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1. Sequence-Based Identification of Metronidazole-Resistant Clostridioides difficile Isolates

Author

Smits, W.K., Harmanus, C., Sanders, I.M.J.G., Bry, L., Blackwell, G.A., Ducarmon, Q.R., Ferreira, E.D., and Kuijper, E.J.

Subjects
Microbiology (medical), Infectious Diseases, Clostridioides, Epidemiology, Clostridioides difficile, Metronidazole, Drug Resistance, Bacterial, Clostridium Infections, Humans, Microbial Sensitivity Tests, Ribotyping, Anti-Bacterial Agents
Abstract

The plasmid pCD-METRO confers metronidazole re-sistance in Clostridioides difficile. We showed high se-quence similarity among pCD-METRO plasmids from different isolates and identified pCD-METRO and as-sociated metronidazole-resistant isolates in clinical and veterinary reservoirs in the Americas. We recommend using PCR or genomic assays to detect pCD-METRO in metronidazole-resistant C. difficile.

Published
2022

4. The mechanisms of in vivo commensal control of Clostridioides difficile virulence

Author

Girinathan, BP, DiBenedetto, N, Worley, J, Peltier, J, Lavin, R, Delaney, ML, Cummins, C, Onderdonk, AB, Gerber, GK, Dupuy, B, Sonenshein, AL, and Bry, L

Abstract

We define multiple mechanisms by which commensals protect against or worsen Clostridioides difficile infection. Using a systems-level approach we show how two species of Clostridia with distinct metabolic capabilities modulate the pathogen’s virulence to impact host survival. Gnotobiotic mice colonized with the amino acid fermenter Clostridium bifermentans survived infection, while colonization with the butyrate-producer, Clostridium sardiniense, more rapidly succumbed. Systematic in vivo analyses revealed how each commensal altered the pathogen’s carbon source metabolism, cellular machinery, stress responses, and toxin production. Protective effects were replicated in infected conventional mice receiving C. bifermentans as an oral bacteriotherapeutic that prevented lethal infection. Leveraging a systematic and organism-level approach to host-commensal-pathogen interactions in vivo, we lay the groundwork for mechanistically-informed therapies to treat and prevent this disease.

Published
2020
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7. Silver-coated endotracheal tubes cleaned with a mechanism for secretion removal

Author

Pirrone, M, Imber, D, Marrazzo, F, Pinciroli, R, Zhang, C, Bry, L, Delaney, M, Dubois, A, Thomas, J, Nistico, L, Melton-Kreft, R, Bittner, E, Kacmarek, R, Berra, L, Pirrone, Massimiliano, Imber, David A. E., Marrazzo, Francesco, Pinciroli, Riccardo, Zhang, Changsheng, Bry, Lynn, Delaney, Mary L., Dubois, Andrea M., Thomas, John G., Nistico, Laura, Melton-Kreft, Rachael, Bittner, Edward A., Kacmarek, Robert M., Berra, Lorenzo, Pirrone, M, Imber, D, Marrazzo, F, Pinciroli, R, Zhang, C, Bry, L, Delaney, M, Dubois, A, Thomas, J, Nistico, L, Melton-Kreft, R, Bittner, E, Kacmarek, R, Berra, L, Pirrone, Massimiliano, Imber, David A. E., Marrazzo, Francesco, Pinciroli, Riccardo, Zhang, Changsheng, Bry, Lynn, Delaney, Mary L., Dubois, Andrea M., Thomas, John G., Nistico, Laura, Melton-Kreft, Rachael, Bittner, Edward A., Kacmarek, Robert M., and Berra, Lorenzo

Abstract

BACKGROUND: Biofilm on the surface of endotracheal tubes (ETTs) is associated with ventilator-associated pneumonia. The use of silver-coated ETTs has been suggested to reduce the occurrence of ventilator-associated pneumonia by preventing biofilm formation. However, mucus accumulation can reduce the antibacterial activity of silver-coated ETTs by isolating bacterial colonies from the silver surface. We hypothesized that, in mechanically ventilated subjects, periodic removal of secretions through the use of a cleaning device would enhance the antimicrobial properties of silver-coated ETTs and thus reduce bacterial colonization. METHODS: Subjects were randomized to either standard suctioning (blind tracheal suctioning, control group) or blind tracheal suctioning plus cleaning maneuver every 8 h (treatment group). Tracheal aspirates were collected immediately before extubation for microbiological culture. After extubation, ETTs were collected for both cultural and non-cultural microbiological analysis and biofilm isolation. RESULTS: 39 subjects expected to be ventilated for > 48 h were enrolled; 36 ETTs (18 control, 18 treatment) and 29 tracheal samples (15 control, 14 treatment) were collected. Among the ETTs positive for bacterial colonization (15 vs 9, P =.18), cleaning maneuvers did not reduce microbial load, shown as the decimal logarithm of colony-forming units (CFU) per mL (1.6 ± 1.2 vs 0.9 ± 1.2 logCFU/mL, P =.15). There was a trend toward decreased biofilm deposition (439.5 ± 29.0 vs 288.9 ± 157.7 mg, P =.09) in the treated ETTs. No significant differences were observed in the number of positive tracheal aspirates (13 vs 10, P =.39) or in the microbial load (4.8 ± 4.0 vs 4.2 ± 3.8 logCFU/mL, P =.70) of tracheal secretions. Finally, no differences in the microbial load of Gram-positive organisms, Gram-negative organisms, or yeasts were found between the ETTs and tracheal aspirates of the 2 groups. CONCLUSIONS: In 39 critically-ill subjects intubated with silver

Published
2019

10. Recurrent Clostridium difficile infection associates with distinct bile acid and microbiome profiles

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Kearney, Sean M, Alm, Eric J, Allegretti, J. R., Li, N., Bogart, E., Bullock, K., Gerber, G. K., Bry, L., Clish, C. B., Korzenik, J. R., Massachusetts Institute of Technology. Department of Biological Engineering, Kearney, Sean M, Alm, Eric J, Allegretti, J. R., Li, N., Bogart, E., Bullock, K., Gerber, G. K., Bry, L., Clish, C. B., and Korzenik, J. R.

Abstract

Background: The healthy microbiome protects against the development of Clostridium difficile infection (CDI), which typically develops following antibiotics. The microbiome metabolises primary to secondary bile acids, a process if disrupted by antibiotics, may be critical for the initiation of CDI. Aim: To assess the levels of primary and secondary bile acids associated with CDI and associated microbial changes. Methods: Stool and serum were collected from patients with (i) first CDI (fCDI), (ii) recurrent CDI (rCDI) and (iii) healthy controls. 16S rRNA sequencing and bile salt metabolomics were performed. Random forest regression models were constructed to predict disease status. PICRUSt analyses were used to test for associations between predicted bacterial bile salt hydrolase (BSH) gene abundances and bile acid levels. Results: Sixty patients (20 fCDI, 19 rCDI and 21 controls) were enrolled. Secondary bile acids in stool were significantly elevated in controls compared to rCDI and fCDI (P < 0.0001 and P = 0.0007 respectively). Primary bile acids in stool were significantly elevated in rCDI compared to controls (P < 0.0001) and in rCDI compared to fCDI (P = 0.02). Using random forest regression, we distinguished rCDI and fCDI patients 84.2% of the time using bile acid ratios. Stool deoxycholate to glycoursodeoxycholate ratio was the single best predictor. PICRUSt analyses found significant differences in predicted abundances of bacterial BSH genes in stool samples across the groups. Conclusions: Primary and secondary bile acid composition in stool was different in those with rCDI, fCDI and controls. The ratio of stool deoxycholate to glycoursodeoxycholate was the single best predictor of disease state and may be a potential biomarker for recurrence., American College of Gastroenterology (Clinical Research Award ACGJR-017-2015)

