Journal
ACS BIOMATERIALS SCIENCE & ENGINEERING
Volume 4, Issue 5, Pages 1708-1715Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsbiomaterials.8b00207
Keywords
silk; stabilization; RNA; biologics
Categories
Funding
- NIH [P41 EB002520]
- AFOSR
- DTRA
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The use of mRNA and miRNA as diagnostic parameters and therapeutic agents has drawn wide interest both clinically and in research. However, RNA is a labile molecule, which requires strict storage conditions, often including cold temperatures or dry environments, in order to preserve RNA integrity. Achieving this requires huge costs for storage and added difficulty in transport. To address these issues, we introduce a system to encapsulate and store it long term in dried silk fibroin matrices. At temperatures up to 45 degrees C, mRNA samples stored in lyophilized silk matrices showed good stability over 1 week, as measured by real-time PCR to assess transcript recovery. While the presence of the silk interfered with the generation of cDNA required for quantitation at roughly 1% w/v (400:1 silk:RNA mass), this phenomenon was resolved by the use of commercial RNA purification kits for silk concentrations up to 4% w/v. A higher concentration of silk correlated with increased thermal protection. As an alternative to lyophilization, RNA was simply air-dried in the presence of aqueous fibroin to create storage matrices. While air-dried matrices composed of low silk content were not protective, higher concentrations were protective and progressively lost additional water over time of storage because of the overall hydrophobic nature of the system. Taken together, these findings provide a new and potentially simpler method for preserving RNA samples for long-term storage and transportation, acting primarily on a water exclusion mechanism.
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