Progress 01/01/19 to 12/31/19
Outputs
Target Audience:Results of this work was disseminated to food industry clients and to USDA, FDA and academic scientists through the peer-reviewedpublications and by presentations at the annual meetings of the InternationalAssociation for Food Protection. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?One graduate student has received an extensive training in foodborne bacterial pathogen sublethal stress adaptation and food safety by undertaking the thesis project focusing in this area. How have the results been disseminated to communities of interest?The results were dessiminated by peer-reviewed publications in the international journals and by oral and poster presentations of this work to USDA, FDA and academic scientists and food industry clients at the annual meetings of the International Association for Food Protection. What do you plan to do during the next reporting period to accomplish the goals?
Nothing Reported
Impacts
What was accomplished under these goals?
One objective of this study wasto determine the survival ofListeriamonocytogenescells in lethal concentrations of quaternary ammonium compoundafter sublethal adaptation in homologous stress. Four strains of L. monocytogeneswere exposed to gradually increasing sublethal concentrations by spiking at hourly intervals for 5 h to reach sublethal concentration of QAC (2 ppm) and then the cells were allowed to grow at that sublethal concentration for 19 h until OD600nmreaches 0.9 at the end of each day for 5 cycles at 22°C. Three methods were used for observing differences in QAC adapted and non-adapted cells for changes in growth rate and survival patterns in lethal concentration of QAC: (1) Short-range MIC of QAC was determined for adapted and non-adapted cells by broth dilution assay; (2) Changes in growth rate and lag time of adapted and non-adapted cells was determined by OD600nmin 50% MIC of QAC; and (3) Survival of adapted and non-adapted cells was determined by concentration-to-kill assay in lethal QAC (5 ppm) in agar model. All experiments were repeated thrice. Logs transformed counts were analyzed using One way ANOVA in a completely randomized block design and means were separated by Fisher's protected LSD when P<0.05.Three major findings were observed: (1) Short-range MIC of QAC was significantly increased for 3 strains by 1-2 ppm (P <0.05); (2) Growth rate of QAC adapted cells was faster for all strains in 50% MIC of QAC by OD600nmwhich was significantly higher than the non-adapted cells (P<0.05) at 8 h for up to 24 h; and (3) Survival of QAC adapted cells was increased significantly by 3-6 logs (P<0.05) for all 4 strains in concentration-kill-assay in lethal QAC in TSAYE compared to non-adapted cells. These findings illustrate the potential for emergence of QAC tolerant phenotypes of L. monocytogenes after sublethal adaptive response where QAC may be widely used in the food processing environments. The second objective of this study wasto determine the survival ofListeria monocytogenescells adapted to sublethal quaternary ammonium compoundin lethal concentrations of gentamicin for heterologous stress.Four strains of Listeria monocytogeneswere exposed to gradually increasing sublethal concentrations by spiking at hourly intervals for 5 h to reach a final concentration of 2 ppm QAC in TSBYE and then the cells were allowed to grow at that sublethal concentration for 19 h until OD600nmreaches 0.9 at the end of each day for 5 cycles at 22°C. Three methods were used for observing differences in QAC adapted and non-adapted cells for changes in survival patterns in gentamicin: (1) Short-range MIC of gentamicin was determined for QAC adapted and non-adapted cells by broth dilution assay; (2) Changes in growth rate and lag time of QAC adapted and non-adapted cells was determined in 50% MIC of gentamicin by OD600nm; and (3) Survival of QAC adapted and non-adapted cells was determined by concentration-to-kill assay in lethal gentamicin (4 µg/ml) in agar model. All experiments were repeated thrice.Logs transformed counts were analyzed using One way ANOVA in a completely randomized block design and means were separated by Fisher's protected LSD when P<0.05.Three major findings were observed: (1) No significant changes in short-range MIC of gentamicin was observed between QAC adapted and non-adapted cells; (2) However, growth rate of QAC adapted cells was significantly higher (P<0.05) for up to 16 h than non-adapted cells in 50% MIC of gentamicin by OD600nm ; and (3) Survival of QAC adapted cells was higher by approximately 1 log CFU in concentration-to-kill assay in lethal gentamicin in TSA compared to non-adapted cells for 1 of the 4 strains but these differences were not statistically significant.These findings illustrate the potential for formation of gentamicin tolerant phenotypes of someL. monocytogenesstrains as a result of a sublethal adaptive response to QAC in conditions where QAC may be used widely.
