Your search keyword '"Lam, Wing Ki"' showing total 4 results

1. Glutathione-responsive Aggregation-induced Emission Photosensitizers for Enhanced Photodynamic Therapy of Lung Cancer

Author

Sun, Feiyi, Chen, Yuyang, Lam, Wing Ki Kristy, Du, Wutong, Liu, Qingqing, Han, Fei, Li, Dan, Lam, Wing Yip, Sun, Jianwei, Kwok, Ryan Tsz Kin, Tang, Benzhong, Sun, Feiyi, Chen, Yuyang, Lam, Wing Ki Kristy, Du, Wutong, Liu, Qingqing, Han, Fei, Li, Dan, Lam, Wing Yip, Sun, Jianwei, Kwok, Ryan Tsz Kin, and Tang, Benzhong

Abstract

Lung cancer, a highly prevalent and lethal form of cancer, is often associated with oxidative stress. Photodynamic therapy (PDT) has emerged as a promising alternative therapeutic tool in cancer treatments, but its efficacy is closely correlated to the photosensitizers generating reactive oxygen species (ROS) and the antioxidant capacity of tumor cells. In particular, glutathione (GSH) can reduce the ROS and thus compromise PDT efficacy. In this study, a GSH-responsive near-infrared photosensitizer (TBPPN) based on aggregation-induced emission for real-time monitoring of GSH levels and enhanced PDT for lung cancer treatment is developed. The strategic design of TBPPN, consisting of a donor–acceptor structure and incorporation of dinitrobenzene, enables dual functionality by not only the fluorescence being activated by GSH but also depleting GSH to enhance the cytotoxic effect of PDT. TBPPN demonstrates synergistic PDT efficacy in vitro against A549 lung cancer cells by specifically targeting different cellular compartments and depleting intracellular GSH. In vivo studies further confirm that TBPPN can effectively inhibit tumor growth in a mouse model with lung cancer, highlighting its potential as an integrated agent for the diagnosis and treatment of lung cancer. This approach enhances the effectiveness of PDT for lung cancer and deserves further exploration of its potential for clinical application. © 2024 Wiley-VCH GmbH.

Published

2024

2. An Alkaline Phosphatase-Responsive Aggregation-Induced Emission Photosensitizer for Selective Imaging and Photodynamic Therapy of Cancer Cells

Author

Lam, Wing Ki, Chau, Hon Chung, Yu, Eric Yan Hung, Sun, Feiyi, Lam, Wing Yip, Ding, Dan, Kwok, Tsz Kin, Sun, Jianwei, He, Xuewen, Tang, Benzhong, Lam, Wing Ki, Chau, Hon Chung, Yu, Eric Yan Hung, Sun, Feiyi, Lam, Wing Yip, Ding, Dan, Kwok, Tsz Kin, Sun, Jianwei, He, Xuewen, and Tang, Benzhong

Abstract

Fluorescence-guided photodynamic therapy (PDT) has been considered as an emerging strategy for precise cancer treatment by making use of photosensitizers (PSs) with reactive oxygen species (ROS) generation. Some efficient PSs have been reported in recent years, but multifunctional PSs that are responsive to cancer-specific biomarkers are rarely reported. In this study, we introduced a phosphate group as a cancer-specific biomarker of alkaline phosphatase (ALP) on a PS with the features of aggregation-induced emission (AIE) for cancer cell imaging and therapy. In cancer cells with high ALP expression, the phosphate group on the AIE probe is selectively hydrolyzed by ALP. Consequently, the hydrophobic probe residue is aggregated in aqueous media and gives a “turn on” fluorescent response. Moreover, fluorescence-guided PDT was realized by the aggregates of probe residue with strong ROS generation efficiency under white light irradiation. Overall, this work presents a strategy of applying ALP-responsive AIE PS for specific imaging cancer cells and succeeding with specific PDT upon the cancer biomarker stimulated responsive reactions.

