Targeting the unfolded protein response in disease
Stress induced by the accumulation of unfolded proteins in the endoplasmic reticulum (ER)
is a feature of specialized secretory cells and is also observed in many diseases, including
cancer, diabetes, autoimmune conditions, liver disorders, obesity and neurodegenerative
disorders. Cellular adaptation to ER stress is achieved by the activation of the unfolded
protein response, which is an integrated signal transduction pathway that modulates many
aspects of ER physiology. When these mechanisms of adaptation are insufficient to handle …
is a feature of specialized secretory cells and is also observed in many diseases, including
cancer, diabetes, autoimmune conditions, liver disorders, obesity and neurodegenerative
disorders. Cellular adaptation to ER stress is achieved by the activation of the unfolded
protein response, which is an integrated signal transduction pathway that modulates many
aspects of ER physiology. When these mechanisms of adaptation are insufficient to handle …
Abstract
Stress induced by the accumulation of unfolded proteins in the endoplasmic reticulum (ER) is a feature of specialized secretory cells and is also observed in many diseases, including cancer, diabetes, autoimmune conditions, liver disorders, obesity and neurodegenerative disorders. Cellular adaptation to ER stress is achieved by the activation of the unfolded protein response, which is an integrated signal transduction pathway that modulates many aspects of ER physiology. When these mechanisms of adaptation are insufficient to handle the unfolded protein load, cells undergo apoptosis. Here, we discuss recent advances in the design of novel compounds and therapeutic strategies to manipulate levels of ER stress in disease.
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