Publications
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
Kode, D., Nannapaneni, R. 2019. Homologous stress adaptation in four strains of Listeria monocytogenes to quaternary ammonium compound (QAC) after sublethal exposure. Summer Student Science Symposium of the Mississippi Academy
of Sciences, July 11, 2019 held at Mississippi State University.
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
Kode D, Nannapaneni R, Bansal M, Cheng W-H, Sharma CS and Kiess A. 2019. Homologous stress adaptation in four strains of Listeria monocytogenes to quaternary ammonium compounds after sublethal exposure, P1-148. Annual Meeting of the International Association for Food Protection, July 21-24, 2019 in Louisville, KY
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
Kode D, Nannapaneni R, Bansal M, Cheng W-H, Sharma CS and Kiess A. 2019. Heterologous stress adaptation to gentamicin in four strains of Listeria monocytogenes after sublethal adaptive response to quaternary ammonium compound (QAC), P1-146, Annual Meeting of the International Association for Food Protection, July 21-24, 2019 in Louisville, KY.
|
Progress 01/01/16 to 12/31/19
Outputs
Target Audience:Results of this work was disseminated to USDA, FDA and academic scientists and food industry clients through the peer-reviewed publications and by presentations at the annual meetings of the International Poultry Science Forum andInternationalAssociation for Food Protection. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?Two graduate students have received an extensive training in foodborne bacterial pathogen sublethal stress adaptation and food safety by undertaking thesis projects focusing in this area. How have the results been disseminated to communities of interest?The results were dessiminated by peer-reviewed publications in the international journals and by oral and poster presentations of this work to USDA, FDA and academic scientists and food industry clients at the annual meetings of the International Association for Food Protection for three consecutive years. What do you plan to do during the next reporting period to accomplish the goals?
Nothing Reported
Impacts
What was accomplished under these goals?
Heterologous stress adaptation (changes in antibiotic susceptibility) after sublethal oxidative stress induced by chlorine in Listeria monocytogenes:L. monocytogenesstrains were screened for susceptibility to different classes of antibiotics before and after gradual exposure to the increasing concentrations of sodium hypochlorite. All five strains tested were found to have intrinsic resistance to nalidixic acid while 2 of the 5 strains tested (Scott A and N1-227) have intrinsic resistance to ceftriaxone (a third-generation cephalosporin). The average zone of inhibition was slightly decreased by 0.5 to 2.2 mm compared to controls for all 11 antibiotics tested. Interestingly, the disk diffusion assay showed that all five-strains studied in the present study develop significant tolerance for streptomycin. Significant antibiotic tolerance development was also observed for antibiotics such as ampicillin, amoxicillin, sulfamethoxazole and trimethoprim, ciprofloxacin, rifampicin, and ceftriaxone after sublethal chlorine exposure toL. monocytogenesby disk diffusion assay. Results showed that the effect of sublethal chlorine exposure onL. monocytogeneshas significantly increased its zone of inhibition for few of antibiotics however, it did not influence antibiotic susceptibility zone. Similarly, development of antibiotic tolerance was measured after sublethal chlorine exposure toL. monocytogeneswith double dilution MIC assay. The assay showed that significant antibiotic tolerance was developed for ampicillin (1 strain), tetracycline (2 strains), streptomycin (1 strain), and ceftriaxone (3 strains). A major change in MIC was observed for the reference strain ATCC 19116 which exhibited a 4-fold increase in MIC to ceftriaxone after sublethal chlorine adaptation. A minor but significant change in antibiotic susceptibility range for ceftriaxone was also observed in two intrinsic resistant strains, Scott A and N1-227, in chlorine oxidative stress adapted cells ofL. monocytogenes.The decrease in zone of inhibition and increase in MIC for antibiotics after sublethal chlorine exposure could be related with phenotypic antibiotic tolerance development inL. monocytogenes. Sublethal chlorine induced oxidative stress caused significant and consistent morphological changes inL. monocytogenesstrains Scott A, V7 and N1-227 which included: (1) changes in cell length, (2) changes in cell wall thickness, (3) changes in cell membrane shape; and (4) cytoplasmic changes. Sublethal chlorine adaptedL. monocytogenesexhibited a consistent elongation of cells, presence of multiple chromosomes and membrane bleb formations which may indicate transient inhibition of cell division. Along with the elongated cells, outer membrane bleb formation and wavy cell envelop