Published
2017

11. Endotracheal tubes cleaned with a novel mechanism for secretion removal: A randomized controlled clinical study

Author

Pinciroli, R, Mietto, C, Piriyapatsom, A, Chenelle, C, Thomas, J, Pirrone, M, Bry, L, Wojtkiewicz, G, Nahrendorf, M, Kacmarek, R, Berra, L, PINCIROLI, RICCARDO, BERRA, LORENZO, Pinciroli, R, Mietto, C, Piriyapatsom, A, Chenelle, C, Thomas, J, Pirrone, M, Bry, L, Wojtkiewicz, G, Nahrendorf, M, Kacmarek, R, Berra, L, PINCIROLI, RICCARDO, and BERRA, LORENZO

Abstract

INTRODUCTION: Intubation compromises mucus clearance, allowing secretions to accumulate inside the endotracheal tube (ETT). The purpose of this trial was to evaluate a novel device for ETT cleaning. We hypothesized that its routine use would reduce tube occlusion due to mucus accumulation, while decreasing airway bacterial colonization. METHODS: Subjects were randomized to either the use of the device every 8 h, or the institutional standard of care (blind tracheal suction) only. ETTs were collected at extubation and analyzed with high-resolution computed tomography (HRCT) for quantification of mucus volume. Microbiological testing was performed on biofilm samples. Vital signs and ventilatory settings were collected at the bedside. In-hospital follow-up was conducted, and a final evaluation survey was completed by respiratory therapists. RESULTS: Seventy-four subjects expected to remain intubated for longer than 48 h were enrolled (77 ETTs, 37 treatment vs 40 controls). Treated tubes showed reduced mucus accumulation (0.56 ± 0.12 vs 0.71 ± 0.28 mL; P = .004) and reduced occlusion (6.3 ± 1.7 vs 8.9 ± 7.6%; P = .039). The HRCT slice showing the narrowest lumen within each ETT exhibited less occlusion in cleaned tubes (10.6 ± 8.0 vs 17.7 ± 13.4%, 95% CI: 2–12.1; P = .007). Data on microbial colonization showed a trend in the treatment group toward a reduced ETT-based biomass of bacteria known to cause ventilator-associated pneumonia. No adverse events were reported. The staff was satisfied by the overall safety and feasibility of the device. CONCLUSION: The endOclear is a safe and effective device. It prevents luminal occlusion, thereby better preserving ETT nominal function.

Published
2016

13. Tracheal tube obstruction in mechanically ventilated patients assessed by high-resolution computed tomography

Author

Mietto, C, Pinciroli, R, Piriyapatsom, A, Thomas, J, Bry, L, Delaney, M, Du Bois, A, Truelove, J, Ackman, J, Wojtkiewicz, G, Nahrendorf, M, Kacmarek, R, Berra, L, Thomas, JG, Delaney, ML, Ackman, JB, Wojtkiewicz, GR, Nahrendorf M, Kacmarek, RM, PINCIROLI, RICCARDO, BERRA, LORENZO, Mietto, C, Pinciroli, R, Piriyapatsom, A, Thomas, J, Bry, L, Delaney, M, Du Bois, A, Truelove, J, Ackman, J, Wojtkiewicz, G, Nahrendorf, M, Kacmarek, R, Berra, L, Thomas, JG, Delaney, ML, Ackman, JB, Wojtkiewicz, GR, Nahrendorf M, Kacmarek, RM, PINCIROLI, RICCARDO, and BERRA, LORENZO

Abstract

Background:: Tracheal intubation compromises mucus clearance and secretions accumulate inside the tracheal tube (TT). The aim of this study was to evaluate with a novel methodology TT luminal obstruction in critically ill patients. Methods:: This was a three-phase study: (1) the authors collected 20 TTs at extubation. High-resolution computed tomography (CT) was performed to determine cross-sectional area (CSA) and mucus distribution within the TT; (2) five TTs partially filled with silicone were used to correlate high-resolution CT results and increased airflow resistance; and (3) 20 chest CT scans of intubated patients were reviewed for detection of secretions in ventilated patients’ TT. Results:: Postextubation TTs showed a maximum CSA reduction of (mean ± SD) 24.9 ± 3.9% (range 3.3 to 71.2%) after a median intubation of 4.5 (interquartile range 2.5 to 6.5) days. CSA progressively decreased from oral to lung end of used TTs. The luminal volume of air was different between used and new TTs for all internal diameters (P < 0.01 for new vs. used TTs for all studied internal diameters). The relationship between pressure drop and increasing airflow rates was nonlinear and depended on minimum CSA available to ventilation. Weak correlation was found between TT occlusion and days of intubation (R2 = 0.352, P = 0.006). With standard clinical chest CT scans, 6 of 20 TTs showed measurable secretions with a CSA reduction of 24.0 ± 3.9%. Conclusions:: TT luminal narrowing is a common finding and correlates with increased airflow resistance. The authors propose high-resolution CT as a novel technique to visualize and quantify secretions collected within the TT lumen.

Published
2014

14. Dynamics of the Microbiota in Response to Host Infection

Author

Belzer, C., Gerber, G.K., Roeselers, G., Delaney, M., DuBois, A., Liu, Q., Belavusava, V., Yeliseyev, V., Houseman, A., Onderdonk, A., Cavanaugh, C., Bry, L., Belzer, C., Gerber, G.K., Roeselers, G., Delaney, M., DuBois, A., Liu, Q., Belavusava, V., Yeliseyev, V., Houseman, A., Onderdonk, A., Cavanaugh, C., and Bry, L.

Abstract

Longitudinal studies of the microbiota are important for discovering changes in microbial communities that affect the host. The complexity of these ecosystems requires rigorous integrated experimental and computational methods to identify temporal signatures that promote physiologic or pathophysiologic responses in vivo. Employing a murine model of infectious colitis with the pathogen Citrobacter rodentium, we generated a 2-month time-series of 16S rDNA gene profiles, and quantitatively cultured commensals, from multiple intestinal sites in infected and uninfected mice. We developed a computational framework to discover time-varying signatures for individual taxa, and to automatically group signatures to identify microbial sub-communities within the larger gut ecosystem that demonstrate common behaviors. Application of this model to the 16S rDNA dataset revealed dynamic alterations in the microbiota at multiple levels of resolution, from effects on systems-level metrics to changes across anatomic sites for individual taxa and species. These analyses revealed unique, time-dependent microbial signatures associated with host responses at different stages of colitis. Signatures included a Mucispirillum OTU associated with early disruption of the colonic surface mucus layer, prior to the onset of symptomatic colitis, and members of the Clostridiales and Lactobacillales that increased with successful resolution of inflammation, after clearance of the pathogen. Quantitative culture data validated findings for predominant species, further refining and strengthening model predictions. These findings provide new insights into the complex behaviors found within host ecosystems, and define several time-dependent microbial signatures that may be leveraged in studies of other infectious or inflammatory conditions.

Published
2014

16. Maternal intestinal flora and wheeze in early childhood

Author

Lange, N. E., primary, Celedón, J. C., additional, Forno, E., additional, Ly, N. P., additional, Onderdonk, A., additional, Bry, L., additional, Delaney, M. L., additional, DuBois, A. M., additional, Gold, D. R., additional, Weiss, S. T., additional, and Litonjua, A. A., additional

Published
2011
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23. Maternal intestinal flora and wheeze in early childhood.

