Influence of storage condition on exosome recovery

Most of mammalian cells release extracellular vesicles including exosomes which mediate intercellular communication by delivering a variety of molecules. Despite of their importance in normal physiology and disease progression, the standard criteria of storage condition is indefinite and controversi...

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Published in	Biotechnology and bioprocess engineering Vol. 21; no. 2; pp. 299 - 304
Main Authors	Lee, Mijung, Ban, Jae-Jun, Im, Wooseok, Kim, Manho
Format	Journal Article
Language	English
Published	Seoul The Korean Society for Biotechnology and Bioengineering 01.03.2016 Springer Nature B.V 한국생물공학회
Subjects	Alzheimer's disease ambient temperature Analysis Biotechnology cell communication Cell culture Cellular biology Chemistry Chemistry and Materials Science disease course Disease management exosomes Extracellular vesicles flow cytometry Industrial and Production Engineering Influence long term effects Mammals Physiology Proteins Research Paper RNA storage storage temperature Studies Temperature 생물공학 temperature storage condition microvesicle exosome
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Abstract	Most of mammalian cells release extracellular vesicles including exosomes which mediate intercellular communication by delivering a variety of molecules. Despite of their importance in normal physiology and disease progression, the standard criteria of storage condition is indefinite and controversial. Therefore, we investigated exosome’s recovery yield and stability by various storage conditions. To investigate the effect of short-term storage temperature on exosome stability, exosomes were incubated at temperatures ranging from -70 to 90°C for 30 min. Immunoblot results showed that all exosome-associated proteins incubated at 90°C were mostly degraded for a short period of time. To examine the effect of long-term storage, isolated exosomes were incubated for 10 days at from -70°C to room temperature (RT), and exosomal protein, RNA and exosome markers were examined. Protein and RNA amounts were most reduced at RT compared with -70 and 4°C. Incubation at 4°C and RT resulted in major loss of CD63, and decreasing level of HSP70 was shown at only RT. In addition, flow cytometry result showed that exosome population became more dispersed after RT incubation for 10 days compared with -70°C incubated or freshly isolated exosomes. In summary, our results indicate that different storage temperature and period influences recovery yield and morphology of exosome, and storage at below -70°C is the favorable condition for preservation of fresh exosomes for clinical application and basic researches.
AbstractList	Most of mammalian cells release extracellular vesicles including exosomes which mediate intercellular communication by delivering a variety of molecules. Despite of their importance in normal physiology and disease progression, the standard criteria of storage condition is indefinite and controversial. Therefore, we investigated exosome’s recovery yield and stability by various storage conditions. To investigate the effect of short-term storage temperature on exosome stability, exosomes were incubated at temperatures ranging from -70 to 90°C for 30 min. Immunoblot results showed that all exosome-associated proteins incubated at 90°C were mostly degraded for a short period of time. To examine the effect of long-term storage, isolated exosomes were incubated for 10 days at from -70°C to room temperature (RT), and exosomal protein, RNA and exosome markers were examined. Protein and RNA amounts were most reduced at RT compared with -70 and 4°C. Incubation at 4°C and RT resulted in major loss of CD63, and decreasing level of HSP70 was shown at only RT. In addition, flow cytometry result showed that exosome population became more dispersed after RT incubation for 10 days compared with -70°C incubated or freshly isolated exosomes. In summary, our results indicate that different storage temperature and period influences recovery yield and morphology of exosome, and storage at below -70°C is the favorable condition for preservation of fresh exosomes for clinical application and basic researches. KCI Citation Count: 17 Most of mammalian cells release extracellular vesicles including exosomes which mediate intercellular communication by delivering a variety of molecules. Despite of their importance in normal physiology and disease progression, the standard criteria of storage condition is indefinite and controversial. Therefore, we investigated exosome’s recovery yield and stability by various storage conditions. To investigate the effect of short-term storage temperature on exosome stability, exosomes were incubated at temperatures ranging from -70 to 90°C for 30 min. Immunoblot results showed that all exosome-associated proteins incubated at 90°C were mostly degraded for a short period of time. To examine the effect of long-term storage, isolated exosomes were incubated for 10 days at from -70°C to room temperature (RT), and exosomal protein, RNA and exosome markers were examined. Protein and RNA amounts were most reduced at RT compared with -70 and 4°C. Incubation at 4°C and RT resulted in major loss of CD63, and decreasing level of HSP70 was shown at only RT. In addition, flow cytometry result showed that exosome population became more dispersed after RT incubation for 10 days compared with -70°C incubated or freshly isolated exosomes. In summary, our results indicate that different storage temperature and period influences recovery yield and morphology of exosome, and storage at below -70°C is the favorable condition for preservation of fresh exosomes for clinical application and basic researches. Most of mammalian cells release extracellular vesicles including exosomes which mediate intercellular communication by delivering a variety of molecules. Despite of their importance in normal physiology and disease progression, the standard criteria of storage condition is indefinite and controversial. Therefore, we investigated exosome's recovery yield and stability by various storage conditions. To investigate the effect of short-term storage temperature on exosome stability, exosomes were incubated at temperatures ranging from -70 to 90 degree C for 30 min. Immunoblot results showed that all exosome-associated proteins incubated at 90 degree C were mostly degraded for a short period of time. To examine the effect of long-term storage, isolated exosomes were incubated for 10 days at from -70 degree C to room temperature (RT), and exosomal protein, RNA and exosome markers were examined. Protein and RNA amounts were most reduced at RT compared with -70 and 4 degree C. Incubation at 4 degree C and RT resulted in major loss of CD63, and decreasing level of HSP70 was shown at only RT. In addition, flow cytometry result showed that exosome population became more dispersed after RT incubation for 10 days compared with -70 degree C incubated or freshly isolated exosomes. In summary, our results indicate that different storage temperature and period influences recovery yield and morphology of exosome, and storage at below -70 degree C is the favorable condition for preservation of fresh exosomes for clinical application and basic researches.
Author	Lee, Mijung Ban, Jae-Jun Im, Wooseok Kim, Manho
Author_xml	– sequence: 1 givenname: Mijung surname: Lee fullname: Lee, Mijung organization: Department of Neurology, Seoul National University Hospital – sequence: 2 givenname: Jae-Jun surname: Ban fullname: Ban, Jae-Jun organization: Department of Neurology, Seoul National University Hospital – sequence: 3 givenname: Wooseok surname: Im fullname: Im, Wooseok email: imwooseok@gmail.com organization: Department of Neurology, Seoul National University Hospital – sequence: 4 givenname: Manho surname: Kim fullname: Kim, Manho email: kimmanho@snu.ac.kr organization: Department of Neurology, Seoul National University Hospital, Protein Metabolism Medical Research Center, College of Medicine, Seoul National University
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Publisher	The Korean Society for Biotechnology and Bioengineering Springer Nature B.V 한국생물공학회
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SubjectTerms	Alzheimer's disease ambient temperature Analysis Biotechnology cell communication Cell culture Cellular biology Chemistry Chemistry and Materials Science disease course Disease management exosomes Extracellular vesicles flow cytometry Industrial and Production Engineering Influence long term effects Mammals Physiology Proteins Research Paper RNA storage storage temperature Studies Temperature 생물공학
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Title	Influence of storage condition on exosome recovery
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