structures were frequently observed in chlorine stress adapted cells ofL. monocytogeneswhich may be associated with the activation of a bacterial phenotypic response to sublethal oxidative stress. In conclusion, our results show that the exposure to sublethal concentrations of chlorine could potentially have impact on the cross-responses ofL. monocytogenesto commonly used antibiotics, enabling microorganisms to adapt to adverse environmental conditions and enhance antibiotic resistance. The changes in cell wall and membrane integrity resulting from the elongation of cells may contribute to possible routes ofL. monocytogenesresponse for minor but significant increase in tolerance to chlorine and selective antibiotics. Heterologous stress adaptation (changes in antibiotic susceptibility) after sublethal oxidative stress induced by quaternary ammonium compound (QAC)in Listeria monocytogenes: Antibiotic susceptibility of eight strains of L. monocytogenes exposed to sublethal oxidative stress induced by QAC was determined by the MIC dilution assay as per CLSI (2008) guidelines. No significant antibiotic tolerance development was observed against ampicillin and amoxicillin by MIC broth dilution assay for QAC-adapted cells of L. monocytogenes. However, there were changes in antibiotic susceptibility against ciprofloxacin, gentamicin, and trimethoprim after sublethal oxidative stress induced by QAC in L. monocytogenes strains as explained below: Heterologous stress response against gentamicin: Three major findings were observed: (1) No significant changes in short-range MIC of gentamicin was observed between QAC adapted and non-adapted cells; (2) However, growth rate of QAC adapted cells was significantly higher (P<0.05) for up to 16 h than non-adapted cells in 50% MIC of gentamicin by OD600nm ; and (3) Survival of QAC adapted cells was higher by approximately 1 log CFU in concentration-to-kill assay in lethal gentamicin in TSA compared to non-adapted cells for one of the four strains but these differences were not statistically significant. Heterologous stress response against ciprofloxacin: Four main findings were observed: (1) The MIC of ciprofloxacin against L. monocytogenes was increased by 1 to 4 µg/ml for QAC-adapted cells compared to non-adapted cells for 5 out of 8 strains. A two-fold increase in MIC of ciprofloxacin was observed for one strain of L.monocytogenes adapted to QAC; (2) The growth rate (OD600 nm) of QAC-adapted cells was significantly higher than non-adapted cells in 2 µg/ml of ciprofloxacin in TSBYE for 5 out of 8 strains; (3) The lag phase of L. monocytogenes was decreased by 5-6 h in 2 µg/ml of ciprofloxacin for QAC-adapted cells compared to non-adapted cells for 5 out of 8 strains; and (4) The survival counts of QAC-adapted cells was significantly higher by 2 to 4 log CFU/ml in TSAYE containing ciprofloxacin (2 µg/ml) as compared to non-adapted cells for 5 out of 8 strains of L.monocytogenes. Greater than two fold increase in survival for 3 out of 8 QAC-adapted strains of L.monocytogenes was observed. Heterologous stress response against trimethoprim:Four main findings were observed: (1) The MIC of trimethoprim againstL. monocytogeneswas increased by 0.2 to 0.5 µg/ml for QAC-adapted cells compared to non-adapted cells for 6 out of 8 strains. Following adaptation, a two-fold increase in MIC of trimethoprim was observed for two strains ofL.monocytogenesadapted to QAC; (2) The growth rate (OD600 nm) of QAC-adapted cells was significantly higher for up to 5-8 h than non-adapted cells in TSBYE containing trimethoprim (0.125 µg/ml) for 5 out of 8 strains; (3) The lag phase ofL. monocytogeneswas decreased in 0.125 µg/ml of trimethoprim for QAC-adapted cells compared to non-adapted cells for 6 out of 8 strains; and (4) Six QAC-adaptedL.monocytogenesstrains showed significantly increased survival by 1.5 to 2.5 logs CFU/ml against trimethoprim (0.125 µg/ml) in agar model as comparison to non-adapted cells. Heterologous stress adaptation (changes in antibiotic susceptibility) after sublethal oxidative stress induced by chlorine or QAC in Salmonella strains: Slight differences in antibiotic susceptibility patterns of chlorine-adapted (rugose and smooth) of Salmonella Typhimurium were observed as compared to non-adapted control cells. The rugose cells of S. Typhimurium exhibited a slight reduction (≤ 2mm) in susceptibility to streptomycin, nalidixic acid, ciprofloxacin, and ceftriaxone when compared to smooth cells. A slight increase in MIC was observed for rugose cells against all the antibiotics tested except ciprofloxacin compared to smooth cells. In another study, no significant antibiotic tolerance development was observed against ceftriaxone and ciprofloxacin by MIC broth dilution assay for QAC-adapted cells of Salmonella. However, there were changes in antibiotic susceptibility against ampicillin and trimethoprim after sublethal oxidative stress induced by QAC in 2of the 8 Salmonella strains tested.