Author

Lange, N. E., Celedón, J. C., Forno, E., Ly, N. P., Onderdonk, A., Bry, L., Delaney, M. L., DuBois, A. M., Gold, D. R., Weiss, S. T., and Litonjua, A. A.

Subjects
WHEEZE, ECZEMA, ASTHMA, INFANTS, PREGNANCY complications, ENTEROCOCCUS, IMMUNE system, MULTIVARIATE analysis
Abstract

Background Increasing evidence links altered intestinal flora in infancy to eczema and asthma. No studies have investigated the influence of maternal intestinal flora on wheezing and eczema in early childhood. Objective To investigate the link between maternal intestinal flora during pregnancy and development of wheeze and eczema in infancy. Methods A total of 60 pregnant women from the Boston area gave stool samples during the third trimester of their pregnancy and answered questions during pregnancy about their own health, and about their children's health when the child was 2 and 6 months of age. Quantitative culture was performed on stool samples and measured in log10colony-forming units (CFU)/gram stool. Primary outcomes included infant wheeze and eczema in the first 6 months of life. Atopic wheeze, defined as wheeze and eczema, was analysed as a secondary outcome. Results In multivariate models adjusted for breastfeeding, day care attendance and maternal atopy, higher counts of maternal total aerobes (TA) and enterococci (E) were associated with increased risk of infant wheeze (TA: OR 2.32 for 1 log increase in CFU/g stool [95% CI 1.22, 4.42]; E: OR 1.57 [95% CI 1.06, 2.31]). No organisms were associated with either eczema or atopic wheeze. Conclusions and Clinical Relevance In our cohort, higher maternal total aerobes and enterococci were related to increased risk of infant wheeze. Maternal intestinal flora may be an important environmental exposure in early immune system development. [ABSTRACT FROM AUTHOR]

Published
2012
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24. Session I: Posters

Author

Abraham, B., Klaushofer, H., Baumann, U., Bisping, B., Rehm, H. J., Bolenz, S., Omran, H., Gierschner, K., Ziegelitz, R., Bors, H. -M., Calafell, M., Bras, M., Duarte, J. C., Chiarini, L., Mara, L., De Bry, L. M., Guerzoni, M. E., Marchetti, R., Barletta, N., Hecker, D., Bisping, B., Rehm, H. J., Honecker, Siegfried, Bisping, Bernward, Rehm, Hans-Jurgen, Horbach, U., Hartmeier, W., Iqbal, M., Stepan-Sarkissian, G., Grey, D., Fowler, M. W., Kleppe, Frank, Lang, Siegmund, Wagner, Fritz, Morin, A., Monsan, P. F., Park, K. H., Chang, P. S., Chung, S. H., Popov, S., Vatal, Gy., Skrinjar, M., Gacesa, S., van Eck, J. H., Prior, B. A., Brandt, E. V., Moraes, M. C. S., Scamparini, A. R. P., Schiweck, H., Schwaiger, I., Klaushofer, H., Willershausen, H., Graf, H., Zhang, X., and Hammes, W. P.

Published
1990
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26. Silver-coated endotracheal tubes cleaned with a mechanism for secretion removal

Author

Lynn Bry, Andrea M. DuBois, Rachael Melton-Kreft, Riccardo Pinciroli, Edward A. Bittner, Robert M. Kacmarek, Massimiliano Pirrone, Laura Nistico, David A. Imber, John G. Thomas, Lorenzo Berra, Francesco Marrazzo, Changsheng Zhang, Mary L. Delaney, Pirrone, M, Imber, D, Marrazzo, F, Pinciroli, R, Zhang, C, Bry, L, Delaney, M, Dubois, A, Thomas, J, Nistico, L, Melton-Kreft, R, Bittner, E, Kacmarek, R, and Berra, L

Subjects
Male, Pulmonary and Respiratory Medicine, Microbiological culture, Silver, medicine.medical_treatment, Airway management, Suction, Critical Care and Intensive Care Medicine, 03 medical and health sciences, 0302 clinical medicine, Bacterial colonization, medicine, Intubation, Intratracheal, Intubation, Humans, Ventilator-associated pneumonia, Aged, business.industry, Biofilm, Pneumonia, Ventilator-Associated, General Medicine, Pneumonia, Middle Aged, medicine.disease, Mucus, Respiration, Artificial, Ventilation, Trachea, medicine.anatomical_structure, 030228 respiratory system, Anesthesia, Biofilms, Equipment Contamination, Female, Airway obstruction, business, Respiratory tract
Abstract

BACKGROUND: Biofilm on the surface of endotracheal tubes (ETTs) is associated with ventilator-associated pneumonia. The use of silver-coated ETTs has been suggested to reduce the occurrence of ventilator-associated pneumonia by preventing biofilm formation. However, mucus accumulation can reduce the antibacterial activity of silver-coated ETTs by isolating bacterial colonies from the silver surface. We hypothesized that, in mechanically ventilated subjects, periodic removal of secretions through the use of a cleaning device would enhance the antimicrobial properties of silver-coated ETTs and thus reduce bacterial colonization. METHODS: Subjects were randomized to either standard suctioning (blind tracheal suctioning, control group) or blind tracheal suctioning plus cleaning maneuver every 8 h (treatment group). Tracheal aspirates were collected immediately before extubation for microbiological culture. After extubation, ETTs were collected for both cultural and non-cultural microbiological analysis and biofilm isolation. RESULTS: 39 subjects expected to be ventilated for > 48 h were enrolled; 36 ETTs (18 control, 18 treatment) and 29 tracheal samples (15 control, 14 treatment) were collected. Among the ETTs positive for bacterial colonization (15 vs 9, P =.18), cleaning maneuvers did not reduce microbial load, shown as the decimal logarithm of colony-forming units (CFU) per mL (1.6 ± 1.2 vs 0.9 ± 1.2 logCFU/mL, P =.15). There was a trend toward decreased biofilm deposition (439.5 ± 29.0 vs 288.9 ± 157.7 mg, P =.09) in the treated ETTs. No significant differences were observed in the number of positive tracheal aspirates (13 vs 10, P =.39) or in the microbial load (4.8 ± 4.0 vs 4.2 ± 3.8 logCFU/mL, P =.70) of tracheal secretions. Finally, no differences in the microbial load of Gram-positive organisms, Gram-negative organisms, or yeasts were found between the ETTs and tracheal aspirates of the 2 groups. CONCLUSIONS: In 39 critically-ill subjects intubated with silver-coated ETTs, periodic cleaning maneuvers did not decrease bacterial colonization of the ETTs and did not lower respiratory tract colonization compared to the standard suctioning. (Clinicaltrials.gov reg-istration NCT02120001.)

