Bugs as Drugs 2018
DOI: 10.1128/9781555819705.ch17
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Genome Editing of Food-Grade Lactobacilli To Develop Therapeutic Probiotics

Abstract: For thousands of years, lactic acid bacteria (LAB) have been interwoven with our food supply. The earliest evidence of milk use dates back to 7,000 years BCE (1), while cheeses were produced as early as 6,000 years BCE (2). Advances in our understanding of the microbial world in the past couple of centuries have enabled microbiology-based food manufacturing on an industrial scale. Not only are LAB used to ferment dairy products, but they are also applied to pickle vegetables, to cure meats, and to produce alco… Show more

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Cited by 6 publications
(7 citation statements)
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References 154 publications
(95 reference statements)
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“…Hsp65-producing L. lactis in the present format is still not suitable for human use because of the antibiotic resistant gene and the requirement for xylose for Hsp65 induction. However, novel recombinant technologies that makes possible the expression of exogenous proteins in probiotics used for dairy products without the use of antibiotics and exogenous inducing agents are available (62)(63)(64)(65)(66). A version of Hsp65-producing L. lactis with such features would be suitable for clinical studies.…”
Section: Discussionmentioning
confidence: 99%
“…Hsp65-producing L. lactis in the present format is still not suitable for human use because of the antibiotic resistant gene and the requirement for xylose for Hsp65 induction. However, novel recombinant technologies that makes possible the expression of exogenous proteins in probiotics used for dairy products without the use of antibiotics and exogenous inducing agents are available (62)(63)(64)(65)(66). A version of Hsp65-producing L. lactis with such features would be suitable for clinical studies.…”
Section: Discussionmentioning
confidence: 99%
“…Regarding immunomodulation, teichoic acids (TAs) present in lactobacilli cell walls, activate immunological responses in the host by stimulating dendritic cells and affect the adhesion of bacteria to host cells (Fig. 1A) (8). Genetic engineering of lactobacilli could alter these cell wall components suggesting better survival times in the host by improving adhesion.…”
Section: Crispr-cas Engineering Of Food-grade Probioticsmentioning
confidence: 99%
“…Genetic engineering of lactobacilli could alter these cell wall components suggesting better survival times in the host by improving adhesion. In addition, another study on lactobacilli TAs focused on modifying proinflammatory responses by integrating a knockout vector in the gene responsible for D-alanylation of TAs in order to acquire antiinflammatory responses 8 . Such discovery could be useful in colon cancer prevention which occurs due to chronic inflammation in the colon (Fig.…”
Section: Crispr-cas Engineering Of Food-grade Probioticsmentioning
confidence: 99%
“…We have designed a novel platform to identify, engineer, optimize, and biochemically characterize new BSHs capable of altering conjugated bile acids and to define their ability to influence the bile acid pool, gut microbiota, and host physiology in vivo . In order to do this, we also need a robust organism for delivery and expression in vivo and have selected Lactobacillus as our model system ( 11 ). This work will result in the construction of genetically modified Lactobacillus strains for therapeutic interventions to rationally alter the bile acid pool in the gut, modulating the gut microbiota and host physiology in GI and metabolic diseases.…”
Section: Current Advances: Engineered Bugs To Treat Gi and Metabolic mentioning
confidence: 99%