Publications
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
Kode, D., Nannapaneni, R., Bansal, M., Cheng, W-H., Sharma, C.S., and Kiess, A. 2019. Heterologous stress adaptation to gentamicin in four strains of Listeria monocytogenes after sublethal adaptive response to quaternary ammonium compound (QAC), P1-146, Annual Meeting of the International Association for Food Protection, July 21-24, 2019 in Louisville, KY.
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
Kode, D., Nannapaneni, R. 2019. Homologous stress adaptation in four strains of Listeria monocytogenes to quaternary ammonium compound (QAC) after sublethal exposure. Summer Student Science Symposium of the Mississippi Academy of Sciences, July 11, 2019 held at Mississippi State University.
- Type:
Conference Papers and Presentations
Status:
Submitted
Year Published:
2020
Citation:
Kode, D., Nannapaneni, R., Bansal, M., Cheng, W-H., Sharma, C.S., Kiess, A. 2020. Homologous stress adaptive response in eight strains of Listeria monocytogenes after gradual exposure to increasing sublethal concentration of quaternary ammonium compound. Submitted for presentations at the Annual Meeting of the International Association for Food Protection, August 2-5, 2020 in Cleveland, OH.
- Type:
Conference Papers and Presentations
Status:
Submitted
Year Published:
2020
Citation:
Kode, D., Nannapaneni, R., Bansal, M., Cheng, W-H., Sharma, C.S., Kiess, A. 2020. Changes in susceptibility to ciprofloxacin in Listeria monocytogenes strains after exposure to gradually increasing sublethal concentrations of quaternary ammonium compound. Submitted for presentations at the Annual Meeting of the International Association for Food Protection, August 2-5, 2020 in Cleveland, OH.
- Type:
Conference Papers and Presentations
Status:
Submitted
Year Published:
2020
Citation:
Kode, D., Nannapaneni, R., Bansal, M., Cheng, W-H., Sharma, C.S., Kiess, A. 2020. Changes in susceptibility to trimethoprim in Listeria monocytogenes strains after exposure to gradually increasing sublethal concentrations of quaternary ammonium compound. Submitted for presentations at the Annual Meeting of the International Association for Food Protection, August 2-5, 2020 in Cleveland, OH.
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2017
Citation:
Bansal, M., Nannapaneni, R., McDaniel, C., Sharma, C.S. 2017. Influence of chlorine induced sub-lethal oxidative stress on homologous stress adaptation and biofilm formation in Listeria monocytogenes. International Poultry Scientific Forum, January 30-31, 2017 at Georgia World Congress Center, Atlanta, Georgia.
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2017
Citation:
Bansal, M., Sharma, C.S., Nannapaneni, R. 2017. Changes in zones of inhibition and minimum inhibitory concentrations of antibiotics in Listeria monocytogenes strains after exposure to chlorine induced sublethal oxidative stress. Annual Meetings of the International Association for Food Protection, July 9-12, 2017 in Tampa, Florida.
- Type:
Theses/Dissertations
Status:
Published
Year Published:
2017
Citation:
Bansal, Mohit. 2017. Listeria monocytogenes response to sublethal sodium hypochlorite induced oxidative stress on its biofilm forming ability and antibiotic resistance. MS Thesis, Mississippi State University (submitted November 2017).
- Type:
Journal Articles
Status:
Published
Year Published:
2018
Citation:
Bansal, M., Nannapaneni, R., Sharma, C.S., and Kiess, A. 2018. Listeria monocytogenes response to sublethal chlorine induced oxidative stress on homologous and heterologous stress adaptation. Frontiers in Microbiology 9:2050
- Type:
Journal Articles
Status:
Published
Year Published:
2019
Citation:
Bansal, M., Nannapaneni, R., Kode, D., Chang, S., Sharma, C.S., McDaniel, C., and Kiess, A. 2019. Rugose morphotype in Salmonella Typhimurium and S. Heidelberg induced by sequential exposure to subinhibitory NaOCl aids in biofilm tolerance to lethal NaOCl on polystyrene and stainless steel surfaces. Frontiers in Microbiology 10:2704.
