Abstract
AbstractThermal engineering at microscale such as the control and measurement of temperature is a key technology in basic biological research and biomaterials development, which remains challenge yet. Here, we engineered the polymeric nanoparticle, in which a fluorescent temperature sensory dye and a photothermal dye were embedded in its polymer matrices, termed nanoHT. When a near infrared laser at 808 nm is illuminated to the particle, it enables to create the subcellular-sized heat spot in a live cell, where fluorescence thermometry allows the read out of the temperature increment concurrently at individual heat spots. Owing to the controlled local heating, we found that the cell death of HeLa cells was induced at the certain temperature at rate of a few seconds. It should be also noted that the cell death was triggered from the very local heat spot at subcellular level. Furthermore, nanoHT was applied for the induction of muscle contraction of the C2C12 myotube by heat. We successfully showed that the heat-induced contraction took place at the limited area of a single myotube according to the alteration of protein-protein interactions related to the contraction event. These studies demonstrated that even a single heat spot provided by a photothermal material could be very effective in altering cellular functions, paving the way for novel photothermal therapies.
Publisher
Cold Spring Harbor Laboratory