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Light Control of Insulin Release and Blood Glucose Using an Injectable Photoactivated Depot.


ABSTRACT: In this work we demonstrate that blood glucose can be controlled remotely through light stimulated release of insulin from an injected cutaneous depot. Human insulin was tethered to an insoluble but injectable polymer via a linker, which was based on the light cleavable di-methoxy nitrophenyl ethyl (DMNPE) group. This material was injected into the skin of streptozotocin-treated diabetic rats. We observed insulin being released into the bloodstream after a 2 min trans-cutaneous irradiation of this site by a compact LED light source. Control animals treated with the same material, but in which light was blocked from the site, showed no release of insulin into the bloodstream. We also demonstrate that additional pulses of light from the light source result in additional pulses of insulin being absorbed into circulation. A significant reduction in blood glucose was then observed. Together, these results demonstrate the feasibility of using light to allow for the continuously variable control of insulin release. This in turn has the potential to allow for the tight control of blood glucose without the invasiveness of insulin pumps and cannulas.

SUBMITTER: Sarode BR 

PROVIDER: S-EPMC5101575 | biostudies-literature | 2016 Nov

REPOSITORIES: biostudies-literature

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Light Control of Insulin Release and Blood Glucose Using an Injectable Photoactivated Depot.

Sarode Bhagyesh R BR   Kover Karen K   Tong Pei Y PY   Zhang Chaoying C   Friedman Simon H SH  

Molecular pharmaceutics 20161015 11


In this work we demonstrate that blood glucose can be controlled remotely through light stimulated release of insulin from an injected cutaneous depot. Human insulin was tethered to an insoluble but injectable polymer via a linker, which was based on the light cleavable di-methoxy nitrophenyl ethyl (DMNPE) group. This material was injected into the skin of streptozotocin-treated diabetic rats. We observed insulin being released into the bloodstream after a 2 min trans-cutaneous irradiation of th  ...[more]

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