Published

2023

3. Design of Smart Aggregates: Toward Rapid Clinical Diagnosis of Hyperlipidemia in Human Blood

Author

Sun, Feiyi, Zhao, Wei, Shen, Hanchen, Fan, Ni, Zhang, Jianyu, Liu, Qingqing, Xu, Changhuo, Luo, Jiaming, Zhao, Mengying, Chen, Yuyang, Lam, Wing Ki, Yang, Xueqin, Kwok, Tsz Kin, Lam, Wing Yip, Sun, Jianwei, Zhang, Hongfei, Tang, Benzhong, Sun, Feiyi, Zhao, Wei, Shen, Hanchen, Fan, Ni, Zhang, Jianyu, Liu, Qingqing, Xu, Changhuo, Luo, Jiaming, Zhao, Mengying, Chen, Yuyang, Lam, Wing Ki, Yang, Xueqin, Kwok, Tsz Kin, Lam, Wing Yip, Sun, Jianwei, Zhang, Hongfei, and Tang, Benzhong

Abstract

Molecular aggregates with environmental responsive properties are desired for their wide practical applications such as bioprobes. Here, a series of smart near-infrared (NIR) luminogens for hyperlipidemia (HLP) diagnosis is reported. The aggregates of these molecules exhibit a twisted intramolecular charge-transfer effect in aqueous media, but aggregation-induced emission in highly viscous media due to the restriction of the intramolecular motion. These aggregates, which can autonomously respond to different environments via switching the aggregation state without changing their chemical structures are described, as “smart aggregates”. Intriguingly, these luminogens demonstrate NIR-II and NIR-III luminescence with ultralarge Stokes shifts (>950 nm). Both in vitro detection and in vivo imaging of HLP can be realized in a mouse model. Linear relationships exist between the emission intensity and multiple pathological parameters in blood samples of HLP patients. Thus, the design of smart aggregate facilitates rapid and accurate detection of HLP and provides a promising attempt in aggregate science.

Published

2022

4. Development of an HPV Genotype Detection Platform Based on Aggregation-Induced Emission (AIE) and Flow-Through Hybridization Technologies

Author

Ma, Chun Ho, Li, Liejun, Cai, Shuheng, Lin, Pei, Lam, Wing Ki, Lee, Tsz Him, Kwok, Tsz Kin, Xie, Longxu, Kun, Tit-Sang (Tom), Tang, Benzhong, Ma, Chun Ho, Li, Liejun, Cai, Shuheng, Lin, Pei, Lam, Wing Ki, Lee, Tsz Him, Kwok, Tsz Kin, Xie, Longxu, Kun, Tit-Sang (Tom), and Tang, Benzhong

Abstract

Genetic mutations can cause life-threatening diseases such as cancers and sickle cell anemia. Gene detection is thus of importance for disease-risk prediction or early diagnosis and treatment. Apart from genetic defects, gene detection techniques can also be applied to gene-related diseases with high risk to human health such as human papillomavirus (HPV) infection. HPV infection has been strongly linked to cervical cancer. To achieve a high-throughput HPV gene detection platform, the flow-through hybridization system appears to be one of the commercialized diagnostic techniques for this purpose. The flow-through hybridization technique is based on a vacuum-guided flow of DNA fragments which is continuously directed toward the oligoprobes that are immobilized on the testing membrane. However, the conventional colorimetric method and signal read-out approach suffers a problem of low sensitivity. On the contrary, fluorescence approaches allow more sensitive detection and broad sensing ranges. In this work, a fluorescent dye HCAP, which possesses aggregation-induced emission (AIE) properties and is responsive to alkaline phosphatase, was developed and applied to the flow-through hybridization platform to achieve HPV genome diagnosis of clinical samples. Also, an automatic membrane reader was constructed based on the AIE-based diagnosis platform which can identify the diagnostic result of patient DNA with a total concordance rate of 100% in the clinical trial.

Published

2022