The intracellular voyage of cholera toxin: going retro
WI Lencer, B Tsai - Trends in biochemical sciences, 2003 - cell.com
WI Lencer, B Tsai
Trends in biochemical sciences, 2003•cell.comCholera toxin (CT) and related AB 5-subunit toxins move from the plasma membrane
through the trans-Golgi and endoplasmic reticulum (ER) to the cytosol of host cells. The
toxins exploit a specific glycolipid pathway rather than a protein pathway. They bind
glycolipids that associate with lipid rafts at the cell surface, which carry the toxins retrograde
to the Golgi and ER. In the ER, the A1-chain of the CT unfolds and enters the cytosol by
hijacking the cellular machinery that enables misfolded proteins to cross the membrane for …
through the trans-Golgi and endoplasmic reticulum (ER) to the cytosol of host cells. The
toxins exploit a specific glycolipid pathway rather than a protein pathway. They bind
glycolipids that associate with lipid rafts at the cell surface, which carry the toxins retrograde
to the Golgi and ER. In the ER, the A1-chain of the CT unfolds and enters the cytosol by
hijacking the cellular machinery that enables misfolded proteins to cross the membrane for …
Abstract
Cholera toxin (CT) and related AB5-subunit toxins move from the plasma membrane through the trans-Golgi and endoplasmic reticulum (ER) to the cytosol of host cells. The toxins exploit a specific glycolipid pathway rather than a protein pathway. They bind glycolipids that associate with lipid rafts at the cell surface, which carry the toxins retrograde to the Golgi and ER. In the ER, the A1-chain of the CT unfolds and enters the cytosol by hijacking the cellular machinery that enables misfolded proteins to cross the membrane for degradation by the proteasome, a process termed retro-translocation. Upon entering the cytosol, the A1-chain rapidly refolds, avoids the proteasome and induces toxicity.
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