The CLO3403/CLO3404 Two-Component System of Clostridium botulinum E1 Beluga Is Important for Cold Shock Response and Growth at Low Temperatures

Mascher, Gerald; Derman, Yağmur; Kirk, David; Palonen, Eveliina; Lindström, Miia; Korkeala, Hannu

doi:10.1128/aem.03204-13

Cited by 13 publications

(10 citation statements)

References 49 publications

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“…Loss of the plasmids was verified by sensitivity to thiamphenicol (15 µg ml −1 ). Insertion in correct site and correct orientation was confirmed by PCR and southern blot analysis confirmed single intron insertion (Mascher et al ., ).…”

Section: Methodsmentioning

confidence: 97%

“…The spo0A genes were knocked-out by inserting a mobile group II intron from Lactococcus lactis (Ll.ltrB) using the Clos-Tron mutagenesis tool (Heap et al, 2007;Heap et al, 2010). The spo0A mutants with intron insertion in sense (spo0As) and antisense (spo0Aa) orientation were obtained and confirmed as described earlier (Mascher et al, 2014). Briefly, retargeted pMTL007C-E2 plasmids were ordered from DNA2.0 (Menlo Park, CA) and conjugated into C. botulinum.…”

Section: Disruption Of Spo0a By Clostron Mutagenesismentioning

confidence: 99%

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Neurotoxin synthesis is positively regulated by the sporulation transcription factor Spo0A in Clostridium botulinum type E

Mascher

Mertaoja

Korkeala

et al. 2017

Environmental Microbiology

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Clostridium botulinum produces the most potent natural toxin, the botulinum neurotoxin (BoNT), probably to create anaerobiosis and nutrients by killing the host, and forms endospores that facilitate survival in harsh conditions and transmission. Peak BoNT production coincides with initiation of sporulation in C. botulinum cultures, which suggests common regulation. Here, we show that Spo0A, the master regulator of sporulation, positively regulates BoNT production. Insertional inactivation of spo0A in C. botulinum type E strain Beluga resulted in significantly reduced BoNT production and in abolished or highly reduced sporulation in relation to wild-type controls. Complementation with spo0A restored BoNT production and sporulation. Recombinant DNA-binding domain of Spo0A directly bound to a putative Spo0A-binding box (CTTCGAA) within the BoNT/E operon promoter, demonstrating direct regulation. Spo0A is the first neurotoxin regulator reported in C. botulinum type E. Unlike other C. botulinum strains that are terrestrial and employ the alternative sigma factor BotR in directing BoNT expression, C. botulinum type E strains are adapted to aquatic ecosystems, possess distinct epidemiology and lack BotR. Our results provide fundamental new knowledge on the genetic control of BoNT production and demonstrate common regulation of BoNT production and sporulation, providing a key intervention point for control.

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Section: Methodsmentioning

confidence: 97%

Section: Disruption Of Spo0a By Clostron Mutagenesismentioning

confidence: 99%

Neurotoxin synthesis is positively regulated by the sporulation transcription factor Spo0A in Clostridium botulinum type E

Mascher

Mertaoja

Korkeala

et al. 2017

Environmental Microbiology

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“…Although the inactivation of specific genes in clostridial species has proven to be a rather difficult, slow, and inefficient task for a long time, the genetic toolbox for knockout mutagenesis has been expanding in the last few years. The ClosTron system, which makes use of a mobile intron that can be retargeted to a sequence of interest, has proven to be particularly efficient for insertional mutagenesis in a range of clostridial species (20), but only a few studies have used ClosTron mutagenesis in gIICb thus far (21,22). Interestingly, ClosTron has been used to knock out the bont gene in both gICb and gIICb (21,23), but the properties of the gIICb knockout strain in view of its possible usefulness for challenge or process validation studies in foods were not further investigated.…”

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confidence: 99%

Construction of Nontoxigenic Mutants of Nonproteolytic Clostridium botulinum NCTC 11219 by Insertional Mutagenesis and Gene Replacement

