Single Exosome Amperometric Measurements Reveal Encapsulation of Chemical Messengers for Intercellular Communication
In multicellular organisms, cells typically communicate by sending and receiving chemical signals. Chemical messengers involved in the exocytosis of neuroendocrine cells or neurons are generally assumed to only originate from the fusing of intracellular large dense core vesicles (LDCVs) or synaptic...
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| Published in | Journal of the American Chemical Society Vol. 145; no. 21; pp. 11499 - 11503 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Chemical Society
31.05.2023
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| Online Access | Get full text |
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| Abstract | In multicellular organisms, cells typically communicate by sending and receiving chemical signals. Chemical messengers involved in the exocytosis of neuroendocrine cells or neurons are generally assumed to only originate from the fusing of intracellular large dense core vesicles (LDCVs) or synaptic vesicles with the cellular membrane following stimulation. Accumulated evidence suggests that exosomesone of the main extracellular vesicles (EVs)carrying cell-dependent DNA, mRNA, proteins, etc., play an essential role in cellular communication. Due to experimental limitations, it has been difficult to monitor the real-time release of individual exosomes; this restricts a comprehensive understanding of the basic molecular mechanisms and the functions of exosomes. In this work, we introduce amperometry with microelectrodes to capture the dynamic release of single exosomes from a single living cell, distinguish them from other EVs, and differentiate the molecules inside exosomes and those secreted from LDCVs. We show that, similar to many LDCVs and synaptic vesicles, exosomes released by neuroendocrine cells also contain catecholamine transmitters. This finding reveals a different mode of chemical communication via exosome-encapsulated chemical messengers and a potential interconnection between the two release pathways, changing the canonical view of exocytosis of neuroendocrine cells and possibly neurons. This defines a new mechanism for chemical communication at the fundamental level and opens new avenues in the research of the molecular biology of exosomes in the neuroendocrine and central nervous systems. |
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| AbstractList | In multicellular organisms, cells typically communicate by sending and receiving chemical signals. Chemical messengers involved in the exocytosis of neuroendocrine cells or neurons are generally assumed to only originate from the fusing of intracellular large dense core vesicles (LDCVs) or synaptic vesicles with the cellular membrane following stimulation. Accumulated evidence suggests that exosomesone of the main extracellular vesicles (EVs)carrying cell-dependent DNA, mRNA, proteins, etc., play an essential role in cellular communication. Due to experimental limitations, it has been difficult to monitor the real-time release of individual exosomes; this restricts a comprehensive understanding of the basic molecular mechanisms and the functions of exosomes. In this work, we introduce amperometry with microelectrodes to capture the dynamic release of single exosomes from a single living cell, distinguish them from other EVs, and differentiate the molecules inside exosomes and those secreted from LDCVs. We show that, similar to many LDCVs and synaptic vesicles, exosomes released by neuroendocrine cells also contain catecholamine transmitters. This finding reveals a different mode of chemical communication via exosome-encapsulated chemical messengers and a potential interconnection between the two release pathways, changing the canonical view of exocytosis of neuroendocrine cells and possibly neurons. This defines a new mechanism for chemical communication at the fundamental level and opens new avenues in the research of the molecular biology of exosomes in the neuroendocrine and central nervous systems. In multicellular organisms, cells typically communicate by sending and receiving chemical signals. Chemical messengers involved in the exocytosis of neuroendocrine cells or neurons are generally assumed to only originate from the fusing of intracellular large dense core vesicles (LDCVs) or synaptic vesicles with the cellular membrane following stimulation. Accumulated evidence suggests that exosomes─one of the main extracellular vesicles (EVs)─carrying cell-dependent DNA, mRNA, proteins, etc., play an essential role in cellular communication. Due to experimental limitations, it has been difficult to monitor the