Published
2019

27. Endotracheal Tubes Cleaned With a Novel Mechanism for Secretion Removal: A Randomized Controlled Clinical Study

Author

Gregory R. Wojtkiewicz, Christopher T Chenelle, Robert M. Kacmarek, Matthias Nahrendorf, John G. Thomas, Riccardo Pinciroli, Cristina Mietto, Lynn Bry, Massimiliano Pirrone, Lorenzo Berra, Annop Piriyapatsom, Pinciroli, R, Mietto, C, Piriyapatsom, A, Chenelle, C, Thomas, J, Pirrone, M, Bry, L, Wojtkiewicz, G, Nahrendorf, M, Kacmarek, R, and Berra, L

Subjects
Pulmonary and Respiratory Medicine, Male, medicine.medical_specialty, medicine.medical_treatment, Lumen (anatomy), Suction, Critical Care and Intensive Care Medicine, VAP (Ventilator-associated pneumonia), 03 medical and health sciences, 0302 clinical medicine, Occlusion, Intubation, Intratracheal, Medicine, Intubation, Humans, Respiratory system, Aged, Equipment Safety, business.industry, Biofilm, Pneumonia, Ventilator-Associated, 030208 emergency & critical care medicine, General Medicine, Airway obstruction, Middle Aged, medicine.disease, Mucus, Ventilation, Surgery, 030228 respiratory system, Biofilms, Breathing, Equipment Contamination, Female, Airway, business, Follow-Up Studies
Abstract

INTRODUCTION: Intubation compromises mucus clearance, allowing secretions to accumulate inside the endotracheal tube (ETT). The purpose of this trial was to evaluate a novel device for ETT cleaning. We hypothesized that its routine use would reduce tube occlusion due to mucus accumulation, while decreasing airway bacterial colonization. METHODS: Subjects were randomized to either the use of the device every 8 h, or the institutional standard of care (blind tracheal suction) only. ETTs were collected at extubation and analyzed with high-resolution computed tomography (HRCT) for quantification of mucus volume. Microbiological testing was performed on biofilm samples. Vital signs and ventilatory settings were collected at the bedside. In-hospital follow-up was conducted, and a final evaluation survey was completed by respiratory therapists. RESULTS: Seventy-four subjects expected to remain intubated for longer than 48 h were enrolled (77 ETTs, 37 treatment vs 40 controls). Treated tubes showed reduced mucus accumulation (0.56 ± 0.12 vs 0.71 ± 0.28 mL; P = .004) and reduced occlusion (6.3 ± 1.7 vs 8.9 ± 7.6%; P = .039). The HRCT slice showing the narrowest lumen within each ETT exhibited less occlusion in cleaned tubes (10.6 ± 8.0 vs 17.7 ± 13.4%, 95% CI: 2–12.1; P = .007). Data on microbial colonization showed a trend in the treatment group toward a reduced ETT-based biomass of bacteria known to cause ventilator-associated pneumonia. No adverse events were reported. The staff was satisfied by the overall safety and feasibility of the device. CONCLUSION: The endOclear is a safe and effective device. It prevents luminal occlusion, thereby better preserving ETT nominal function.

Published
2016

28. Tracheal tube obstruction in mechanically ventilated patients assessed by high-resolution computed tomography

Author

Matthias Nahrendorf, John G. Thomas, Mary L. Delaney, Robert M. Kacmarek, Cristina Mietto, Jessica Truelove, Jeanne B. Ackman, Lynn Bry, Gregory R. Wojtkiewicz, Andrea Du Bois, Lorenzo Berra, Annop Piriyapatsom, Riccardo Pinciroli, Mietto, C, Pinciroli, R, Piriyapatsom, A, Thomas, J, Bry, L, Delaney, M, Du Bois, A, Truelove, J, Ackman, J, Wojtkiewicz, G, Nahrendorf, M, Kacmarek, R, and Berra, L

Subjects
Models, Anatomic, High-resolution computed tomography, medicine.medical_specialty, medicine.medical_treatment, Critical Illness, Lumen (anatomy), Tracheal tube, intubation, biofilm, Airway resistance, medicine, Intubation, Intratracheal, Intubation, Humans, VAP (ventialtor-associated pneumonia), airway obstruction, Mechanical ventilation, Air Pressure, medicine.diagnostic_test, Anatomy, Cross-Sectional, business.industry, ventilation, Airway Resistance, Tracheal intubation, Airway obstruction, medicine.disease, Respiration, Artificial, Trachea, Anesthesiology and Pain Medicine, Airway Extubation, Equipment Contamination, Equipment Failure, Radiology, Nuclear medicine, business, Tomography, X-Ray Computed
Abstract

Background: Tracheal intubation compromises mucus clearance and secretions accumulate inside the tracheal tube (TT). The aim of this study was to evaluate with a novel methodology TT luminal obstruction in critically ill patients. Methods: This was a three-phase study: (1) the authors collected 20 TTs at extubation. High-resolution computed tomography (CT) was performed to determine cross-sectional area (CSA) and mucus distribution within the TT; (2) five TTs partially filled with silicone were used to correlate high-resolution CT results and increased airflow resistance; and (3) 20 chest CT scans of intubated patients were reviewed for detection of secretions in ventilated patients’ TT. Results: Postextubation TTs showed a maximum CSA reduction of (mean ± SD) 24.9 ± 3.9% (range 3.3 to 71.2%) after a median intubation of 4.5 (interquartile range 2.5 to 6.5) days. CSA progressively decreased from oral to lung end of used TTs. The luminal volume of air was different between used and new TTs for all internal diameters (P < 0.01 for new vs. used TTs for all studied internal diameters). The relationship between pressure drop and increasing airflow rates was nonlinear and depended on minimum CSA available to ventilation. Weak correlation was found between TT occlusion and days of intubation (R2 = 0.352, P = 0.006). With standard clinical chest CT scans, 6 of 20 TTs showed measurable secretions with a CSA reduction of 24.0 ± 3.9%. Conclusions: TT luminal narrowing is a common finding and correlates with increased airflow resistance. The authors propose high-resolution CT as a novel technique to visualize and quantify secretions collected within the TT lumen.

Published
2014

29. Longitudinal Microbiome Changes in Children Exposed to Proton Pump Inhibitors.

Author

Zhang YJ, Connearney S, Hester L, Du M, Catacora A, Akkara A, Wen A, Bry L, Alm EJ, and Rosen R

Subjects
Humans, Male, Female, Child, Prospective Studies, Adolescent, Longitudinal Studies, Child, Preschool, Gastrointestinal Microbiome drug effects, RNA, Ribosomal, 16S genetics, Microbiota drug effects, Bacteria isolation & purification, Bacteria drug effects, Bacteria genetics, Proton Pump Inhibitors adverse effects, Proton Pump Inhibitors administration & dosage, Oropharynx microbiology, Feces microbiology
Abstract

Introduction: Proton pump inhibitor (PPI) use has been associated with an increased risk of gastrointestinal and upper respiratory infections in children. There are limited longitudinal data on the effect of PPI in children. The goal of this prospective observational study was to compare the stool and oropharyngeal microbiome of children before and after starting PPIs., Methods: We prospectively recruited participants from a gastroenterology clinic. Consented participants provided stool samples and oropharyngeal swabs at baseline and after 8 weeks of PPI therapy. Microbiome changes were measured by analyzing 16S sequencing from both body sites at both time points., Results: Thirty-four participants completed the study and provided samples both at baseline and after 8 weeks on PPI therapy. Of those, 24 participants had sufficient sequencing from both stool and oropharyngeal samples at both time points. There were no differences between the pre-PPI and post-PPI samples using beta-diversity metrics in either the oropharynx or stool. There were, however, significant changes in specific taxa. There was an enrichment of Streptococcus in the stool after PPI use and a reduction in the relative abundance of Bifidobacterium , Peptostreptococcus , and Turicibacter ( P -values < 0.01). Furthermore, there was an increase in the relative abundance of oropharyngeal bacteria in the stool after PPI therapy. This enrichment of oropharyngeal bacteria in the stool was most prominent in younger participants., Discussion: Further investigation is needed to determine the clinical and microbial factors that predispose or protect against microbiome changes due to PPI use and why young children are more susceptible to this PPI effect., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of The American College of Gastroenterology.)

Published
2024
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30. Beneficial metabolic effects of PAHSAs depend on the gut microbiota in diet-induced obese mice but not in chow-fed mice.

