Your search keyword '"Tina Meißgeier"' showing total 2 results

1. What an Escherichia coli Mutant Can Teach Us About the Antibacterial Effect of Chlorophyllin

Author

Marcus Krüger, Peter Richter, Sebastian M. Strauch, Adeel Nasir, Andreas Burkovski, Camila A. Antunes, Tina Meißgeier, Eberhard Schlücker, Stefan Schwab, and Michael Lebert

Subjects

chlorophyll, photosensitization, antimicrobial photodynamic therapy, aPDT, alternative antibiotics, Biology (General), QH301-705.5

Abstract

Due to the increasing development of antibiotic resistances in recent years, scientists search intensely for new methods to control bacteria. Photodynamic treatment with porphyrins such as chlorophyll derivatives is one of the most promising methods to handle bacterial infestation, but their use is dependent on illumination and they seem to be more effective against Gram-positive bacteria than against Gram-negatives. In this study, we tested chlorophyllin against three bacterial model strains, the Gram-positive Bacillus subtilis 168, the Gram-negative Escherichia coli DH5α and E. coli strain NR698 which has a deficient outer membrane, simulating a Gram-negative “without„ its outer membrane. Illuminated with a standardized light intensity of 12 mW/cm2, B. subtilis showed high sensitivity already at low chlorophyllin concentrations (≤105 cfu/mL: ≤0.1 mg/L, 106⁻108 cfu/mL: 0.5 mg/L), whereas E. coli DH5α was less sensitive (≤105 cfu/mL: 2.5 mg/L, 106 cfu/mL: 5 mg/L, 107⁻108 cfu/mL: ineffective at ≤25 mg/L chlorophyllin). E. coli NR698 was almost as sensitive as B. subtilis against chlorophyllin, pointing out that the outer membrane plays a significant role in protection against photodynamic chlorophyllin impacts. Interestingly, E. coli NR698 and B. subtilis can also be inactivated by chlorophyllin in darkness, indicating a second, light-independent mode of action. Thus, chlorophyllin seems to be more than a photosensitizer, and a promising substance for the control of bacteria, which deserves further investigation.

Published

2019

2. What an Escherichia coli Mutant Can Teach Us About the Antibacterial Effect of Chlorophyllin

Author

Sebastian M. Strauch, Tina Meißgeier, Stefan Schwab, Eberhard Schlücker, Adeel Nasir, Camila Azevedo Antunes, Peter Richter, Michael Lebert, Marcus Krüger, and Andreas Burkovski

Subjects

0301 basic medicine, Microbiology (medical), 030106 microbiology, antimicrobial photodynamic therapy, Bacillus subtilis, medicine.disease_cause, Microbiology, Article, 03 medical and health sciences, chemistry.chemical_compound, ddc:570, Virology, aPDT, medicine, chlorophyll, Photosensitizer, Mode of action, lcsh:QH301-705.5, Escherichia coli, biology, Chlorophyllin, photosensitization, Naturwissenschaftliche Fakultät, biology.organism_classification, alternative antibiotics, Light intensity, 030104 developmental biology, lcsh:Biology (General), chemistry, Bacterial outer membrane, Bacteria

Abstract

Due to the increasing development of antibiotic resistances in recent years, scientists search intensely for new methods to control bacteria. Photodynamic treatment with porphyrins such as chlorophyll derivatives is one of the most promising methods to handle bacterial infestation, but their use is dependent on illumination and they seem to be more effective against Gram-positive bacteria than against Gram-negatives. In this study, we tested chlorophyllin against three bacterial model strains, the Gram-positive Bacillus subtilis 168, the Gram-negative Escherichia coli DH5&alpha, and E. coli strain NR698 which has a deficient outer membrane, simulating a Gram-negative &ldquo, without&rdquo, its outer membrane. Illuminated with a standardized light intensity of 12 mW/cm2, B. subtilis showed high sensitivity already at low chlorophyllin concentrations (&le, 105 cfu/mL: &le, 0.1 mg/L, 106&ndash, 108 cfu/mL: 0.5 mg/L), whereas E. coli DH5&alpha, was less sensitive (&le, 105 cfu/mL: 2.5 mg/L, 106 cfu/mL: 5 mg/L, 107&ndash, 108 cfu/mL: ineffective at &le, 25 mg/L chlorophyllin). E. coli NR698 was almost as sensitive as B. subtilis against chlorophyllin, pointing out that the outer membrane plays a significant role in protection against photodynamic chlorophyllin impacts. Interestingly, E. coli NR698 and B. subtilis can also be inactivated by chlorophyllin in darkness, indicating a second, light-independent mode of action. Thus, chlorophyllin seems to be more than a photosensitizer, and a promising substance for the control of bacteria, which deserves further investigation.

Published

2019