Zhixiang Pan scite author profile

Controlled activation is a critical component in prodrug development. Herein we report a concentration-sensitive platform approach for bioorthogonal prodrug activation by taking advantage of reaction kinetics. Using two “click and release” systems, we demonstrate enrichment and prodrug activation specifically in mitochondria to demonstrate the principle of this approach. In both cases, the payload (doxorubicin or carbon monoxide) was released inside the mitochondrial matrix upon the enrichment-initiated click reaction. Furthermore, mitochondria-targeted delivery yielded substantial augmentation of functional biological and therapeutic effects in vitro and in vivo, as compared to controls that did not result in enrichment. This method is thus a platform for targeted drug delivery amenable to conjugation with a variety of molecules and not limited to cell-surface delivery. Taken together, these two click and release pairs clearly demonstrate the concept of enrichment-triggered drug release and critical feasibility of treating clinically relevant diseases such as acute liver injury and cancer.

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Click and release: bioorthogonal approaches to “on-demand” activation of prodrugs

Pan

et al. 2019

Chem. Soc. Rev.

257

201

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Esterase‐Sensitive Prodrugs with Tunable Release Rates and Direct Generation of Hydrogen Sulfide

et al. 2016

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Prodrugs that release hydrogen sulfide upon esterase-mediated cleavage of an ester group followed by lactonization are described herein. By modifying the ester group and thus its susceptibility to esterase, and structural features critical to the lactonization rate, H2S release rates can be tuned. Such prodrugs directly release hydrogen sulfide without the involvement of perthiol species, which are commonly encountered with existing H2S donors. Additionally, such prodrugs can easily be conjugated to another non-steroidal anti-inflammatory agent, leading to easy synthesis of hybrid prodrugs. As a biological validation of the H2S prodrugs, the anti-inflammatory effects of one such prodrug were examined by studying its ability to inhibit LPS-induced TNF-α production in RAW 264.7 cells. This type of H2S prodrugs shows great potential as both research tools and therapeutic agents.

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Click and Release: A Chemical Strategy toward Developing Gasotransmitter Prodrugs by Using an Intramolecular Diels–Alder Reaction

et al. 2016

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Prodrug strategies have been proven to be a very effective way of addressing delivery problems. Much of the chemistry in prodrug development relies on the ability to mask an appropriate functional group, which can be removed under appropriate conditions. However, developing organic prodrugs of gasotransmitters represent unique challenges. This is especially true with carbon monoxide, which does not have an easy "handle" for bioreversible derivatization. By taking advantage of an intramolecular Diels-Alder reaction, we have developed a prodrug strategy for preparations of organic CO prodrugs that are stable during synthesis and storage, and yet readily release CO with tunable release rates under near physiological conditions. The effectiveness of the CO prodrug system in delivering a sufficient quantity of CO for possible therapeutic applications has been studied using a cell culture anti-inflammatory assay and a colitis animal model. These studies fully demonstrate the proof of concept, and lay a strong foundation for further medicinal chemistry work in developing organic CO prodrugs.

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Organic CO Prodrugs: Structure–CO‐Release Rate Relationship Studies

Pan

Chittavong

et al. 2017

Chemistry A European J

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Carbon monoxide (CO) is an endogenously produced gasotransmitter in mammals, and may have signaling roles in bacteria as well. It has many recognized therapeutic effects. A significant challenge in this field is the development of pharmaceutically acceptable forms of CO delivery with controllable and tunable release rates. Herein, we describe the structure-release rate studies of the first class of organic CO-prodrugs that release CO in aqueous solution at neutral pH.

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Zhixiang Pan

Enrichment-triggered prodrug activation demonstrated through mitochondria-targeted delivery of doxorubicin and carbon monoxide

Click and release: bioorthogonal approaches to “on-demand” activation of prodrugs

Esterase‐Sensitive Prodrugs with Tunable Release Rates and Direct Generation of Hydrogen Sulfide

Click and Release: A Chemical Strategy toward Developing Gasotransmitter Prodrugs by Using an Intramolecular Diels–Alder Reaction

Organic CO Prodrugs: Structure–CO‐Release Rate Relationship Studies

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