Red, far red, or near-infrared photoswitchable drugs offer immense photo-pharmacological advantages due to the higher light penetration through the skin. Such photoactivation is achieved using processes such as two- and three-photon absorption, excited-state absorption, and triplet-triplet annihilation upconversion, which require higher photon fluences (W to kW cm−2) than the resilience constraints of skin (200 mW cm−2). Herein, a generalized approach of cis-to-trans photoisomerization of azobenzenes is demonstrated via triplet sensitization with NIR-I illumination (850 nm) of a new Zn-octa-substituted phthalocyanine photosensitizer, in aqueous medium at 2.62 mW cm−2. The approach is applied to control the heart rate of a frog tadpole via cis-to-trans photoisomerization of an azobenzene-functionalized muscarinic acetylcholine receptor M2 agonist in the phototherapeutic window (730 nm excitation: 42 mW cm−2). This advance highlights a powerful photo-pharmacological strategy for modulation of in vivo activity at 2-4 orders of magnitude lower photon fluences of NIR light compared to established methods.
Noninvasive cardiac modulation via triplet-sensitized photoswitching in the phototherapeutic window / L. Naimovicius, M. Miroshnichenko, E. Opar, H. Holzel, M.-. Morikawa, N. Kimizuka, M. Dapkevicius, J. Lekavicius, E. Radiunas, K. Kazlauskas, V. Cilleros-Mane, F. Riefolo, C. Matera, K. Harmandar, M. Taniguchi, F. Dumoulin, J.S. Lindsey, P. Bharmoria, P. Gorostiza, K. Moth-Poulsen. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 16:1(2025), pp. 6377.1-6377.13. [10.1038/s41467-025-61301-3]
Noninvasive cardiac modulation via triplet-sensitized photoswitching in the phototherapeutic window
C. Matera;
2025
Abstract
Red, far red, or near-infrared photoswitchable drugs offer immense photo-pharmacological advantages due to the higher light penetration through the skin. Such photoactivation is achieved using processes such as two- and three-photon absorption, excited-state absorption, and triplet-triplet annihilation upconversion, which require higher photon fluences (W to kW cm−2) than the resilience constraints of skin (200 mW cm−2). Herein, a generalized approach of cis-to-trans photoisomerization of azobenzenes is demonstrated via triplet sensitization with NIR-I illumination (850 nm) of a new Zn-octa-substituted phthalocyanine photosensitizer, in aqueous medium at 2.62 mW cm−2. The approach is applied to control the heart rate of a frog tadpole via cis-to-trans photoisomerization of an azobenzene-functionalized muscarinic acetylcholine receptor M2 agonist in the phototherapeutic window (730 nm excitation: 42 mW cm−2). This advance highlights a powerful photo-pharmacological strategy for modulation of in vivo activity at 2-4 orders of magnitude lower photon fluences of NIR light compared to established methods.
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