Author

Lee J, Wellenstein K, Rahnavard A, Nelson AT, Holter MM, Cummings BP, Yeliseyev V, Castoldi A, Clish CB, Bry L, Siegel D, and Kahn BB

Subjects
Animals, Male, Female, Mice, Mice, Inbred C57BL, Stearic Acids metabolism, Palmitic Acid metabolism, Feces microbiology, Mice, Obese, Gastrointestinal Microbiome drug effects, Obesity metabolism, Obesity microbiology, Obesity etiology, Diet, High-Fat adverse effects, Insulin Resistance
Abstract

Dietary lipids play an essential role in regulating the function of the gut microbiota and gastrointestinal tract, and these luminal interactions contribute to mediating host metabolism. Palmitic Acid Hydroxy Stearic Acids (PAHSAs) are a family of lipids with antidiabetic and anti-inflammatory properties, but whether the gut microbiota contributes to their beneficial effects on host metabolism is unknown. Here, we report that treating chow-fed female and male germ-free (GF) mice with PAHSAs improves glucose tolerance, but these effects are lost upon high fat diet (HFD) feeding. However, transfer of feces from PAHSA-treated, but not vehicle-treated, chow-fed conventional mice increases insulin sensitivity in HFD-fed GF mice. Thus, the gut microbiota is necessary for, and can transmit, the insulin-sensitizing effects of PAHSAs in HFD-fed GF male mice. Analyses of the cecal metagenome and lipidome of PAHSA-treated mice identified multiple lipid species that associate with the gut commensal Bacteroides thetaiotaomicron ( Bt ) and with insulin sensitivity resulting from PAHSA treatment. Supplementing live, and to some degree, heat-killed Bt to HFD-fed female mice prevented weight gain, reduced adiposity, improved glucose tolerance, fortified the colonic mucus barrier and reduced systemic inflammation compared to HFD-fed controls. These effects were not observed in HFD-fed male mice. Furthermore, ovariectomy partially reversed the beneficial Bt effects on host metabolism, indicating a role for sex hormones in mediating the Bt probiotic effects. Altogether, these studies highlight the fact that PAHSAs can modulate the gut microbiota and that the microbiota is necessary for the beneficial metabolic effects of PAHSAs in HFD-fed mice., Competing Interests: Competing interests statement:B.B.K. is an inventor on the following patents: “Lipids That Increase Insulin Sensitivity and Methods of Using the Same.” Patent No. 10,604,473 and “Fatty Acid Esters of Hydroxy Fatty Acids (FAHFAs) for use in the treatment of Type 1 Diabetes.” Patent No. 11,013,711.

Published
2024
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32. Approaching toxigenic Clostridia from a One Health perspective.

Author

Cersosimo LM, Worley JN, and Bry L

Subjects
Humans, Animals, Clostridium genetics, Clostridium isolation & purification, Clostridium classification, Disease Outbreaks prevention & control, Genomics methods, Bacterial Toxins genetics, One Health, Clostridium Infections microbiology, Clostridium Infections epidemiology
Abstract

Spore-forming pathogens have a unique capacity to thrive in diverse environments, and with temporal persistence afforded through their ability to sporulate. Their prevalence in diverse ecosystems requires a One Health approach to identify critical reservoirs and outbreak-associated transmission chains, given their capacity to freely move across soils, waterways, foodstuffs and as commensals or infecting pathogens in human and animal populations. Among anaerobic spore-formers, genomic resources for pathogens including C. botulinum, C. difficile, and C. perfringens enable our capacity to identify common and unique factors that support their persistence in diverse reservoirs and capacity to cause disease. Publicly available genomic resources for spore-forming pathogens at NCBI's Pathogen Detection program aid outbreak investigations and longitudinal monitoring in national and international programs in public health and food safety, as well as for local healthcare systems. These tools also enable research to derive new knowledge regarding disease pathogenesis, and to inform strategies in disease prevention and treatment. As global community resources, the continued sharing of strain genomic data and phenotypes further enhances international resources and means to develop impactful applications. We present examples showing use of these resources in surveillance, including capacity to assess linkages among clinical, environmental, and foodborne reservoirs and to further research investigations into factors promoting their persistence and virulence in different settings., Competing Interests: Declaration of competing interest The authors declare no competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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33. Evidence that minocycline treatment confounds the interpretation of neurofilament as a biomarker.

Author

Gentile JE, Heiss C, Corridon TL, Mortberg MA, Fruhwürth S, Guzman K, Grötschel L, Chan K, Herring NC, Janicki T, Nhass R, Sarathy JM, Erickson B, Kunz R, Erickson A, Braun C, Henry KT, Bry L, Arnold SE, Minikel EV, Zetterberg H, and Vallabh SM

Abstract

Neurofilament light (NfL) concentration in cerebrospinal fluid (CSF) and blood serves as an important biomarker in neurology drug development. Changes in NfL are generally assumed to reflect changes in neuronal damage, while little is known about the clearance of NfL from biofluids. We observed an NfL increase of 3.5-fold in plasma and 5.7-fold in CSF in an asymptomatic individual at risk for genetic prion disease following 6 weeks' treatment with oral minocycline for a dermatologic indication. Other biomarkers remained normal, and proteomic analysis of CSF revealed that the spike was exquisitely specific to neurofilaments. NfL dropped nearly to normal levels 5 weeks after minocycline cessation, and the individual remained free of disease 2 years later. Plasma NfL in dermatology patients was not elevated above normal controls. Dramatically high plasma NfL (>500 pg/mL) was variably observed in some hospitalized individuals receiving minocycline. In mice, treatment with minocycline resulted in variable increases of 1.3- to 4.0-fold in plasma NfL, with complete washout 2 weeks after cessation. In neuron-microglia co-cultures, minocycline increased NfL concentration in conditioned media by 3.0-fold without any visually obvious impact on neuronal health. We hypothesize that minocycline does not cause or exacerbate neuronal damage, but instead impacts the clearance of NfL from biofluids, a potential confounder for interpretation of this biomarker.

Published
2024
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34. Microbial butyrate capacity is reduced in inflamed mucosa in patients with ulcerative colitis.

Author

Jangi S, Moyer J, Sandlow S, Fu M, Chen H, Shum A, Hsia K, Cersosimo L, Yeliseyev V, Zhao N, Bry L, and Michaud DS

Subjects
Humans, Butyrates, Colon pathology, Biopsy, Intestinal Mucosa pathology, Bacteria genetics, Colitis, Ulcerative pathology
Abstract

Reduced butyrate-production capacity has been reported in fecal microbial communities in patients with active ulcerative colitis. However, the butyrate-production capacity of the mucosal microbiome from active vs quiescent mucosa in ulcerative colitis has been unexplored. We sought to determine the diversity and relative abundance of mucosal bacterial and fungal communities from endoscopically active vs quiescent mucosa in patients with UC, and aimed to predict contributions of mucosal microbial communities to butyrate synthesis. Systematic, segmental right- and left-sided biopsies were obtained from endoscopically active (n = 13) or quiescent (n = 17) colonic mucosa, among 15 patients with pan-colonic ulcerative colitis. Dietary fiber intake of patients was performed using the validated five-item FiberScreen questionnaire. Amplicon sequencing of mucosal bacteria and fungi was performed. The diversity and relative abundance of mucosal bacterial and fungal taxa were quantified, and predicted contributions to butyrate synthesis were ascertained. Bacterial alpha and beta diversity were similar between active vs quiescent mucosa. Butyrogenic taxa were significantly increased in quiescence, including Butyricimonas, Subdoligranulum, and Alistipes. Predicted butyrate kinase activity was significantly and concomitantly increased in quiescent mucosa. Fiber intake was positively correlated with butyrogenic microbes. Compared to mucosal bacterial prevalence, mucosal fungi were detected in low prevalence. Butyrogenic microbes are relatively increased in quiescent mucosa in ulcerative colitis, and may be related to increased fiber intake during quiescence. Manipulation of the mucosal microbiome towards butyrate-producing bacteria may be associated with endoscopic quiescence., (© 2024. The Author(s).)