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2019
Citation:
Kode, D., Nannapaneni, R., Bansal, M., Cheng, W-H., Sharma, C.S., and Kiess, A. 2019. Homologous stress adaptation in four strains of Listeria monocytogenes to quaternary ammonium compounds after sublethal exposure, P1-148. Annual Meeting of the International Association for Food Protection, July 21-24, 2019 in Louisville, KY.
|
Progress 01/01/18 to 12/31/18
Outputs
Target Audience: Results of this work was disseminated to USDA, FDA and academic scientists and food industry clients through the peer-reviewed publications and by presentations at the annual meetings of the International Poultry Science Forum, International Association for Food Protection, and Poultry Science Association. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided? One graduate student has received an extensive training in foodborne bacterial pathogen sublethal stress adaptation and food safety by undertaking the thesis project focusing in this area. How have the results been disseminated to communities of interest?The results were dessiminated by peer-reviewed publications in the international journals and by oral and poster presentations of this work to USDA, FDA and academic scientists and food industry clients at the annual meetings of the International Poultry Science Forum, International Association for Food Protection, and Poultry Science Association. What do you plan to do during the next reporting period to accomplish the goals? We are currently working on the homologous and heterologous stress adaptation in L. monocytogenes strains adapted to sublethal levels of quaternary ammonium compound (QAC). We are observing the differences in: (1) short-range MIC of non-adapted and QAC-adapted cells; (2) growth rate of non-adapted and QAC-adapted cells by optical density; and (3) QAC concentration-kill-assay for survival differences in non-adapted and QAC-adapted cells in agar model. These results will be submitted as another journal article for publication in 2019 and new abstracts and posters will be presented at the 2019 annual meetings for dissemination of these findings to various food industry professionals and USDA, FDA and academic scientists working on foodborne bacterial sublethal stress adaptation and antibiotic resistance.
Impacts
What was accomplished under these goals?
There is a lack of knowledge on the influence of continuously increasing doses of sublethal chlorine for short term exposure on L. monocytogenes homologous adaptation (tolerance to same biocide) and heterologous adaptation (cross-resistance to other biocides and antibiotics). Therefore, three objectives were addressed in this study: (i) to determine homologous stress adaptation to chlorine in L. monocytogenes strains by measuring the changes in minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC); (ii) to determine the cross-resistance to commonly used antibiotics by measuring changes in zones of inhibition and MIC in L. monocytogenes cells after exposure to sublethal chlorine; (iii) to determine ultrastructural changes in L. monocytogenes after exposure to sublethal chlorine by transmission electron microscopy. The MIC of sodium hypochlorite for control L. monocytogenes was 500 ppm for all five strains (Scott A, V7, N1-2227, F6-154 and ATCC 19116) studied. After exposure to the sublethal oxidative stress induced by chlorine, the average MIC of sodium hypochlorite was slightly increased to 600 ppm for cells at all three sublethal stress levels, i.e., 250 ppm, 330 ppm and 375 ppm in four strains (Scott A, V7, N1-227 and F6-154). However, there was no change in MIC to sodium hypochlorite for the reference strain ATCC 19916 under these experimental conditions. The MBC of sodium hypochlorite for L. monocytogenes showed similar trends of adaptive tolerance to sodium hypochlorite, where average MBC was increased to 700 ppm for strains Scott A, V7, N1-227, F6-154 from the initial 600 ppm for cells at all sublethal stress levels (250 ppm, 330 ppm and 375 ppm). However, no change in MBC was observed for the reference strain ATCC 19116. Antibiotic susceptibility of five strains of L. monocytogenes was measured by the Kirby Bauer disk diffusion assay and MIC dilution assay as per CLSI (2016) guidelines. L. monocytogenes strains were screened for susceptibility to different classes of antibiotics before and after gradual exposure to the increasing concentrations of sodium hypochlorite. All five strains tested were found to have intrinsic resistance to nalidixic acid while 2 of the 5 strains tested (Scott A and N1-227) have intrinsic resistance to ceftriaxone (a third-generation cephalosporin). The average zone of inhibition was slightly decreased by 0.5 to 2.2 mm compared to controls for all 11 antibiotics tested. Interestingly, the disk diffusion assay showed that all five-strains studied in the present study