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miRCURY Exosome Kits

For enrichment of exosomes and other extracellular vesicles from serum/plasma or cell/urine/CSF samples
  • Excellent recovery of exosomes and other extracellular vesicles
  • Easy and straightforward protocol that takes less than 2 hours
  • No ultracentrifugation or phenol/chloroform steps required
  • Fully compatible with the miRCURY LNA miRNA PCR System
  • Suited for a variety of applications, such as miRNA or RNA profiling
miRCURY Exosome Kits enable high-quality and scalable exosome isolation with an easy protocol that does not require special laboratory equipment. The miRCURY Exosome Serum/Plasma Kit is optimized for serum and plasma samples, while the miRCURY Exosome Cell/Urine/CSF Kit is designed for processing cell-conditioned media, urine and CSF samples. Both kits provide high exosomal recovery and seamless integration with different downstream assays.

Please contact us for further product information, or technical questions.
Cat No./ID: 76603
miRCURY Exosome Serum/Plasma Kit
€316.00
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For isolation of exosomes and other extracellular vesicles from serum or plasma; includes 10 ml Precipitation Buffer A, 10 ml Resuspension Buffer, 200 U Thrombin and 500 µl Thrombin Buffer
Cat No./ID: 76743
miRCURY Exosome Cell/Urine/CSF Kit
€316.00
Order Product
For isolation of exosomes and other extracellular vesicles from cell culture supernatants, urine or CSF; includes 2 x 25 ml Precipitation Buffer B, 10 ml Resuspension Buffer

miRCURY Exosome Kits are intended for molecular biology applications. These products are not intended for the diagnosis, prevention, or treatment of a disease.


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The structure of an exosome.
Exosomes are membrane-encapsulated particles typically ranging from 20 to 120 nm in size and contain multiple macromolecules, including proteins, mRNA and miRNA. They have also recently been reported to contain DNA. A number of surface proteins are found exclusively in exosomes.
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The hypothesis of exosomal shuttling of miRNAs.
According to this hypothesis, cells secrete exosomes that are loaded with distinct sets of miRNAs. Exosomes can travel through the bloodstream and fuse with target cells, thereby delivering their miRNA load. Stoorvogel et al. provides proof of principle that, after being transferred by exosomes, miRNAs can repress mRNAs in target cells. Figure adapted from Stoorvogel et al. 2012, Blood 119 (3): 646.
Performance
Efficient exosome isolation from serum and plasma
The miRCURY Exosome Serum/Plasma Kit is optimized for isolation of exosomes from serum and plasma samples. This kit includes thrombin for efficient isolation of exosomes from plasma. To evaluate the efficiency of exosome isolation, we quantified the fraction of exosomes found in the pellet versus the supernatant, which is normally discarded (see figure Exosome recovery from serum). We observed a very high enrichment rate of extracellular vesicles.

Efficient exosome isolation from cell-conditioned media, urine and CSF
The miRCURY Exosome Cell/Urine/CSF Kit is optimized for isolation of exosomes from cell-conditioned media, urine and CSF samples. In studies comparing the fraction of exosomes in the pellet versus supernatant for these sample types, we observed a very high exosome enrichment rate (see figures Exosome recovery from cell-conditioned media and Exosome recovery from urine).

Typically, the amount of miRNA present in urine and CSF samples is very limited in healthy individuals. Therefore, we highly recommend performing an exosome isolation of these biofluids prior to RNA isolation and PCR profiling. This allows you to use the exosome isolation kit as a way of concentrating the sample, while keeping the amount of potential PCR inhibitors to a minimum (see figure Detect more miRNAs in biofluids using exosome isolation kits).
Principle
The miRCURY Exosome Kits utilize precipitation to enrich for exosomes and other extracellular vesicles. They are optimized to provide efficient isolation of exosomes from various biofluid samples, such as cell-conditioned media, urine, CSF, serum or plasma. The protocols are easy to use and take just two hours.

Although they are not species specific, the kit protocols are optimized for working with human biofluids. Refer to the miRCURY Exosome Kits Handbook for recommended starting material for different sample types.

Why study exosomes?
Exosomes are cell-derived, membranous particles ranging in size from 20–120 nm, approximately the same size as viruses but considerably smaller than microvesicles (see figure The structure of an exosome). Exosomes are excreted from cells into the surrounding media and can be found in many, if not all, body fluids. Their proposed role as intercellular hormone-like messengers, together with their stability as carrier of proteins and RNA, make them ideal as biomarkers for a variety of diseases and biological processes (see figure The hypothesis of exosomal shuttling of miRNAs).

Exosomes are secreted by most cell types and are formed by the fusion of multivesicular bodies with the plasma membrane. They are believed to be involved in a number of functions, including:
  • Immune regulation (e.g., tumor-derived exosomes may help tumors evade the immune response)
  • Blood coagulation
  • Cell migration
  • Cell differentiation
  • Cell-to-cell communication

Microvesicles that are larger than exosomes (up to 1 µm) are typically formed by blebbing of the plasma membrane, whereas exosomes are released via exocytosis from multivesicular bodies of the endosome.
Procedure
Samples are centrifuged to remove cells and debris, as well as cryoprecipitates for previously frozen samples. Precipitation buffer is added, and the samples are incubated for 1 hour at room temperature. Exosomes are pelleted during a 30 minute centrifugation step. After resuspension, the exosomes are ready for downstream analysis.
Applications
The miRCURY Exosome Kits are mainly developed for miRNA/RNA profiling applications.
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