Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics
Molecular imaging via afterglow luminescence minimizes tissue autofluorescence and increases the signal-to-noise ratio. However, the induction of afterglow requires the prior irradiation of light, which is attenuated by scattering and absorption in tissue. Here we report the development of organic n...
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sg-ntu-dr.10356-1643812023-06-21T08:05:28Z Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics Xu, Cheng Huang, Jingsheng Jiang, Yuyan He, Shasha Zhang, Chi Pu, Kanyi Lee Kong Chian School of Medicine (LKCMedicine) School of Chemistry, Chemical Engineering and Biotechnology Engineering::Chemical technology Nanoparticles Molecular Imaging Molecular imaging via afterglow luminescence minimizes tissue autofluorescence and increases the signal-to-noise ratio. However, the induction of afterglow requires the prior irradiation of light, which is attenuated by scattering and absorption in tissue. Here we report the development of organic nanoparticles producing ultrasound-induced afterglow, and their proof-of-concept application in cancer immunotheranostics. The 'sonoafterglow' nanoparticles comprise a sonosensitizer acting as an initiator to produce singlet oxygen and subsequently activate a substrate for the emission of afterglow luminescence, which is brighter and detectable at larger tissue depths (4 cm) than previously reported light-induced afterglow. We formulated sonoafterglow nanoparticles containing a singlet-oxygen-cleavable prodrug for the immune-response modifier imiquimod that specifically turn on in the presence of the inflammation biomarker peroxynitrite, which is overproduced by tumour-associated M1-like macrophages. Systemic delivery of the nanoparticles allowed for sonoafterglow-guided treatment of mice bearing subcutaneous breast cancer tumours. The high sensitivity and depth of molecular sonoafterglow imaging may offer advantages for the real-time in vivo monitoring of physiopathological processes. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version K.P. acknowledges financial support from the Singapore National Research Foundation (NRF) (NRF-NRFI07-2021-0005), and the Singapore Ministry of Education, Academic Research Fund Tier 1 (2019-T1-002-045, RG125/19, RT05/20) and Academic Research Fund Tier 2 (MOE-T2EP30220-0010). 2023-01-18T05:51:01Z 2023-01-18T05:51:01Z 2022 Journal Article Xu, C., Huang, J., Jiang, Y., He, S., Zhang, C. & Pu, K. (2022). Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics. Nature Biomedical Engineering. https://dx.doi.org/10.1038/s41551-022-00978-z 2157-846X https://hdl.handle.net/10356/164381 10.1038/s41551-022-00978-z 36550302 2-s2.0-85144479826 en NRF-NRFI07-2021-0005 2019-T1-002-045 RG125/19 RT05/20 MOE-T2EP30220-0010 Nature Biomedical Engineering © 2022 The Author(s), under exclusive licence to Springer Nature Limited. All rights reserved. This version of the article has been accepted for publication, after peer review and is subject to Springer Nature’s AM terms of use, but is not the Version of Record and does not reflect post-acceptance improvements, or any corrections. The Version of Record is available online at: http://dx.doi.org/10.1038/s41551-022-00978-z. application/pdf |
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Engineering::Chemical technology Nanoparticles Molecular Imaging Xu, Cheng Huang, Jingsheng Jiang, Yuyan He, Shasha Zhang, Chi Pu, Kanyi Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| description |
Molecular imaging via afterglow luminescence minimizes tissue autofluorescence and increases the signal-to-noise ratio. However, the induction of afterglow requires the prior irradiation of light, which is attenuated by scattering and absorption in tissue. Here we report the development of organic nanoparticles producing ultrasound-induced afterglow, and their proof-of-concept application in cancer immunotheranostics. The 'sonoafterglow' nanoparticles comprise a sonosensitizer acting as an initiator to produce singlet oxygen and subsequently activate a substrate for the emission of afterglow luminescence, which is brighter and detectable at larger tissue depths (4 cm) than previously reported light-induced afterglow. We formulated sonoafterglow nanoparticles containing a singlet-oxygen-cleavable prodrug for the immune-response modifier imiquimod that specifically turn on in the presence of the inflammation biomarker peroxynitrite, which is overproduced by tumour-associated M1-like macrophages. Systemic delivery of the nanoparticles allowed for sonoafterglow-guided treatment of mice bearing subcutaneous breast cancer tumours. The high sensitivity and depth of molecular sonoafterglow imaging may offer advantages for the real-time in vivo monitoring of physiopathological processes. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Xu, Cheng Huang, Jingsheng Jiang, Yuyan He, Shasha Zhang, Chi Pu, Kanyi |
| format |
Article |
| author |
Xu, Cheng Huang, Jingsheng Jiang, Yuyan He, Shasha Zhang, Chi Pu, Kanyi |
| author_sort |
Xu, Cheng |
| title |
Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| title_short |
Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| title_full |
Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| title_fullStr |
Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| title_full_unstemmed |
Nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| title_sort |
nanoparticles with ultrasound-induced afterglow luminescence for tumour-specific theranostics |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164381 |
| _version_ |
1772827052787892224 |