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An electrogenetic interface to program mammalian gene expression by direct current

Jinbo Huang, Shuai Xue, P. Buchmann, Ana P. Teixeira, Martin Fussenegger

2023Nature Metabolism72 citationsDOIOpen Access PDF

Abstract

Wearable electronic devices are playing a rapidly expanding role in the acquisition of individuals' health data for personalized medical interventions; however, wearables cannot yet directly program gene-based therapies because of the lack of a direct electrogenetic interface. Here we provide the missing link by developing an electrogenetic interface that we call direct current (DC)-actuated regulation technology (DART), which enables electrode-mediated, time- and voltage-dependent transgene expression in human cells using DC from batteries. DART utilizes a DC supply to generate non-toxic levels of reactive oxygen species that act via a biosensor to reversibly fine-tune synthetic promoters. In a proof-of-concept study in a type 1 diabetic male mouse model, a once-daily transdermal stimulation of subcutaneously implanted microencapsulated engineered human cells by energized acupuncture needles (4.5 V DC for 10 s) stimulated insulin release and restored normoglycemia. We believe this technology will enable wearable electronic devices to directly program metabolic interventions.

Topics & Concepts

Wearable computerInterface (matter)TransdermalDirect currentWearable technologyTransgeneComputer scienceNanotechnologyVoltageCell biologyMedicineGeneBiologyElectrical engineeringMaterials scienceEmbedded systemPharmacologyEngineeringGeneticsMaximum bubble pressure methodParallel computingBubbleNeuroscience and Neural EngineeringMolecular Communication and NanonetworksAdvanced Sensor and Energy Harvesting Materials
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