Co-reporter:Fuyu Nian;Yafan Huang;Meiru Song;Juan-Juan Chen;Jinping Xue
Journal of Materials Chemistry B 2017 vol. 5(Issue 31) pp:6227-6232
Publication Date(Web):2017/08/09
DOI:10.1039/C7TB01295K
A unique zirconium-based framework named N3-UiO-66-NH2, which can be used as a fabricated material to achieve the dual functional chemical modification of UiO-66, was synthesized and demonstrated. This work offers a facile and selective covalent post-synthetic modification of UiO-66 by different chemical reactions related to azide- and amino-groups, respectively. Using N3-UiO-66-NH2 as a fabricated material, a newly dual functionalized MOF named E-UiO-66-Pc, in which a carboxyl substituted zinc phthalocyanine (Pc) and Erlotinib (E) were employed as a photosensitizer and targeting moiety, was designed and synthesized via amidation and click chemistry, respectively. The photochemical properties, tumor specificity and anticancer activity of E-UiO-66-Pc were investigated. We further demonstrated that it is viable to achieve facile and selective covalent post-synthetic modification of N3-UiO-66-NH2 with Pc and E and obtained a series of functionalized UiO-66 nanomaterials. The Pc-containing UiO-66 nanomaterials exhibit high photodynamic activity, and the Erlotinib-containing UiO-66 nanomaterials show obvious dark cytotoxicity and high selective affinity to cancer cells. E-UiO-66-Pc reveals cooperative photodynamic and targeted anticancer activity. To the best of our knowledge, this is the only example of UiO-66 with two different chemical handles (–NH2 and –N3) anchoring to different functional molecules via amidation and click chemistry, respectively.
Co-reporter:Xiao-Qin Zhou;Lu-Bo Meng;Qi Huang;Jun Li;Ke Zheng;Feng-Ling Zhang; Jian-Yong Liu ; Jin-Ping Xue
ChemMedChem 2015 Volume 10( Issue 2) pp:304-311
Publication Date(Web):
DOI:10.1002/cmdc.201402401
Abstract
The combination of photodynamic therapy and chemotherapy is a promising strategy to overcome growing problems in contemporary medicine, such as low therapeutic efficacy and drug resistance. Four zinc(II) phthalocyanine–coumarin conjugates were synthesized and characterized. In these complexes, zinc(II) phthalocyanine was used as the photosensitizing unit, and a coumarin derivative was selected as the cytostatic moiety; the two components were linked via a tri(ethylene glycol) chain. These conjugates exhibit high photocytotoxicity against HepG2 human hepatocarcinoma cells, with low IC50 values in the range of 0.014–0.044 μM. The high photodynamic activities of these conjugates are in accordance with their low aggregation tendency and high cellular uptake. One of these conjugates exhibits high photocytotoxicity and significantly higher chemocytotoxicity. The results clearly show that the two antitumor components in these conjugates work in a cooperative fashion. As shown by confocal microscopy, the conjugates can localize in the mitochondria and lysosomes, and one of the conjugates can also localize in the cell nuclei.
Co-reporter:Dr. Feng-Ling Zhang;Qi Huang; Jian-Yong Liu; Ming-Dong Huang; Jin-Ping Xue
ChemMedChem 2015 Volume 10( Issue 2) pp:312-320
Publication Date(Web):
DOI:10.1002/cmdc.201402373
Abstract
Targeted photodynamic therapy is a new promising therapeutic strategy to overcome growing problems in contemporary medicine, such as drug toxicity and drug resistance. A series of erlotinib–zinc(II) phthalocyanine conjugates were designed and synthesized. Compared with unsubstituted zinc(II) phthalocyanine, these conjugates can successfully target EGFR-overexpressing cancer cells owing to the presence of the small molecular-target-based anticancer agent erlotinib. All conjugates were found to be essentially non-cytotoxic in the absence of light (up to 50 μM), but upon illumination, they show significantly high photo-cytotoxicity toward HepG2 cells, with IC50 values as low as 9.61–91.77 nM under a rather low light dose (λ=670 nm, 1.5 J cm−2). Structure–activity relationships for these conjugates were assessed by determining their photophysical/photochemical properties, cellular uptake, and in vitro photodynamic activities. The results show that these conjugates are highly promising antitumor agents for molecular-target-based photodynamic therapy.
