Protein-Activatable Diarylethene Monomer as a Smart Trigger of Noninvasive Control Over Reversible Generation of Singlet Oxygen: A Facile, Switchable, Theranostic Strategy for Photodynamic-Immunotherapy

Cheng, Hong; Qiao, Bin; Li, Hao; Cao, Jin; Luo, Yuanli; Swamy, K. M.K.; Zhao, Jing; Wang, Zhigang; Lee, Jin Yong; Lü, Xing; Yoon, Juyoung

doi:10.1021/jacs.0c12851

Cited by 83 publications

(58 citation statements)

References 71 publications

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“…A 1:2 demultiplexer based on a Zn 2+ -terpyridine-Bodipy conjugate was reported to remain in an “ON” state, unless 1 O 2 generated by photosensitization triggered apoptotic response, which resulted in autonomous switching “OFF” of 1 O 2 generation ( Turan et al, 2018 ). Another approach, which allows for a switchable strategy for photodynamic-immunotherapy, takes advantage of a switch that controls the 1 O 2 generation of self-assembled albumin nanotheranostics ( Cheng et al, 2021 ). In another study, Yoon et al reported a nanomaterial which self-assembles from phthalocyanine building blocks.…”

Section: Novel Approaches To Improve Outcomementioning

confidence: 99%

Photodynamic Therapy—Current Limitations and Novel Approaches

2021

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Photodynamic therapy (PDT) mostly relies on the generation of singlet oxygen, via the excitation of a photosensitizer, so that target tumor cells can be destroyed. PDT can be applied in the settings of several malignant diseases. In fact, the earliest preclinical applications date back to 1900’s. Dougherty reported the treatment of skin tumors by PDT in 1978. Several further studies around 1980 demonstrated the effectiveness of PDT. Thus, the technique has attracted the attention of numerous researchers since then. Hematoporphyrin derivative received the FDA approval as a clinical application of PDT in 1995. We have indeed witnessed a considerable progress in the field over the last century. Given the fact that PDT has a favorable adverse event profile and can enhance anti-tumor immune responses as well as demonstrating minimally invasive characteristics, it is disappointing that PDT is not broadly utilized in the clinical setting for the treatment of malignant and/or non-malignant diseases. Several issues still hinder the development of PDT, such as those related with light, tissue oxygenation and inherent properties of the photosensitizers. Various photosensitizers have been designed/synthesized in order to overcome the limitations. In this Review, we provide a general overview of the mechanisms of action in terms of PDT in cancer, including the effects on immune system and vasculature as well as mechanisms related with tumor cell destruction. We will also briefly mention the application of PDT for non-malignant diseases. The current limitations of PDT utilization in cancer will be reviewed, since identifying problems associated with design/synthesis of photosensitizers as well as application of light and tissue oxygenation might pave the way for more effective PDT approaches. Furthermore, novel promising approaches to improve outcome in PDT such as selectivity, bioengineering, subcellular/organelle targeting, etc. will also be discussed in detail, since the potential of pioneering and exceptional approaches that aim to overcome the limitations and reveal the full potential of PDT in terms of clinical translation are undoubtedly exciting. A better understanding of novel concepts in the field (e.g. enhanced, two-stage, fractional PDT) will most likely prove to be very useful for pursuing and improving effective PDT strategies.

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Section: Novel Approaches To Improve Outcomementioning

confidence: 99%

Photodynamic Therapy—Current Limitations and Novel Approaches

2021

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“…40 Three types of water-soluble 3D SOFs (SOFs 1-3) were used to construct self-assembled nanoparticles. These SOFs were co-assembled with tetracationic monomers T4-6 and cucurbit [8]uril (CB [8]). Monomers T4-6 share a similar (4-phenyl)pyridinium building block with different positive or neutral terminal groups.…”

Section: Self-assembly Of Sof and Mthpcmentioning

confidence: 99%

“…The construction procedure of SOFs is consistent with previously reported studies. [35][36][37][38][39] Generally, T4-6 were first dissolved in deionized water ([T4-6] = 1 mM) and CB [8] powder was added into the solution. The mixture was heated and then cooled to room temperature to form SOFs 1-3. mTHPC-SOFs 1-3 were constructed by the addition of mTHPC DMSO solution into SOF aqueous solution slowly and dialyzed against deionized water.…”

Section: Self-assembly Of Sof and Mthpcmentioning

confidence: 99%

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Self-assembled nanoparticles based on supramolecular-organic frameworks and temoporfin for an enhanced photodynamic therapy in vitro and in vivo

Mao

Zhao

et al. 2022

J. Mater. Chem. B

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“…148 As for photoisomerization, spiropyran and its derivatives are typical examples to be used in a controllable strategy. 149 They can become hydrophilic from hydrophobic under high-energy light irradiation owing to the formation of a ring-opening structure, which was grafted onto mesoporous silica-coated UCNPs (UCNP@mSiO 2 ) to control drug access. 150 Specifically, in the hydrophobic spiropyran layer, hydrophobic drugs could be sealed in the pores of silica, whereas the hydrophilic spiropyran layer caused by local UV light from UCNPs upon NIR irradiation would lead to the release of the drug for therapy.…”

Section: Photochemistry-based Delivery Nanosystemsmentioning

confidence: 99%