Biogenesis and secretion of exosomes

•ESCRT proteins, lipids and tetraspanins can independently generate intraluminal vesicles.•Different RAB proteins can target multivesicular compartments to the plasma membrane.•Vesicles with different densities, and probably different origins, are co-secreted. Although observed for several decades,...

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Published inCurrent opinion in cell biology Vol. 29; pp. 116 - 125
Main Authors Kowal, Joanna, Tkach, Mercedes, Théry, Clotilde
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.08.2014
Elsevier
Subjects
Animals
Biological Transport
Cell Membrane - metabolism
Exosomes - secretion
Humans
Internal Medicine
Life Sciences
Online AccessGet full text

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Abstract •ESCRT proteins, lipids and tetraspanins can independently generate intraluminal vesicles.•Different RAB proteins can target multivesicular compartments to the plasma membrane.•Vesicles with different densities, and probably different origins, are co-secreted. Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing interest in the past few years, which led to the creation, in 2012, of a scientific society dedicated to the subject: the International Society for Extracellular Vesicles. Convincing evidence that vesicles allow exchange of complex information fuelled this rise in interest. But it has also become clear that different types of secreted vesicles co-exist, with different intracellular origins and modes of formation, and thus probably different compositions and functions. Exosomes are one sub-type of secreted vesicles. They form inside eukaryotic cells in multivesicular compartments, and are secreted when these compartments fuse with the plasma membrane. Interestingly, different families of molecules have been shown to allow intracellular formation of exosomes and their subsequent secretion, which suggests that even among exosomes different sub-types exist.
AbstractList Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing interest in the past few years, which led to the creation, in 2012, of a scientific society dedicated to the subject: the International Society for Extracellular Vesicles. Convincing evidence that vesicles allow exchange of complex information fuelled this rise in interest. But it has also become clear that different types of secreted vesicles co-exist, with different intracellular origins and modes of formation, and thus probably different compositions and functions. Exosomes are one sub-type of secreted vesicles. They form inside eukaryotic cells in multivesicular compartments, and are secreted when these compartments fuse with the plasma membrane. Interestingly, different families of molecules have been shown to allow intracellular formation of exosomes and their subsequent secretion, which suggests that even among exosomes different sub-types exist.Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing interest in the past few years, which led to the creation, in 2012, of a scientific society dedicated to the subject: the International Society for Extracellular Vesicles. Convincing evidence that vesicles allow exchange of complex information fuelled this rise in interest. But it has also become clear that different types of secreted vesicles co-exist, with different intracellular origins and modes of formation, and thus probably different compositions and functions. Exosomes are one sub-type of secreted vesicles. They form inside eukaryotic cells in multivesicular compartments, and are secreted when these compartments fuse with the plasma membrane. Interestingly, different families of molecules have been shown to allow intracellular formation of exosomes and their subsequent secretion, which suggests that even among exosomes different sub-types exist.
Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing interest in the past few years, which led to the creation, in 2012, of a scientific society dedicated to the subject: the International Society for Extracellular Vesicles. Convincing evidence that vesicles allow exchange of complex information fuelled this rise in interest. But it has also become clear that different types of secreted vesicles co-exist, with different intracellular origins and modes of formation, and thus probably different compositions and functions. Exosomes are one sub-type of secreted vesicles. They form inside eukaryotic cells in multivesicular compartments, and are secreted when these compartments fuse with the plasma membrane. Interestingly, different families of molecules have been shown to allow intracellular formation of exosomes and their subsequent secretion, which suggests that even among exosomes different sub-types exist.
Highlights • ESCRT proteins, lipids and tetraspanins can independently generate intraluminal vesicles. • Different RAB proteins can target multivesicular compartments to the plasma membrane. • Vesicles with different densities, and probably different origins, are co-secreted.
•ESCRT proteins, lipids and tetraspanins can independently generate intraluminal vesicles.•Different RAB proteins can target multivesicular compartments to the plasma membrane.•Vesicles with different densities, and probably different origins, are co-secreted. Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing interest in the past few years, which led to the creation, in 2012, of a scientific society dedicated to the subject: the International Society for Extracellular Vesicles. Convincing evidence that vesicles allow exchange of complex information fuelled this rise in interest. But it has also become clear that different types of secreted vesicles co-exist, with different intracellular origins and modes of formation, and thus probably different compositions and functions. Exosomes are one sub-type of secreted vesicles. They form inside eukaryotic cells in multivesicular compartments, and are secreted when these compartments fuse with the plasma membrane. Interestingly, different families of molecules have been shown to allow intracellular formation of exosomes and their subsequent secretion, which suggests that even among exosomes different sub-types exist.
Author Kowal, Joanna
Tkach, Mercedes
Théry, Clotilde
Author_xml – sequence: 1
  givenname: Joanna
  surname: Kowal
  fullname: Kowal, Joanna
  organization: Institut Curie, Centre de Recherche, 26 rue d’Ulm, Paris F-75248, France
– sequence: 2
  givenname: Mercedes
  surname: Tkach
  fullname: Tkach, Mercedes
  organization: Institut Curie, Centre de Recherche, 26 rue d’Ulm, Paris F-75248, France
– sequence: 3
  givenname: Clotilde
  surname: Théry
  fullname: Théry, Clotilde
  email: clotilde.thery@curie.fr
  organization: Institut Curie, Centre de Recherche, 26 rue d’Ulm, Paris F-75248, France
BackLink https://www.ncbi.nlm.nih.gov/pubmed/24959705$$D View this record in MEDLINE/PubMed
https://inserm.hal.science/inserm-02452742$$DView record in HAL
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Snippet •ESCRT proteins, lipids and tetraspanins can independently generate intraluminal vesicles.•Different RAB proteins can target multivesicular compartments to the...
Highlights • ESCRT proteins, lipids and tetraspanins can independently generate intraluminal vesicles. • Different RAB proteins can target multivesicular...
Although observed for several decades, the release of membrane-enclosed vesicles by cells into their surrounding environment has been the subject of increasing...
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SubjectTerms Animals
Biological Transport
Cell Membrane - metabolism
Exosomes - secretion
Humans
Internal Medicine
Life Sciences
Title Biogenesis and secretion of exosomes
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