Endosome
(Redirected from Multivesicular body)
Introduction[edit | edit source]
An endosome is a membrane-bound compartment found within the cytoplasm of eukaryotic cells. It plays a central role in the internalization, sorting, and trafficking of various molecules between the plasma membrane and the lysosome.
Structure and Composition[edit | edit source]
Membrane Composition[edit | edit source]
Endosomes are composed of a lipid bilayer membrane, similar to the plasma membrane but with a unique composition of lipids and proteins that facilitates its specialized functions.
Morphology[edit | edit source]
Endosomes can be classified based on their morphology and maturation stage into:
- Early endosomes
- Late endosomes
- Recycling endosomes
Function and Role[edit | edit source]
Molecular Traffic Regulation[edit | edit source]
The primary role of endosomes is to regulate the traffic of molecules that have been internalized by the cell either through endocytosis or phagocytosis. Once inside the cell, these molecules can be sorted and sent to their appropriate destinations, including the lysosome for degradation or back to the plasma membrane for reuse.
Sorting and Recycling[edit | edit source]
Endosomes are involved in sorting endocytosed molecules, determining whether they should be recycled back to the plasma membrane, sent to the lysosome for degradation, or transported to another cellular location.
Signal Transduction[edit | edit source]
Endosomes can also serve as signaling platforms, where specific signaling molecules are activated or inactivated, influencing various cellular responses.
Interactions with Other Cellular Organelles[edit | edit source]
Endosomes interact closely with other organelles to ensure efficient trafficking and processing of molecules:
- Golgi Apparatus: Endosomes can exchange content with the Golgi, influencing protein processing and sorting.
- Lysosome: Late endosomes often fuse with lysosomes, delivering their contents for degradation.
- Plasma Membrane: Molecules can be recycled from endosomes back to the plasma membrane for reuse.
Pathological Implications[edit | edit source]
Endosomal dysfunction can lead to various diseases, including:
- Neurodegenerative diseases
- Infections, as some pathogens exploit endosomal pathways
- Genetic disorders affecting endosomal function
Conclusion[edit | edit source]
Endosomes are integral to the cell's ability to regulate molecular traffic, ensuring that molecules are efficiently processed and directed to their appropriate destinations. Understanding endosomal function is crucial not only for cell biology but also for understanding various diseases where this system is compromised.
Endosome Resources | |
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Resources[edit source]
Latest articles - Endosome
Source: Data courtesy of the U.S. National Library of Medicine. Since the data might have changed, please query MeSH on Endosome for any updates.
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