Published
2024
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35. Approaching pathogenic Clostridia from a One Health perspective.

Author

Cersosimo LM, Worley JN, and Bry L

Abstract

Spore-forming pathogens have a unique capacity to thrive in diverse environments, and with temporal persistence afforded through their ability to sporulate. These behaviors require a One Health approach to identify critical reservoirs and outbreak-associated transmission chains, given their capacity to freely move across soils, waterways, foodstuffs, and as commensals or infecting pathogens in human and veterinary populations. Among anaerobic spore-formers, genomic resources for pathogens including C. botulinum, C. difficile , and C. perfringens enable our capacity to identify common and unique factors that support their persistence in diverse reservoirs and capacity to cause disease. Publicly available genomic resources for spore-forming pathogens at NCBI's Pathogen Detection program aid outbreak investigations and longitudinal monitoring in national and international programs in public health and food safety, as well as for local healthcare systems. These tools also enable research to derive new knowledge regarding disease pathogenesis, and to inform strategies in disease prevention and treatment. As global community resources, the continued sharing of strain genomic data and phenotypes further enhances international resources and means to develop impactful applications. We present examples showing use of these resources in surveillance, including capacity to assess linkages among clinical, environmental, and foodborne reservoirs and to further research investigations into factors promoting their persistence and virulence in different settings.

Published
2024
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36. Impact of microbiota and host immunologic response on the efficacy of anticholinergic treatment for urgency urinary incontinence.

Author

Gabriel I, Delaney ML, Au M, Courtepatte A, Bry L, and Minassian VA

Subjects
Female, Humans, Cytokines therapeutic use, Pilot Projects, Prospective Studies, RNA, Ribosomal, 16S genetics, Treatment Outcome, Cholinergic Antagonists therapeutic use, Microbiota genetics, Urinary Incontinence drug therapy, Urinary Incontinence microbiology, Urinary Incontinence, Urge drug therapy, Urinary Incontinence, Urge microbiology
Abstract

Introduction and Hypothesis: Studies within the past decade have suggested associations among composition of the urinary microbiota, local immune responses, and urinary incontinence symptoms. To investigate these relationships, we evaluated the structure of the urinary microbiome, local inflammatory markers, and patient responses prior to and at 6-weeks after treatment with anticholinergic medication for urgency urinary incontinence (UUI)., Methods: Using a prospective pilot study, we enrolled women who presented with UUI symptoms and were prescribed treatment with anticholinergics. Catheterized urine samples were collected from participants at their baseline and 6-week follow-up visits for microbiological (standard and 16S rRNA gene phylotyping analyses) and cytokine analysis along with the UDI-6 questionnaire and 2-day bladder diary., Results: Patients were Caucasian, post- menopausal, with a median age of 64 and median BMI of 30.1 kg/m 2 . Among the patients, 75% had UUI symptoms for less than 2 years, but with a frequency of at least a few times a week or every day. Most women were prescribed 10 mg oxybutynin ER daily at enrollment. Patients had varied urinary microbiota by culture and 16S phylotyping, with species of Lactobacillus being the most common, in six samples, in addition to taxa associated with Enterococcus, Staphylococcus, and mixed flora. Cytokine levels showed no differences before and after treatment with anticholinergics, nor correlation with urinary bacteria or microbiome composition., Conclusions: Our pilot study suggests factors in addition to the urinary microbiome and local immune responses may be involved in patients' response to anticholinergics for UUI., (© 2023. The International Urogynecological Association.)

Published
2023
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37. Indole-3-Propionic Acid, a Gut Microbiota Metabolite, Protects Against the Development of Postoperative Delirium.

Author

Zhou X, Wu X, Wu Y, Yang L, Shi E, Ding W, Chen L, Shi X, Feng X, Su C, You Z, Xia J, Chen C, Yeliseyev V, Bry L, Xia S, Huang P, Meng J, Houle T, Akeju O, Mao J, Gerszten R, Chen Q, Xie Z, and Shen S

Subjects
Humans, Mice, Animals, Prospective Studies, Indoles metabolism, Indoles pharmacology, Biomarkers, Gastrointestinal Microbiome, Emergence Delirium
Abstract

Objective: The aim was to determine preoperative gut microbiota metabolites that may be associated with postoperative delirium (POD) development in patients and further study in rodents., Summary Background Data: POD occurs in 9% to 50% of older patients undergoing anesthesia/surgery but lacks effective treatments or prevention. High-throughput metabolomics using liquid chromatography with tandem mass spectrometry has accelerated disease-related biomarkers discovery. We performed metabolomic studies in humans to identify potential metabolite biomarkers linked to POD and examined potential mechanisms in rodents., Methods: We performed a prospective observational cohort study to examine the metabolomic changes that were associated with the development of POD. Then the gut microbiota-related metabolomic changes were recapitulated by gut microbiota perturbation in rodents. POD was assessed in mice using a battery of behavioral tests including novel objective test, Y-maze test, open-field test, and buried food test. The mechanisms through which gut microbiota-related metabolomic changes influenced POD were examined using chemogenetics., Results: Indole-3-propionic acid (IPA) is a gut microbiota metabolite that belongs to the indole family. Baseline plasma levels of IPA were significantly inversely correlated with the onset of POD in 103 (17 cases) human individuals. This relationship was validated in preclinical mouse models for POD: reducing IPA levels through gut microbiota perturbation promoted POD-like behavior. More importantly, IPA administration deterred POD-like behavior. Colonization of germ-free mice with mutant Clostridium sporogenes that did not produce IPA-promoted POD-like behavior. Chemogenetic studies revealed that the protective effect of IPA in mice was mediated, in part, by peroxisome proliferator-activated receptor gamma coactivator 1-alpha in hippocampal interneurons., Conclusions: Gut microbiota-derived IPA is an important molecule implicated in the pathogenesis of POD, which could potentially be harnessed for POD prevention., Competing Interests: S.S. received support from NIH NS116423, AG067947, AG065606, and NS126029. The remaining authors report no conflicts of interest., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published
2023
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38. Clostridioides difficile MreE (PBP2) variants facilitate clinical disease during cephalosporin exposures.

Author

Worley JN, Benedetto ND, Delaney M, Paiva AO, Chapot-Chartier MP, Peltier J, and Bry L

Abstract

Cephalosporins are the most common triggers of healthcare-associated Clostridioides difficile infections (CDI). Here, we confirm gene-level drivers of cephalosporin resistance and their roles in promoting disease. Genomic-epidemiologic analyses of 306 C. difficile isolates from a hospital surveillance program monitoring asymptomatic carriers and CDI patients identified prevalent third-generation cephalosporin resistance to ceftriaxone at >256 ug/mL in 26% of isolates. Resistance was associated with patient cephalosporin exposures 8-10 days before C. difficile detection. Genomic analyses identified variants in the mreE penicillin binding protein 2 (PBP2) associated with resistance to multiple beta-lactam classes. Transfer of variants into susceptible strain CD630 elevated resistance to first and third-generation cephalosporins. Transfer into the mouse-infective strain ATCC 43255 enabled disease when mice were exposed to 500ug/mL cefoperazone, a dose that inhibited the isogenic susceptible strain. Our findings establish roles of cephalosporins and mreE -cephalosporin-resistant variants in CDI and provide testable genetic loci for detecting resistance in patient strains.