develop significant tolerance for streptomycin (p<0.05). Significant antibiotic tolerance development was also observed for antibiotics such as ampicillin, amoxicillin, sulfamethoxazole and trimethoprim, ciprofloxacin, rifampicin, and ceftriaxone after sublethal chlorine exposure to L. monocytogenes by disk diffusion assay. Results showed that the effect of sublethal chlorine exposure on L. monocytogenes has significantly decreased its zone of inhibition for few of antibiotics however, it did not influence antibiotic susceptibility zone. Similarly, development of antibiotic tolerance was measured after sublethal chlorine exposure to L. monocytogenes with double dilution MIC assay. The assay showed that significant antibiotic tolerance was developed for ampicillin (1 strain), tetracycline (2 strains), streptomycin (1 strain), and ceftriaxone (3 strains). A major change in MIC was observed for the reference strain ATCC 19116 which exhibited a 4-fold increase in MIC to ceftriaxone after sublethal chlorine adaptation. A minor but significant change in antibiotic susceptibility range for ceftriaxone was also observed in two intrinsic resistant strains, Scott A and N1-227, in chlorine oxidative stress adapted cells of L. monocytogenes. The decrease in zone of inhibition and increase in MIC for antibiotics after sublethal chlorine exposure could be related with phenotypic antibiotic tolerance development in L. monocytogenes. Sublethal chlorine induced oxidative stress caused significant and consistent morphological changes in L. monocytogenes strains Scott A, V7 and N1-227 which included: (1) changes in cell length, (2) changes in cell wall thickness, (3) changes in cell membrane shape; and (4) cytoplasmic changes. Sublethal chlorine adapted L. monocytogenes exhibited a consistent elongation of cells, presence of multiple chromosomes and membrane bleb formations which may indicate transient inhibition of cell division. Along with the elongated cells, outer membrane bleb formation and wavy cell envelop structures were frequently observed in chlorine stress adapted cells of L. monocytogenes which may be associated with the activation of a bacterial phenotypic response to sublethal oxidative stress. In summary, our work detected the qualitative changes (based on Kirby-Bauer method) and quantitative changes (based on broth dilution MIC method) in antibiotic susceptibility of non-adapted and sublethal chlorine stressed cells of L. monocytogenes strains by the CLSI, 2016 guidelines. This work contributes to a significant understanding on the impact of sublethal chlorine stress in L. monocytogenes strains against selected antibiotics based on these two CLSI methods in addition to transmission electron microscopy findings on the structural changes in cell morphology. In another study, there were slight differences in antibiotic susceptibility patterns of chlorine-adapted (rugose and smooth) of Salmonella Typhimurium compared to non-adapted control cells. The rugose cells of S. Typhimurium exhibited a slight reduction (≤ 2mm) in susceptibility to streptomycin, nalidixic acid, ciprofloxacin, and ceftriaxone when compared to smooth cells. A slight increase in MIC was observed for rugose cells against all the antibiotics tested except ciprofloxacin compared to smooth cells.
Publications
- Type:
Journal Articles
Status:
Published
Year Published:
2018
Citation:
Bansal, M., Nannapaneni, R., Sharma, C. S., Kiess, A. S. (2018). Listeria monocytogenes response to sub-lethal chlorine induced oxidative stress on homologous and heterologous stress adaptation. Frontiers in Microbiology, 9, 2050.
|
Progress 01/01/17 to 12/31/17
Outputs
Target Audience:Results of this work was disseminated to USDA, FDA and academic scientists and food industry clients at the 2017 annual meetings of the International Poultry Science Forum, International Association for Food Protection, and Poultry Science Association. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?One graduate student has received an extensive training in foodborne bacterial pathogen sublethal stress adaptation and food safety by undertaking the thesis project focusing in this area. How have the results been disseminated to communities of interest?Oral and poster presentations were submittedfor disseminating theresults of this workto USDA, FDA and academic scientists and food industry clients at theannual meetings of the International Poultry Science Forum, International Association for Food Protection, and Poultry Science Association. What do you plan to do during the next reporting period to accomplish the goals?One journal article of this work will bepublished in 2018 and will be disseminated to various food industry professionals and USDA, FDA and academic scientists working on foodborne bacterial sublethal stress adaptation and antibiotic resistance.
Impacts
What was accomplished under these goals?
