Author: Huang, Chenxi; Kok, Jan
Title: Editing of the proteolytic system of Lactococcus lactis increases its bioactive potential. Cord-id: fo2cyma1 Document date: 2020_7_17
ID: fo2cyma1
Snippet: Large-scale mass spectrometry-based peptidomics for bioactive peptide discovery is relatively unexplored because of challenges in intracellular peptide extraction and small peptide identification. Here we present an analytical pipeline for large-scale intracellular peptidomics of Lactococcus lactis It entails an optimized sample preparation protocol for L. lactis, used as an "enzyme complex" to digest β-casein, an extraction method for its intracellular peptidome, and a peptidomics data analysi
Document: Large-scale mass spectrometry-based peptidomics for bioactive peptide discovery is relatively unexplored because of challenges in intracellular peptide extraction and small peptide identification. Here we present an analytical pipeline for large-scale intracellular peptidomics of Lactococcus lactis It entails an optimized sample preparation protocol for L. lactis, used as an "enzyme complex" to digest β-casein, an extraction method for its intracellular peptidome, and a peptidomics data analysis and visualization procedure. In addition, we proofread the publicly available bioactive peptide databases and obtained an optimized database of bioactive peptides derivable from bovine β-casein. We used the pipeline to examine cultures of L. lactis MG1363 and a set of 6 isogenic multiple peptidase mutants incubated with β-casein. We observed a clearly strain-dependent accumulation of peptides with several bioactivities, such as ACE inhibitory, DPP-IV inhibitory, immunoregulatory functions. The results suggest that both the number of different bioactive peptides and the bioactivity diversity can be increased by editing the proteolytic system of L. lactis This comprehensive pipeline offers a model for bioactive peptide discovery in combination with other proteins and might be applicable to other bacteria.ImportanceLactic acid bacteria (LAB) are very important for the production of safe and healthy human and animal fermented foods and feed and, increasingly more, in the functional food industry. The intracellular peptidomes of LAB are promising reservoirs of bioactive peptides. We show here that targeted genetic engineering of the peptide degradation pathway allows steering the composition of the peptide pool of the LAB Lactococcus lactis and producing peptides with interesting bioactivities. Our work could be used as a guideline for modifying proteolytic systems in other LAB to further explore their potential as cell peptide factories.
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