici were expressed and screened for extracellular proteolytic activity in the two different strains, respectively. We identified 12 L. plantarum signal peptides and eight P. acidilactici signal peptides that resulted in improved yield of secreted PepG1. No significant correlation was found between signal peptide sequence properties and its performance with PepG1.ConclusionThe vector developed here provides a powerful tool for rapid experimental screening of signal peptides in both L. plantarum and P. acidilactici. Moreover, the set of novel signal peptides identified was widely distributed across strains of the same species and even across some closely related species. This indicates their potential applicability also for the secretion of other proteins of interest in other L. plantarum or P. acidilactici host strains. Our findings demonstrate that screening a library of homologous signal peptides is an attractive strategy to identify the optimal signal peptide for the target protein, resulting in improved protein export.
Highlights
Proteases catalyze the hydrolysis of peptide bonds of proteins, thereby improving dietary protein digestibility, nutrient availability, as well as flavor and texture of fermented food and feed products
Engineered secretion in L. plantarum and P. acidilactici has mostly been achieved via heterologous signal peptides, e.g., sslipA of Bacillus subtilis [24], M6 of Streptococcus pyogenes [25] and Usp45 of Lactococcus lactis [26]
A limited number of studies have focused on the identification of homologous signal peptides in L. plantarum [27], and, to the best of our knowledge, none are available for P. acidilactici yet
Summary
Proteases catalyze the hydrolysis of peptide bonds of proteins, thereby improving dietary protein digestibility, nutrient availability, as well as flavor and texture of fermented food and feed products. The lactobacilli (or family Lactobacillaceae until 2020) are a highly diverse group of lactic acid-producing bacteria Species within this group were formerly classified into only three genera, Lactobacillus, Paralactobacillus, and Pediococcus, and were only recently re-classified into 26 different genera, including the genera Lactiplantibacillus (formerly Lactobacillus) and Pediococcus [1]. Several novel native signal peptides were identified that resulted in recombinant strains with improved protease secretion Use of these strains may increase extracellular protein degradation and peptide content in food and feed matrices
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