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Home NEWS Science News Biology

A Trojan horse delivery method for miRNA-enriched extracellular vesicles

Bioengineer by Bioengineer
November 20, 2018
in Biology
Reading Time: 3 mins read
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A method for large-scale production of extracellular vesicles enriched with specific microRNAs (miRNAs) has been developed in the Wake Forest Institute for Regenerative Medicine (WFIRM) labs, offering a manufacturing standardization process which may have therapeutic applications and clinical impact.

Extracellular vesicles are currently of particular interest in the scientific community for their therapeutic potential as part of gene and cell-based therapies, but the trick has been producing them in large quantities. They are shed by cells and play an important role in intercellular communication. Exosomes are one type and they are small structures that can fuse with the cell membrane without any help.

In this study, published this month by the journal Tissue Engineering Part C: Methods, lead author Baisong Lu, Ph.D., and colleagues describe the method which addresses the challenges and removes barriers associated with the delivery via exosomes of the miRNAs which are small molecules that have a part in the regulation of gene expression. There are thousands of different types of miRNAs with different functions. For example, some have anti-tumor function while others promote regeneration of bone or muscle.

"By themselves, the miRNAs are unstable and unable to get into the cells themselves. Being able to deliver large quantities of miRNA-enriched exosomes makes it possible to explore therapeutic applications of specific miRNAs," said Lu, an assistant professor of regenerative medicine at WFIRM.

In the study, the researchers show that overexpressing a miRNA precursor in cells enormously increases the specific miRNA content in extracellular vesicles. Growing cells in bioreactors can generate large quantities of miRNA-enriched extracellular vesicles that can be concentrated by tangential flow filtration, a rapid and efficient method for separation and purification of biomolecules. The extracellular vesicles thus produced can enter into cells in vitro and can increase circulating miRNA levels in vivo in animal models.

"Extracellular vesicles and exosomes, in particular, have been of interest as drug delivery vehicles but their use to deliver miRNAs has been hampered by difficulties associated with loading miRNAs into exosomes," said WFIRM Director Anthony Atala, M.D., who is a co-author of the paper. "Other methods are inefficient and incompatible with large-scale preparation so we set out to solve this problem."

In a move that signals the impact of the research, Science Translational Medicine journal writes that the large-scale production method created by WFIRM scientists "could serve as an important template for advancing research and overcoming the lack of method standardization in development of [extracellular vesicle] therapeutics, taking the entire field closer to clinical translation."

"We are pleased that a journal of note like Science Translational Medicine has highlighted this latest research from our institute," said Atala. "One of our goals to advance the field of regenerative medicine is to find ways to standardize the manufacturing process involved in creating our technologies. This research is a tremendous step forward."

###

Additional co-authors include Kyung Whan Yoo and Vishruti Makani of WFIRM; Ravi N. Singh, department of cancer biology at Wake Forest Baptist Medical Center; and Ning Li, Huazhong University of Science and Technology, Wuhan, China.

About Wake Forest Institute for Regenerative Medicine: The Wake Forest Institute for Regenerative Medicine is recognized as an international leader in translating scientific discovery into clinical therapies, with many world firsts, including the development and implantation of the first engineered organ in a patient. More than 450 scientists collaborate on regenerative medicine research at the institute, the largest in the world, working on more than 40 different tissues and organs. The institute is part of Wake Forest University and is located in the Innovation Quarter in downtown Winston-Salem, NC. Through partnerships and collaborations with many regenerative medicine centers internationally, the institute, which is driven by the urgent needs of patients, is making a global difference in the world of regenerative medicine.

Media Contact

Bonnie Davis
[email protected]
336-713-1597
@wakehealth

http://www.wfubmc.edu

https://newsroom.wakehealth.edu/News-Releases/2018/11/A-Trojan-Horse-Delivery-Method-for-miRNA-enriched-Extracellular-Vesicles

Related Journal Article

http://dx.doi.org/10.1089/ten.tec.2018.0249

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