Published
2023
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39. Beneficial metabolic effects of PAHSAs depend on the gut microbiota in diet-induced obese mice.

Author

Lee J, Wellenstein K, Rahnavard A, Nelson AT, Holter MM, Cummings B, Yeliseyev V, Castoldi A, Clish CB, Bry L, Siegel D, and Kahn BB

Abstract

Dietary lipids play an essential role in regulating the function of the gut microbiota and gastrointestinal tract, and these luminal interactions contribute to mediating host metabolism. PAHSAs are a class of lipids with anti-diabetic and anti-inflammatory properties, but whether the gut microbiota contributes to their beneficial effects on host metabolism is unknown. Here, we report that treating high fat diet (HFD)-fed germ-free mice with PAHSAs does not improve insulin sensitivity. However, transfer of feces from PAHSA-treated, but not Vehicle-treated, chow-fed mice increases insulin-sensitivity in HFD-fed germ free mice. Thus, the gut microbiota is necessary for and can transmit the insulin-sensitizing effects of PAHSAs in HFD-fed germ-free mice. Functional analyses of the cecal metagenome and lipidome of PAHSA-treated mice identified multiple lipid species that associate with the gut commensal Bacteroides thetaiotaomicron ( Bt ) and with insulin sensitivity resulting from PAHSA treatment. Bt supplementation in HFD-fed female mice prevented weight gain, reduced adiposity, improved glucose tolerance, fortified the colonic mucus barrier and reduced systemic inflammation versus chow-fed controls, effects that were not observed in HFD-fed male mice. Furthermore, ovariectomy partially reversed the beneficial Bt effects on host metabolism, indicating a role for sex hormones in mediating probiotic effects. Altogether, these studies highlight the fact that lipids can modulate the gut microbiota resulting in improvement in host metabolism and that PAHSA-induced changes in the microbiota result in at least some of their insulin-sensitizing effects in female mice.

Published
2023
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40. HRMAS 13 C NMR and genome-scale metabolic modeling identify threonine as a preferred dual redox substrate for Clostridioides difficile .

Author

Pavao A, Zhang E, Monestier A, Peltier J, Dupuy B, Cheng L, and Bry L

Abstract

Stickland-fermenting Clostridia preferentially ferment amino acids to generate energy and anabolic substrates for growth. In gut ecosystems, these species prefer dual redox substrates, particularly mucin-abundant leucine. Here, we establish how theronine, a more prevalent, mucinabundant substrate, supports dual redox metabolism in the pathogen Clostridioides difficile . Realtime, High-Resolution Magic Angle Spinning NMR spectroscopy, with dynamic flux balance analyses, inferred dynamic recruitment of four distinct threonine fermentation pathways, including ones with intermediate accrual that supported changing cellular needs for energy, redox metabolism, nitrogen cycling, and growth. Model predictions with 13 C isotopomer analyses of [U- 13 C]threonine metabolites inferred threonine's reduction to butyrate through the reductive leucine pathway, a finding confirmed by deletion of the hadA 2-hydroxyisocaproate CoA transferase. In vivo metabolomic and metatranscriptomic analyses illustrate how threonine metabolism in C. difficile and the protective commensal Paraclostridium bifermentans impacts pathogen colonization and growth , expanding the range of dual-redox substrates that modulate host risks for disease.

Published
2023
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41. The TcdE holin drives toxin secretion and virulence in Clostridioides difficile .

Author

DiBenedetto NV, Oberkampf M, Cersosimo L, Yeliseyev V, Bry L, Peltier J, and Dupuy B

Abstract

Clostridioides difficile is the leading cause of healthcare associated infections. The Pathogenicity Locus (PaLoc) toxins TcdA and TcdB promote host disease. These toxins lack canonical N-terminal signal sequences for translocation across the bacterial membrane, suggesting alternate mechanisms of release, which have included targeted secretion and passive release from cell lysis. While the holin TcdE has been implicated in TcdA and TcdB release, its role in vivo remains unknown. Here, we show profound reductions in toxin secretion in ΔtcdE mutants in the highly virulent strains UK1 (epidemic ribotype 027, Clade 3) and VPI10463 (ribotype 087, Clade 1). Notably, tcdE deletion in either strain rescued highly susceptible gnotobiotic mice from lethal infection by reducing acute extracellular toxin to undetectable levels, limiting mucosal damage, and enabling long-term survival, in spite of continued toxin gene expression in ΔtcdE mutants. Our findings confirm TcdE's critical functions in vivo for toxin secretion and C. difficile virulence.

Published
2023
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42. Central in vivo mechanisms by which C. difficile's proline reductase drives efficient metabolism, growth, and toxin production.

Author

Cersosimo LM, Graham M, Monestier A, Pavao A, Worley JN, Peltier J, Dupuy B, and Bry L

Abstract

Clostridioides difficile (CD) is a sporulating and toxin-producing nosocomial pathogen that opportunistically infects the gut, particularly in patients with depleted microbiota after antibiotic exposure. Metabolically, CD rapidly generates energy and substrates for growth from Stickland fermentations of amino acids, with proline being a preferred reductive substrate. To investigate the in vivo effects of reductive proline metabolism on C. difficile's virulence in an enriched gut nutrient environment, we evaluated wild-type and isogenic ΔprdB strains of ATCC43255 on pathogen behaviors and host outcomes in highly susceptible gnotobiotic mice. Mice infected with the ΔprdB mutant demonstrated extended survival via delayed colonization, growth and toxin production but ultimately succumbed to disease. In vivo transcriptomic analyses demonstrated how the absence of proline reductase activity more broadly disrupted the pathogen's metabolism including failure to recruit oxidative Stickland pathways, ornithine transformations to alanine, and additional pathways generating growth-promoting substrates, contributing to delayed growth, sporulation, and toxin production. Our findings illustrate the central role for proline reductase metabolism to support early stages of C. difficile colonization and subsequent impact on the pathogen's ability to rapidly expand and cause disease.

Published
2023
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43. Prospective Genomic Surveillance Reveals Cryptic MRSA Outbreaks with Local to International Origins among NICU Patients.

Author

Worley JN, Crothers JW, Wolfgang WJ, Venkata SLG, Hoffmann M, Jayeola V, Klompas M, Allard M, and Bry L

Subjects
Humans, Infant, Newborn, Intensive Care Units, Neonatal, Prospective Studies, Infection Control methods, Disease Outbreaks prevention & control, Genomics, Methicillin-Resistant Staphylococcus aureus genetics, Staphylococcal Infections epidemiology, Cross Infection epidemiology
Abstract

Methicillin-resistant Staphylococcus aureus (MRSA) infections cause substantive morbidity and mortality in neonates. Using publicly available resources from the National Center of Biotechnology Information (NCBI) and Food and Drug Administration's (FDA) GalaxyTrakr pipeline, we illustrate the dynamics of MRSA colonization and infection in neonates. Over 217 days of prospective surveillance, analyses revealed concurrent MRSA transmission chains affecting 11 of 17 MRSA-colonized patients (65%), with two clusters that demonstrated intervals of more than a month among the appearance of isolates. All MRSA infected neonates ( n  = 3) showed previous colonization with the infecting strain. GalaxyTrakr clustering of the NICU strains, in the context of 21,521 international isolates deposited in NCBI's Pathogen Detection Resource, revealed NICU isolates to be distinct from adult MRSA strains seen locally and internationally. Clustering of the NICU strains within an international context enhanced the resolution of strain clusters and supported the rule-out of suspected, local transmission events within the NICU. Analyses also identified sequence type 1535 isolates, emergent in the Middle East, carrying a unique SCC mec with fusC and aac (6')-Ie/ aph (2'')-1a that provided a multidrug-resistant phenotype. NICU genomic pathogen surveillance, leveraging public repositories and outbreak detection tools, supports rapid identification of cryptic MRSA clusters, and can inform infection prevention interventions for this vulnerable patient population. Results demonstrate that sporadic infections in the NICU may be indicative of hidden chains of asymptomatic transmission best identified with sequenced-based approaches., Competing Interests: The authors declare no conflict of interest.

