Searching the point of no return in Helicobacter pylori life: necrosis and/or programmed death?

Aims: Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Methods and Results: Evidence of programmed death in H. pylori is provided through electron microscopic detection and cytochemical labelling of electrondense bodies (...

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Published in	Journal of applied microbiology Vol. 90; no. 5; pp. 727 - 732
Main Authors	Cellini, L., Robuffo, I., Maraldi, N. M., Donelli, G.
Format	Journal Article
Language	English
Published	Oxford UK Blackwell Science Ltd 01.05.2001 Blackwell Science Oxford University Press
Subjects	Apoptosis Bacteriology Biological and medical sciences Deoxyribonucleases - analysis Fundamental and applied biological sciences. Psychology Growth, nutrition, cell differenciation Helicobacter pylori Helicobacter pylori - cytology Helicobacter pylori - genetics Helicobacter pylori - physiology Helicobacter pylori - ultrastructure Humans Immunohistochemistry Microbiology Microscopy, Electron Temperature Spirillales Helicobacter pylori Cell death Morphology Pathogenic Spirillaceae Microorganism culture Bacteria Stress
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Abstract	Aims: Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Methods and Results: Evidence of programmed death in H. pylori is provided through electron microscopic detection and cytochemical labelling of electrondense bodies (EDB), containing packaged DNA in coccoid cells, resembling micronuclei of apoptotic eukaryotic cells. This morphological evidence is also supported by DNA cleavage in homogeneous fragments of about 100 base pairs. Programmed cell death was observed in H. pylori cultures at 37 °C, with a maximum of 37·5% of EDB coccoid cells after 7 days. The non‐permissive temperature of 4 °C anticipated this process, with 40% of EDB coccoid forms within 3 days, and it remained substantially unaffected during the observation time of 14 days. Conclusion: In these experiments, deprivation of nutrients and a non‐permissive temperature acted as a powerful trigger for programmed cell death. Significance and Impact of the Study: Helicobacter pylori bacterial populations, under stressing stimuli, can respond with programmed cell suicide as a means of species preservation.
AbstractList	Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Evidence of programmed death in H. pylori is provided through electron microscopic detection and cytochemical labelling of electrondense bodies (EDB), containing packaged DNA in coccoid cells, resembling micronuclei of apoptotic eukaryotic cells. This morphological evidence is also supported by DNA cleavage in homogeneous fragments of about 100 base pairs. Programmed cell death was observed in H. pylori cultures at 37 degrees C, with a maximum of 37.5% of EDB coccoid cells after 7 days. The non-permissive temperature of 4 degrees C anticipated this process, with 40% of EDB coccoid forms within 3 days, and it remained substantially unaffected during the observation time of 14 days. In these experiments, deprivation of nutrients and a non-permissive temperature acted as a powerful trigger for programmed cell death. Helicobacter pylori bacterial populations, under stressing stimuli, can respond with programmed cell suicide as a means of species preservation. AIMSUltrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted.METHODS AND RESULTSEvidence of programmed death in H. pylori is provided through electron microscopic detection and cytochemical labelling of electrondense bodies (EDB), containing packaged DNA in coccoid cells, resembling micronuclei of apoptotic eukaryotic cells. This morphological evidence is also supported by DNA cleavage in homogeneous fragments of about 100 base pairs. Programmed cell death was observed in H. pylori cultures at 37 degrees C, with a maximum of 37.5% of EDB coccoid cells after 7 days. The non-permissive temperature of 4 degrees C anticipated this process, with 40% of EDB coccoid forms within 3 days, and it remained substantially unaffected during the observation time of 14 days.CONCLUSIONIn these experiments, deprivation of nutrients and a non-permissive temperature acted as a powerful trigger for programmed cell death.SIGNIFICANCE AND IMPACT OF THE STUDYHelicobacter pylori bacterial populations, under stressing stimuli, can respond with programmed cell suicide as a means of species preservation. Aims: Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Methods and Results: Evidence of programmed death in H. pylori is provided through electron microscopic detection and cytochemical labelling of electrondense bodies (EDB), containing packaged DNA in coccoid cells, resembling micronuclei of apoptotic eukaryotic cells. This morphological evidence is also supported by DNA cleavage in homogeneous fragments of about 100 base pairs. Programmed cell death was observed in H. pylori cultures at 37 degree C, with a maximum of 37.5% of EDB coccoid cells after 7 days. The non-permissive temperature of 4 degree C anticipated this process, with 40% of EDB coccoid forms within 3 days, and it remained substantially unaffected during the observation time of 14 days. Conclusion: In these experiments, deprivation of nutrients and a non-permissive temperature acted as a powerful trigger for programmed cell death. Significance and Impact of the Study: Helicobacter pylori bacterial populations, under stressing stimuli, can respond with programmed cell suicide as a means of species preservation. Aims: Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Methods and Results: Evidence of programmed death in H. pylori is provided through electron microscopic detection and cytochemical labelling of electrondense bodies (EDB), containing packaged DNA in coccoid cells, resembling micronuclei of apoptotic eukaryotic cells. This morphological evidence is also supported by DNA cleavage in homogeneous fragments of about 100 base pairs. Programmed cell death was observed in H. pylori cultures at 37 °C, with a maximum of 37·5% of EDB coccoid cells after 7 days. The non‐permissive temperature of 4 °C anticipated this process, with 40% of EDB coccoid forms within 3 days, and it remained substantially unaffected during the observation time of 14 days. Conclusion: In these experiments, deprivation of nutrients and a non‐permissive temperature acted as a powerful trigger for programmed cell death. Significance and Impact of the Study: Helicobacter pylori bacterial populations, under stressing stimuli, can respond with programmed cell suicide as a means of species preservation.
Author	Maraldi, N. M. Cellini, L. Donelli, G. Robuffo, I.
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Snippet	Aims: Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Methods and Results:... Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Evidence of programmed death in... Aims: Ultrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted. Methods and Results:... AIMSUltrastructural and molecular studies to support the hypothesis of programmed cell death in Helicobacter pylori were conducted.METHODS AND RESULTSEvidence...
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SubjectTerms	Apoptosis Bacteriology Biological and medical sciences Deoxyribonucleases - analysis Fundamental and applied biological sciences. Psychology Growth, nutrition, cell differenciation Helicobacter pylori Helicobacter pylori - cytology Helicobacter pylori - genetics Helicobacter pylori - physiology Helicobacter pylori - ultrastructure Humans Immunohistochemistry Microbiology Microscopy, Electron Temperature
Title	Searching the point of no return in Helicobacter pylori life: necrosis and/or programmed death?
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