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Autophagy01:27

Autophagy

5.0K
Autophagy is a self-digesting process by which a cell protects itself from threats both within and outside the cell, ranging from abnormal proteins to invading bacteria. In this process, obsolete components of the cell and invading microbes are degraded by hydrolytic enzymes active in an acidic environment of the lysosomal lumen.
An autophagic pathway consists of a series of signaling events activated in response to diverse stress and physiological conditions such as food deprivation,...
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Delivery Pathways to the Lysosome01:36

Delivery Pathways to the Lysosome

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Eukaryotic cells use different mechanisms to eliminate toxic waste obsolete and worn-out substances. Lysosomes play a pivotal role in this, and hence, these substances are carried to the lysosome from other parts of the cell and extracellular space through different pathways. The most elaborately studied pathways to the lysosome are the endocytic pathways.
Endocytosis
In endocytosis, the cell membrane takes up macromolecules and particles from the surrounding medium. Clathrin-mediated...
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Defense Against Bacterial Pathogens01:31

Defense Against Bacterial Pathogens

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The human immune system is a complex network of cells, tissues, and organs that work together to defend the body against bacterial infections. It consists of various immune cells, each playing a specific role in the defense mechanism.
Phagocytes
Phagocytes are the frontline soldiers of the immune system. They include neutrophils and macrophages. Neutrophils are the most abundant type of white blood cell and are quickly mobilized to the site of infection. Macrophages are larger cells that patrol...
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Autophagic Cell Death01:18

Autophagic Cell Death

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Christian de Duve discovered “autophagy,” a process in which cellular components are engulfed by membrane-bound organelles called autophagosomes. The autophagosomes then fuse with lysosomes to digest the enclosed contents. Autophagy is generally activated in cells to prevent cell death. However, cell death is triggered when the damage is beyond repair.
Autophagy and Apoptosis
Autophagy can activate apoptosis. In normal conditions, the autophagy activating protein Beclin-1 and...
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Cellular Injury V: Apoptosis and Autophagy01:22

Cellular Injury V: Apoptosis and Autophagy

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Cells respond to damage and stress through highly coordinated processes that decide whether they survive or undergo controlled self-destruction. Two major pathways involved in this regulation are apoptosis, a type of programmed cell death, and autophagy, a survival mechanism that helps cells adapt to adverse conditions.ApoptosisApoptosis removes aged or injured cells to maintain tissue balance. During this process, the cell shrinks, chromatin condenses and fragments, and membrane-bound...
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Lysogenic Cycle of Bacteriophages00:43

Lysogenic Cycle of Bacteriophages

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In contrast to the lytic cycle, phages infecting bacteria via the lysogenic cycle do not immediately kill their host cell. Instead, they combine their genome with the host genome, allowing the bacteria to replicate the phage DNA along with the bacterial genome. The incorporated copy of the phage genome is called the prophage. Some prophages can re-activate and enter the lytic cycle. This often occurs in response to a perturbation, such as DNA damage, but can also transpire in the absence of...
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Related Experiment Video

Updated: May 4, 2026

Cecal Ligation and Puncture-induced Sepsis as a Model To Study Autophagy in Mice
06:40

Cecal Ligation and Puncture-induced Sepsis as a Model To Study Autophagy in Mice

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Streptococcus pyogenes escapes from autophagy.

Ichiro Nakagawa1

  • 1Section of Bacterial Pathogenesis, Tokyo Medical and Dental University Graduate School of Medical and Dental Sciences, 1-5-45 Yushima, Bunkyo-ku, Tokyo 113-8510, Japan.

Cell Host & Microbe
|December 17, 2013
PubMed
Summary

Group A Streptococcus (GAS) evades the crucial innate immune process of autophagy. This evasion is achieved by the bacterial cysteine protease SpeB, which degrades key ubiquitin-LC3 proteins essential for autophagy.

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Area of Science:

  • Microbiology
  • Immunology
  • Cell Biology

Background:

  • Autophagy is a vital cellular defense mechanism against intracellular pathogens.
  • Group A Streptococcus (GAS) is a significant human pathogen requiring effective immune responses.
  • Understanding bacterial evasion strategies is crucial for developing new therapies.

Purpose of the Study:

  • To investigate the mechanisms by which the M1T1 clone of GAS evades autophagy.
  • To identify bacterial factors involved in disrupting the autophagic pathway.

Main Methods:

  • Utilized cell-based assays to study autophagy induction and bacterial interactions.
  • Investigated the role of streptococcal cysteine protease (SpeB) in modulating host cell processes.
  • Analyzed the degradation of ubiquitin-LC3 adaptor proteins.

Main Results:

  • Demonstrated that the M1T1 GAS clone actively evades autophagy.
  • Showed that SpeB is responsible for degrading ubiquitin-LC3 adaptor proteins.
  • Identified a novel mechanism of bacterial immune evasion.

Conclusions:

  • The M1T1 GAS clone employs SpeB to counteract autophagy-mediated immunity.
  • Targeting SpeB or the ubiquitin-LC3 pathway could be a therapeutic strategy against GAS infections.