real-time release of individual exosomes; this restricts a comprehensive understanding of the basic molecular mechanisms and the functions of exosomes. In this work, we introduce amperometry with microelectrodes to capture the dynamic release of single exosomes from a single living cell, distinguish them from other EVs, and differentiate the molecules inside exosomes and those secreted from LDCVs. We show that, similar to many LDCVs and synaptic vesicles, exosomes released by neuroendocrine cells also contain catecholamine transmitters. This finding reveals a different mode of chemical communication via exosome-encapsulated chemical messengers and a potential interconnection between the two release pathways, changing the canonical view of exocytosis of neuroendocrine cells and possibly neurons. This defines a new mechanism for chemical communication at the fundamental level and opens new avenues in the research of the molecular biology of exosomes in the neuroendocrine and central nervous systems. In multicellular organisms, cellstypically communicateby sendingand receiving chemical signals. Chemical messengers involved in theexocytosis of neuroendocrine cells or neurons are generally assumedto only originate from the fusing of intracellular large dense corevesicles (LDCVs) or synaptic vesicles with the cellular membrane followingstimulation. Accumulated evidence suggests that exosomes oneof the main extracellular vesicles (EVs)carrying cell-dependentDNA, mRNA, proteins, etc., play an essential role in cellular communication.Due to experimental limitations, it has been difficult to monitorthe real-time release of individual exosomes; this restricts a comprehensiveunderstanding of the basic molecular mechanisms and the functionsof exosomes. In this work, we introduce amperometry with microelectrodesto capture the dynamic release of single exosomes from a single livingcell, distinguish them from other EVs, and differentiate the moleculesinside exosomes and those secreted from LDCVs. We show that, similarto many LDCVs and synaptic vesicles, exosomes released by neuroendocrinecells also contain catecholamine transmitters. This finding revealsa different mode of chemical communication via exosome-encapsulatedchemical messengers and a potential interconnection between the tworelease pathways, changing the canonical view of exocytosis of neuroendocrinecells and possibly neurons. This defines a new mechanism for chemicalcommunication at the fundamental level and opens new avenues in theresearch of the molecular biology of exosomes in the neuroendocrineand central nervous systems. |
| Author | Zhang, Xin Le Vo, Kim Long Phan, Nhu T. N. Gu, Chaoyi Hu, Keke Wang, Fan Fang, Ning Ewing, Andrew G. |
| AuthorAffiliation | Department of Chemistry and Molecular Biology Department of Chemistry, College of Chemistry & Chemical Engineering |
| AuthorAffiliation_xml | – name: Department of Chemistry, College of Chemistry & Chemical Engineering – name: Department of Chemistry and Molecular Biology |
| Author_xml | – sequence: 1 givenname: Keke orcidid: 0000-0002-6663-6832 surname: Hu fullname: Hu, Keke email: khu@xmu.edu.cn organization: Department of Chemistry, College of Chemistry & Chemical Engineering – sequence: 2 givenname: Kim Long surname: Le Vo fullname: Le Vo, Kim Long organization: Department of Chemistry and Molecular Biology – sequence: 3 givenname: Fan surname: Wang fullname: Wang, Fan organization: Department of Chemistry, College of Chemistry & Chemical Engineering – sequence: 4 givenname: Xin surname: Zhang fullname: Zhang, Xin organization: Department of Chemistry, College of Chemistry & Chemical Engineering – sequence: 5 givenname: Chaoyi surname: Gu fullname: Gu, Chaoyi organization: Department of Chemistry and Molecular Biology – sequence: 6 givenname: Ning orcidid: 0000-0003-4710-0984 surname: Fang fullname: Fang, Ning organization: Department of Chemistry, College of Chemistry & Chemical Engineering – sequence: 7 givenname: Nhu T. N. surname: Phan fullname: Phan, Nhu T. N. organization: Department of Chemistry and Molecular Biology – sequence: 8 givenname: Andrew G. orcidid: 0000-0002-2084-0133 surname: Ewing fullname: Ewing, Andrew G. email: andrewe@chem.gu.se organization: Department of Chemistry and Molecular Biology |
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| SubjectTerms | Cell Communication Cell Membrane - metabolism Chemical Sciences Chemistry chromaffin cells events exocytosis Exosomes - metabolism Extracellular Vesicles - metabolism Kemi Neurons release vesicles |
| Title | Single Exosome Amperometric Measurements Reveal Encapsulation of Chemical Messengers for Intercellular Communication |
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