The objective of this study was to determine the effect of sublethal oxidative stress induced by chlorine against homologous and heterologous stress adaptation in five Listeria monocytogenes strains. L. monocytogenes cells were exposed to gradually increasing sub-inhibitory concentrations of total chlorine/day starting from 250 ppm (day 1), 270 ppm (day 2), 290 ppm (day 3), 310 ppm (day 4), 330 ppm (day 5), 350 ppm (day 6) and 375 ppm (day 7) in tryptic soy broth (TSB). Changes in minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of L. monocytogenes cells exposed to sublethal chlorine at 250 ppm (1/2 MIC) for one day, 250 ppm to 330 ppm (1/2 to 2/3 MIC) over 5 days, and 250 ppm to 375 ppm (1/2 to 3/4 MIC) over 7 days, and control (non-adapted cells) were determined by the macro-dilution method. Chlorine-adapted L. monocytogenes cells were also evaluated for changes in antibiotic resistance using the Kirby-Bauer disk diffusion and MIC double dilution assay as per the Clinical & Laboratory Standards Institute (CLSI, 2008) guidelines. In four L. monocytogenes strains (Scott A, V7, FSL-N1-227 and FSL-F6-154) after adapted to sublethal chlorine, the chlorine MIC (600 ppm) and MBC (700 ppm) values were slightly higher as compared to control (500 ppm MIC, and 600 ppm MBC). All five L. monocytogenes strains were screened for susceptibility to different classes of antibiotics before and after gradual exposure to the increasing concentrations of sodium hypochlorite. All five strains tested were found to have intrinsic resistance to nalidixic acid while 2 of the 5 strains tested (Scott A and N1-227) have intrinsic resistance to ceftriaxone (a third-generation cephalosporin). The disk diffusion assay results showed that the sublethal oxidative stress induced by sublethal sodium hypochlorite influenced the zones of inhibition in L. monocytogenes. The average zone of inhibition was slightly decreased by 0.5 to 2.2 mm compared to controls for all 11 antibiotics tested. However, adapted cells were slightly more susceptible to rifampicin where the zone of inhibition was increased by 0.3-0.5 mm. The double dilution MIC assay revealed a minor change in average MIC values for ampicillin, tetracycline, amoxicillin and ciprofloxacin. However, the average MIC values were doubled for streptomycin and gentamicin against oxidative stress adapted L. monocytogenes strain V7 compared to control. A major change in MIC was observed for the reference strain ATCC 19116 which exhibited a significant increase in resistance to ceftriaxone. A slight change in antibiotic susceptibility range was found for two more strains, Scott A and N1-227, for ceftriaxone in chlorine oxidative stress adapted cells of L. monocytogenes. In summary, the Kirby-Bauer and MIC double dilution assays showed some changes in antibiotic susceptibility patterns for antibiotics such as streptomycin, gentamicin and ceftriaxone. However, the changes in zones of inhibition and MIC values to all antibiotics tested for the chlorine-adapted and non-adapted (control) Lm cells were still within the susceptible range. Transmission electron microscopy studies showed that changes in cell wall and membrane integrity resulting from the elongation of cells may contribute to the possible routes of Lm response for its increase in slight tolerance to chlorine and selective antibiotics. These findings indicate that the continuous exposure of Lm cells to chlorine may induce slight changes in homologues and heterologous stress adaptation.
Publications
- Type:
Theses/Dissertations
Status:
Submitted
Year Published:
2017
Citation:
Bansal, Mohit. 2017. Listeria monocytogenes response to sublethal sodium hypochlorite induced oxidative stress on its biofilm forming ability and antibiotic resistance. MS Thesis, Mississippi State University (submitted November 2017).
- Type:
Conference Papers and Presentations
Status:
Published
Year Published:
2017
Citation:
Bansal, M., Nannapaneni, R., Sharma, C. S. (July 10, 2017)."Changes in zones of inhibition and minimum inhibitory concentration of antibiotics in Listeria monocytogenes strains after exposure to chlorine induced sublethal oxidative stress." 2017 Annual Meeting of the International Association for Food Protection, International Association for Food Protection, Tampa, FL.
|
Progress 01/01/16 to 12/31/16
Outputs
Target Audience:Results of this work will be disseminated to USDA, FDA and academic scientists and food industry clients at the 2017 annual meetings of the International Poultry Science Forum or International Association for Food Protection, and Institute of Food Technologists. Changes/Problems:
Nothing Reported
What opportunities for training and professional development has the project provided?One graduate student is currently receiving extensive training in foodborne bacterial pathogen sublethal stress adaptation and food safety by undertaking the thesis project focusing in this area. How have the results been disseminated to communities of interest?
Nothing Reported
What do you plan to do during the next reporting period to accomplish the goals?Two journal articles of this work will be published in 2017 and will be disseminated to various food industry professionals and USDA, FDA and academic scientists working on foodborne bacterial sublethal stress adaptation and antibiotic resistance.
Impacts
What was accomplished under these goals?