Published
2023
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44. Endoplasmic reticulum stress in the intestinal epithelium initiates purine metabolite synthesis and promotes Th17 cell differentiation in the gut.

Author

Duan J, Matute JD, Unger LW, Hanley T, Schnell A, Lin X, Krupka N, Griebel P, Lambden C, Sit B, Grootjans J, Pyzik M, Sommer F, Kaiser S, Falk-Paulsen M, Grasberger H, Kao JY, Fuhrer T, Li H, Paik D, Lee Y, Refetoff S, Glickman JN, Paton AW, Bry L, Paton JC, Sauer U, Macpherson AJ, Rosenstiel P, Kuchroo VK, Waldor MK, Huh JR, Kaser A, and Blumberg RS

Subjects
Cell Differentiation, Humans, Animals, Mice, Mice, Transgenic, Anti-Bacterial Agents pharmacology, Endoplasmic Reticulum Stress drug effects, Intestinal Mucosa drug effects, Intestinal Mucosa metabolism, Th17 Cells cytology, Th17 Cells metabolism
Abstract

Intestinal IL-17-producing T helper (Th17) cells are dependent on adherent microbes in the gut for their development. However, how microbial adherence to intestinal epithelial cells (IECs) promotes Th17 cell differentiation remains enigmatic. Here, we found that Th17 cell-inducing gut bacteria generated an unfolded protein response (UPR) in IECs. Furthermore, subtilase cytotoxin expression or genetic removal of X-box binding protein 1 (Xbp1) in IECs caused a UPR and increased Th17 cells, even in antibiotic-treated or germ-free conditions. Mechanistically, UPR activation in IECs enhanced their production of both reactive oxygen species (ROS) and purine metabolites. Treating mice with N-acetyl-cysteine or allopurinol to reduce ROS production and xanthine, respectively, decreased Th17 cells that were associated with an elevated UPR. Th17-related genes also correlated with ER stress and the UPR in humans with inflammatory bowel disease. Overall, we identify a mechanism of intestinal Th17 cell differentiation that emerges from an IEC-associated UPR., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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45. Elucidating dynamic anaerobe metabolism with HRMAS 13 C NMR and genome-scale modeling.

Author

Pavao A, Girinathan B, Peltier J, Altamirano Silva P, Dupuy B, Muti IH, Malloy C, Cheng LL, and Bry L

Subjects
Anaerobiosis, Ecosystem, Magnetic Resonance Spectroscopy methods, Amino Acids, Alanine, Clostridioides difficile
Abstract

Anaerobic microbial metabolism drives critical functions within global ecosystems, host-microbiota interactions, and industrial applications, yet remains ill-defined. Here we advance a versatile approach to elaborate cellular metabolism in obligate anaerobes using the pathogen Clostridioides difficile, an amino acid and carbohydrate-fermenting Clostridia. High-resolution magic angle spinning nuclear magnetic resonance (NMR) spectroscopy of C. difficile, grown with fermentable 13 C substrates, informed dynamic flux balance analysis (dFBA) of the pathogen's genome-scale metabolism. Analyses identified dynamic recruitment of oxidative and supporting reductive pathways, with integration of high-flux amino acid and glycolytic metabolism at alanine's biosynthesis to support efficient energy generation, nitrogen handling and biomass generation. Model predictions informed an approach leveraging the sensitivity of 13 C NMR spectroscopy to simultaneously track cellular carbon and nitrogen flow from [U- 13 C]glucose and [ 15 N]leucine, confirming the formation of [ 13 C, 15 N]alanine. Findings identify metabolic strategies used by C. difficile to support its rapid colonization and expansion in gut ecosystems., (© 2023. The Author(s).)

Published
2023
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47. A Rocky Resurgence.

Author

Malishchak L, Vaidya A, Ostrominski J, Bry L, and Maguire JH

Subjects
Humans, Conservation of Natural Resources
Published
2023
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48. Intelectin-1 binds and alters the localization of the mucus barrier-modifying bacterium Akkermansia muciniphila.

Author

Matute JD, Duan J, Flak MB, Griebel P, Tascon-Arcila JA, Doms S, Hanley T, Antanaviciute A, Gundrum J, Mark Welch JL, Sit B, Abtahi S, Fuhler GM, Grootjans J, Tran F, Stengel ST, White JR, Krupka N, Haller D, Clare S, Lawley TD, Kaser A, Simmons A, Glickman JN, Bry L, Rosenstiel P, Borisy G, Waldor MK, Baines JF, Turner JR, and Blumberg RS

Subjects
Humans, Mice, Animals, Mucus metabolism, Lectins, Verrucomicrobia metabolism, Colitis, Ulcerative metabolism, Colitis, Ulcerative microbiology, Colitis, Ulcerative pathology
Abstract

Intelectin-1 (ITLN1) is a lectin secreted by intestinal epithelial cells (IECs) and upregulated in human ulcerative colitis (UC). We investigated how ITLN1 production is regulated in IECs and the biological effects of ITLN1 at the host-microbiota interface using mouse models. Our data show that ITLN1 upregulation in IECs from UC patients is a consequence of activating the unfolded protein response. Analysis of microbes coated by ITLN1 in vivo revealed a restricted subset of microorganisms, including the mucolytic bacterium Akkermansia muciniphila. Mice overexpressing intestinal ITLN1 exhibited decreased inner colonic mucus layer thickness and closer apposition of A. muciniphila to the epithelial cell surface, similar to alterations reported in UC. The changes in the inner mucus layer were microbiota and A. muciniphila dependent and associated with enhanced sensitivity to chemically induced and T cell-mediated colitis. We conclude that by determining the localization of a select group of bacteria to the mucus layer, ITLN1 modifies this critical barrier. Together, these findings may explain the impact of ITLN1 dysregulation on UC pathogenesis., (© 2022 Matute et al.)

Published
2023
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50. Sequence-Based Identification of Metronidazole-Resistant Clostridioides difficile Isolates.

Author

Smits WK, Harmanus C, Sanders IMJG, Bry L, Blackwell GA, Ducarmon QR, de Oliveira Ferreira E, and Kuijper EJ

Subjects
Humans, Metronidazole pharmacology, Ribotyping, Clostridioides, Drug Resistance, Bacterial genetics, Microbial Sensitivity Tests, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Clostridioides difficile genetics, Clostridium Infections veterinary, Clostridium Infections drug therapy
Abstract

The plasmid pCD-METRO confers metronidazole resistance in Clostridioides difficile. We showed high sequence similarity among pCD-METRO plasmids from different isolates and identified pCD-METRO and associated metronidazole-resistant isolates in clinical and veterinary reservoirs in the Americas. We recommend using PCR or genomic assays to detect pCD-METRO in metronidazole-resistant C. difficile.

Published
2022
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