Clauwers

Vanoirbeek

Delbrassinne

et al. 2016

Appl Environ Microbiol

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Group II nonproteolytic Clostridium botulinum (gIICb) strains are an important concern for the safety of minimally processed ready-to-eat foods, because they can grow and produce botulinum neurotoxin during refrigerated storage. The principles of control of gIICb by conventional food processing and preservation methods have been well investigated and translated into guidelines for the food industry; in contrast, the effectiveness of emerging processing and preservation techniques has been poorly documented. The reason is that experimental studies with C. botulinum are cumbersome because of biosafety and biosecurity concerns. In the present work, we report the construction of two nontoxigenic derivatives of the type E gIICb strain NCTC 11219. In the first strain, the botulinum toxin gene (bont/E) was insertionally inactivated with a retargeted intron using the ClosTron system. In the second strain, bont/E was exchanged for an erythromycin resistance gene using a new gene replacement strategy that makes use of pyrE as a bidirectional selection marker. Growth under optimal and stressed conditions, sporulation efficiency, and spore heat resistance of the mutants were unaltered, except for small differences in spore heat resistance at 70°C and in growth at 2.3% NaCl. The mutants described in this work provide a safe alternative for basic research as well as for food challenge and process validation studies with gIICb. In addition, this work expands the clostridial genetic toolbox with a new gene replacement method that can be applied to replace any gene in gIICb and other clostridia. IMPORTANCEThe nontoxigenic mutants described in this work provide a safe alternative for basic research as well as for food challenge and process validation studies with psychrotrophic Clostridium botulinum. In addition, this work expands the clostridial genetic toolbox with a new gene replacement method that can be applied to replace any gene in clostridia. Botulism, caused by the botulinum neurotoxin (BoNT) produced by Clostridium botulinum, is a rare but severe paralytic illness in humans and animals. Botulinum toxins are 150-kDa proteins with zinc endopeptidase activity, consisting of two subunits, a 100-kDa heavy chain and a 50-kDa light chain. The heavy chain is responsible for binding and translocation of the light chain into the cytosol of neuronal cells, whereas the light chain cleaves SNARE proteins that are involved in the docking of acetylcholine-containing vesicles and fusion to the presynaptic membrane. When the SNARE proteins are cleaved, neurotransmitter release is inhibited, leading to the paralysis of the corresponding muscle (1, 2).C. botulinum is a strictly anaerobic bacterium that thrives in decaying organic matter in soils and sediments of ponds, lakes, and oceans. It also forms dormant endospores that are highly resilient to hostile conditions and therefore can be found widespread in the environment. These spores may contaminate foods via raw materials or other sources, possibly leading to food-borne botuli...

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“…A role for TCSs in functioning as thermosensors and regulating gene expression was originally described for Escherichia coli 20 . Subsequent global gene expression and/or gene inactivation studies have linked the role of TCSs to low temperature gene regulation in: animal pathogens including Bacillus cereus 21 , Clostridium botulinum 22 23 , Edwardsiella tarda 24 , Flavobacterium psychrophilum 25 , Haemophilus influenzae 26 , Listeria monocytogenes 27 28 , Yersinia pseudotuberculosis 29 ; plant pathogens Agrobacterium tumefaciens 10 30 and Pseudomonas syringae 31 32 33 34 ; environmental bacteria Bacillus subtilis 11 35 , Sphingobacterium antarcticus 31 and Synechocystis sp. 12 ; and environmental archaea Methanococcoides burtonii 13 and Methanolobus psychrophilus 18 .…”

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confidence: 99%

Characterization of a temperature-responsive two component regulatory system from the Antarctic archaeon, Methanococcoides burtonii

Najnin

Siddiqui

Taha

et al. 2016

Sci Rep

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Cold environments dominate the Earth’s biosphere and the resident microorganisms play critical roles in fulfilling global biogeochemical cycles. However, only few studies have examined the molecular basis of thermosensing; an ability that microorganisms must possess in order to respond to environmental temperature and regulate cellular processes. Two component regulatory systems have been inferred to function in thermal regulation of gene expression, but biochemical studies assessing these systems in Bacteria are rare, and none have been performed in Archaea or psychrophiles. Here we examined the LtrK/LtrR two component regulatory system from the Antarctic archaeon, Methanococcoides burtonii, assessing kinase and phosphatase activities of wild-type and mutant proteins. LtrK was thermally unstable and had optimal phosphorylation activity at 10 °C (the lowest optimum activity for any psychrophilic enzyme), high activity at 0 °C and was rapidly thermally inactivated at 30 °C. These biochemical properties match well with normal environmental temperatures of M. burtonii (0–4 °C) and the temperature this psychrophile is capable of growing at in the laboratory (−2 to 28 °C). Our findings are consistent with a role for LtrK in performing phosphotransfer reactions with LtrR that could lead to temperature-dependent gene regulation.

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The CLO3403/CLO3404 Two-Component System of Clostridium botulinum E1 Beluga Is Important for Cold Shock Response and Growth at Low Temperatures

Cited by 13 publications

References 49 publications

Neurotoxin synthesis is positively regulated by the sporulation transcription factor Spo0A in Clostridium botulinum type E

Neurotoxin synthesis is positively regulated by the sporulation transcription factor Spo0A in Clostridium botulinum type E

Construction of Nontoxigenic Mutants of Nonproteolytic Clostridium botulinum NCTC 11219 by Insertional Mutagenesis and Gene Replacement

Characterization of a temperature-responsive two component regulatory system from the Antarctic archaeon, Methanococcoides burtonii

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