Author: Yu, Cheng; Li, Long; Hu, Pei; Yang, Yan; Wei, Wei; Deng, Xin; Wang, Lu; Tay, Franklin R.; Ma, Jingzhi
Title: Recent Advances in Stimulusâ€Responsive Nanocarriers for Gene Therapy Cord-id: t5p2895j Document date: 2021_5_16
ID: t5p2895j
Snippet: Gene therapy provides a promising strategy for curing monogenetic disorders and complex diseases. However, there are challenges associated with the use of viral delivery vectors. The advent of nanomedicine represents a quantum leap in the application of gene therapy. Recent advances in stimulusâ€responsive nonviral nanocarriers indicate that they are efficient delivery systems for loading and unloading of therapeutic nucleic acids. Some nanocarriers are responsive to cues derived from the inter
Document: Gene therapy provides a promising strategy for curing monogenetic disorders and complex diseases. However, there are challenges associated with the use of viral delivery vectors. The advent of nanomedicine represents a quantum leap in the application of gene therapy. Recent advances in stimulusâ€responsive nonviral nanocarriers indicate that they are efficient delivery systems for loading and unloading of therapeutic nucleic acids. Some nanocarriers are responsive to cues derived from the internal environment, such as changes in pH, redox potential, enzyme activity, reactive oxygen species, adenosine triphosphate, and hypoxia. Others are responsive to external stimulations, including temperature gradients, light irradiation, ultrasonic energy, and magnetic field. Multiple stimuliâ€responsive strategies have also been investigated recently for experimental gene therapy.
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