Co-reporter:Feng-Ling Zhang, Qi Huang, Ke Zheng, Jun Li, Jian-Yong Liu and Jin-Ping Xue
Chemical Communications 2013 vol. 49(Issue 83) pp:9570-9572
Publication Date(Web):19 Aug 2013
DOI:10.1039/C3CC45487H
In this study, two phthalocyanine–erlotinib conjugates linked by an oligoethylene glycol chain have been synthesised and fully characterised. Having erlotinib as the targeting moiety, the two conjugates exhibited high specific affinity to HepG2 cancer cells and tumour tissues, therefore leading to high photodynamic activity.
Co-reporter:Xiao Jia ; Feng-Feng Yang ; Jun Li ; Jian-Yong Liu
Journal of Medicinal Chemistry 2013 Volume 56(Issue 14) pp:5797-5805
Publication Date(Web):June 20, 2013
DOI:10.1021/jm400722d
A new series of zinc(II) phthalocyanine derivatives have been synthesized and characterized. These macrocycles exhibited a sharp absorption band in the red visible region in DMF, which indicated that they were dissolved well and almost did not aggregate in this solvent. Compared with the unsubstituted zinc(II) phthalocyanine, all these phthalocyanines have a red-shifted Q-band (at 678–699 vs 670 nm) and exhibit a relatively weaker fluorescence emission and a higher efficiency at generating singlet oxygen. The monosubstituted photosensitizers also exhibit high photocytotoxicity toward HepG2 human hepatocarcinoma cells with IC50 values as low as 0.02–0.05 μM (λ = 670 nm, 80 mW·cm–2, 1.5 J·cm–2). The high photodynamic activities of these compounds are in accordance with their low aggregation tendency and high cellular uptake. Their structure–activity relationship was assessed by determining the photophysical properties, cellular uptake, and in vitro photodynamic activities of this series of compounds. As shown by confocal microscopy, monosubstituted phthalocyanines can target the mitochondria and lysosomes of the cells, and tetrasubstituted phthalocyanines tend to target the lysosomes of the cells.
Co-reporter:Jian-Yong Liu, Jun Li, Xiao Yuan, Wan-Ming Wang, Jin-Ping Xue
Photodiagnosis and Photodynamic Therapy (March 2016) Volume 13() pp:341-343
Publication Date(Web):1 March 2016
DOI:10.1016/j.pdpdt.2015.07.003
•The tetra-α-substituted phthalocyanine TP1 is a promising antitumor agent for PDT.•TP1 exhibits an extremely high photocytotoxicity against HepG2 and A375 cells.•TP1 exhibits a low aggregation tendency.•TP1 exhibits a high cellular uptake and efficiency in generating intracellular ROS.•The tetra-β-substituted phthalocyanine TP2 almost does not show photocytotoxicity.
Co-reporter:Feng-Ling Zhang, Qi Huang, Ke Zheng, Jun Li, Jian-Yong Liu and Jin-Ping Xue
Chemical Communications 2013 - vol. 49(Issue 83) pp:NaN9572-9572
Publication Date(Web):2013/08/19
DOI:10.1039/C3CC45487H
In this study, two phthalocyanine–erlotinib conjugates linked by an oligoethylene glycol chain have been synthesised and fully characterised. Having erlotinib as the targeting moiety, the two conjugates exhibited high specific affinity to HepG2 cancer cells and tumour tissues, therefore leading to high photodynamic activity.
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