AI Article Synopsis
- Glucose-sensitive delivery systems can help manage diabetes by releasing insulin when blood sugar levels are high, but they often struggle in high sugar environments, leading to ineffective short-term insulin release.
- The researchers developed dually crosslinked insulin micelles (DCM@insulin) that enhance insulin release responsiveness and stability in hyperglycemic conditions using special triblock polymers.
- The DCM@insulin system showed better performance in maintaining normal blood glucose levels for 6 hours compared to traditional single-crosslinked systems, suggesting a promising new tool for diabetes treatment.
Article Abstract
Glucose -sensitive delivery systems hold great promise as a therapeutic approach for high-incidence diabetes owing to their ability to release insulin whenever elevated glycemia is detected. However, they are unstable in a hyperglycemic environment, which leads to short-term sustained insulin release. Herein, we designed dually crosslinked insulin polyionic micelles (DCM@insulin) based on triblock polymers of -glycol and phenylboronic acid-functionalized poly(ethylene glycol)-poly(dimethylamino carbonate)-poly(dimethylamino-trimethylene carbonate) (mPEG-P(AC--MPD)-PDMAC and mPEG-P(AC--MAPBA)-PDMATC, respectively) for sustained glucose-responsive insulin release. DCM@insulin with a phenylboronic acid ester structure (first crosslinking structure) enhanced glycemic responsiveness by regulating insulin release in a hyperglycemic environment. Additionally, the UV-crosslinking structure (second crosslinking structure) formed by the residual double bonds in AC units endowed DCM@insulin with the ability to effectively protect the loaded insulin against protease degradation and avoid burst release under multiple insulin release. The findings demonstrated that DCM@insulin effectively maintained glycemic levels (BGLs) within the normal range for 6 h in comparison to single-crosslinked micelles (SCM@insulin). Therefore, the glucose-responsive and dually crosslinked polyionic micelle system exhibits potential as a viable option for the treatment of diabetes.
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| http://dx.doi.org/10.1039/d4bm00314d | DOI Listing |
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