The prevalence of antibiotic resistance in Listeria monocytogenes was estimated at 1.27% among clinical isolates but some studies have recently reported an increased rate of resistance to one or several clinically relevant antibiotics in environmental isolates. The objective of this study was to determine the influence of sublethal chlorine stress on the changes in homologous and heterologous stress adaptation in L. monocytogenes. In the first part of this study, we have determined whether the sublethal exposure of chlorine (sodium hypochlorite) can influence the homologous stress adaptation and biofilm formation ability of two L. monocytogenes strains, FSL F6-154 (serotype 1/2a) and Scott A (serotype 4b). L monocytogenes cells were exposed to increasing (20 ppm/day) sub-inhibitory concentrations of total chlorine from 250 ppm to 375 ppm in tryptic soy broth (TSB). Minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of L. monocytogenes cells exposed to chlorine and control (not-exposed to chlorine) were determined at 250 (1/2 MIC), 330 (2/3 MIC) and 375 (3/4 MIC) ppm of chlorine by macro-dilution method. The biofilm forming ability of chlorine treated and control cells were determined by crystal violet assay in 96-well microtiter at 37°C after 48 h. After exposure to all three sublethal chlorine treatments, there was an increase in MIC/MBC to 600-700 ppm of chlorine from the initial 500-600 ppm (non-exposed to chlorine) in both L. monocytogenes FSL F6-154 and ScottA strains indicating that L. monocytogenes planktonic cells can develop resistance to chlorine after exposure to sublethal chlorine concentrations. However, the chlorine induced oxidative stress significantly (p ? 0.05) reduced biofilm forming ability of both the strains on polystyrene surface as compared to control cells. Further, the anti-biofilm effect of chlorine was clearly observed at 330 (2/3 MIC) and 375 (3/4 MIC) ppm concentration for the oxidative stressed and non-stressed cells in the presence of chlorine for Scott A strain (p ? 0.05). Scanning electron microscopy revealed that the continuous exposure of chlorine induces morphological changes in bacterial morphology and biofilm structure of L. monocytogenes. The findings from the study indicate that continuous exposure of chlorine induces homologues stress adaptation and reduces biofilm forming ability of L. monocytogenes. In the second part of this study, we have determined whether the sublethal exposure to chlorine (sodium hypochlorite) can influence the heterologous stress adaptation or alter the antibiotic resistance in five L. monocytogenes strains including, FSL F6-154 (serotype 1/2a), FSL N1-227(serotype 4b), ATCC 19116 (serotype 4C), V7 (serotype ½ a) and Scott A (serotype 4b) by disc-diffusion assay as per CLSI method. L monocytogenes cells were exposed to increasing (20 ppm/day) sublethal concentrations of total chlorine from 250 ppm to 375 ppm in TSB at 37°C in 24-h cycles to obtain cells adapted to 250 (1/2 MIC), 330 (2/3 MIC) and 375 (3/4 MIC) of chlorine and control non-adapted cells. Ten antibiotics discs used for Kirby-Bauer disc-diffusion test were as follows: amoxicillin (20 ug) and clavulanic acid (10 μg), ampicillin (10 μg) ceftriaxone (30 μg), streptomycin (10 μg), nalidixic acid (30 μg), gentamicin (10 μg), sulphamethoxazole (1.25 μg) and trimethoprim (23.75 μg), ciprofloxacin (5 μg), rifampin (5 μg) and vancomycin (30 μg). Our current findings show that the disc-diffusion (zones of inhibition) test did not detect any changes in antibiotic resistance in all the five L. monocytogenes strains tested after any sublethal oxidative stress treatments induced by chlorine versus control non-stressed cells. In the third part of this study, we have determined if there were any changes in minimum inhibitory concentration (MIC) to four antibiotics in two L. monocytogenes strains (Scott A and V7) as per CLSI method after exposure to sublethal chlorine stress versus control not-stressed cells. L monocytogenes cells were exposed to increasing (20 ppm/day) sublethal concentrations of total chlorine from 250 ppm to 375 ppm in TSB at 37°C in 24-h cycles to obtain cells adapted to 250 (1/2 MIC), 330 (2/3 MIC) and 375 (3/4 MIC) of chlorine. Antibiotic stocks (10,000 X concentrations) were prepared in sterile distilled water and working stocks (4X concentrations) were prepared in Mueller Hinton broth. Our current results show that there were no changes in the minimum inhibitory concentration to gentamicin, streptomycin, tetracycline and ampicillin in two L. monocytogenes strain after sublethal oxidative stress treatments induced by chlorine versus control non-stressed cells. Further studies will determine if there are any differences in survival of L. monocytogenes cells in lethal concentrations of selected antibiotics by broth and agar-assay models after exposure to sublethal oxidative stress induced by chlorine compared to non-stressed cells.
Publications
- Type:
Conference Papers and Presentations
Status:
Submitted
Year Published:
2017
Citation:
Bansal M, Nannapaneni R, McDaniel C, and Sharma CS. 2017. Influence of chlorine induced sub-lethal oxidative stress on homologous stress adaptation and biofilm formation in Listeria monocytogenes. Submitted for presentation at the 2017 International Poultry Scientific Forum, January 31 to February 2, 2017, Atlanta, GA.
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