Folate-PEG Conjugates of a Far-Red Light-Activatable Paclitaxel Prodrug to Improve Selectivity toward Folate Receptor-Positive Cancer Cells

Thapa, Pritam; Li, Mengjie; Karki, Radha; Bio, Moses; Rajaputra, Pallavi; Nkepang, Gregory; Woo, Sukyung; You, Youngjae

doi:10.1021/acsomega.7b01105

Cited by 43 publications

(54 citation statements)

References 59 publications

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“…In the dark, low toxicity was observed for all folate-PEG-conjugated PTX prodrugs, as demonstrated by >90% survival of SKOV-3 cells after 72 h of incubation with prodrugs at a concentration of 500 nM. In the presence of light, medium-sized FA-PEG-conjugated prodrugs showed more potent photocytotoxicity (IC 50 s around 130 nM) than prodrugs with no PEG or longer PEG (114 PEG units, IC 50 ∼400 nM) [74].…”

Section: Design Of β-Aminoacrylate-containing Prodrugs and Initial Bimentioning

confidence: 92%

“…To add, we found a high accumulation of our prodrug in the tumor area due to the target delivery. The tumor concentration (>2 µM) was kept above IC 50 from 12 to 48 h after prodrug administration [74]. Prodrug also accumulated in the liver, spleen, and kidney, which are the major organs for metabolism.…”

Section: Pk Properties Of the Prodrugmentioning

confidence: 98%

“…Paclitaxel is another drug that was investigated with our PDT activating system [11,72,74]. PTX was connected to the aminoacrylate linker by an ester bond with an alcoholic hydroxyl group of PTX (Table 1, entry 7).…”

Section: Design Of β-Aminoacrylate-containing Prodrugs and Initial Bimentioning

confidence: 99%

“…We chose FA-PEG 45 -Pc-L-PTX to perform PK investigation because it showed the highest cancer cell accumulation in vitro [74]. The PK studies were performed in mice with an intravenous bolus administration of 2 µmol/kg prodrug [96].…”

Section: Pk Properties Of the Prodrugmentioning

confidence: 99%

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Development of Prodrugs for PDT-Based Combination Therapy Using a Singlet-Oxygen-Sensitive Linker and Quantitative Systems Pharmacology

Nguyen

Woo

et al. 2019

JCM

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Photodynamic therapy (PDT) has become an effective treatment for certain types of solid tumors. The combination of PDT with other therapies has been extensively investigated in recent years to improve its effectiveness and expand its applications. This focused review summarizes the development of a prodrug system in which anticancer drugs are activated locally at tumor sites during PDT treatment. The development of a singlet-oxygen-sensitive linker that can be conveniently conjugated to various drugs and efficiently cleaved to release intact drugs is recapitulated. The initial design of prodrugs, preliminary efficacy evaluation, pharmacokinetics study, and optimization using quantitative systems pharmacology is discussed. Current treatment optimization in animal models using physiologically based a pharmacokinetic (PBPK) modeling approach is also explored. prodrug specifically at the tumor site when PDT treatment is initiated. The drug provides a sustained and extended cell-killing effect, in addition to local damage produced by PDT. While there are a number of other reviews about prodrugs and PDT [9,16,[33][34][35][36][37][38], this case review summarizes the singlet-oxygen-activatable prodrug system developed in our lab, specifically focusing on development of our unique cleavable linker triggered by singlet oxygen, initial evaluation of photodynamic prodrugs utilizing the singlet-oxygen-sensitive linker, quantitative systems pharmacologic analysis, and current optimization aided by physiologically based pharmacokinetic modeling in animal models. Development of Singlet-Oxygen-Sensitive LinkerPhotocleavable bonds have long been investigated and used in numerous applications, such as in organic synthesis, drug delivery, and the study of intracellular biochemical processes (e.g., signaling pathways, gene expression) [39][40][41][42][43][44][45]. Light is a major component of PDT; however, the preferred wavelengths-to facilitate deeper penetration in tissue-are in the red and far-red regions, limiting the choices of linkers that are directly cleaved by such low-energy light [44][45][46][47]. In our prodrug system, we exploited a unique bond cleavage phenomenon mediated by singlet oxygen, which is generated during the PDT process, to overcome this problem. The cleavage mechanism is based on a well-known property of the double bond to participate in a [2+2] cycloaddition with singlet oxygen following decomposition to ultimately give carbonyl fragments via a dioxetane intermediate (Figure 1a) [48][49][50][51][52][53][54][55][56].

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Section: Design Of β-Aminoacrylate-containing Prodrugs and Initial Bimentioning

confidence: 92%

Section: Pk Properties Of the Prodrugmentioning

confidence: 98%

Section: Design Of β-Aminoacrylate-containing Prodrugs and Initial Bimentioning

confidence: 99%

Section: Pk Properties Of the Prodrugmentioning

confidence: 99%

See 2 more Smart Citations

Development of Prodrugs for PDT-Based Combination Therapy Using a Singlet-Oxygen-Sensitive Linker and Quantitative Systems Pharmacology

Nguyen

Woo

et al. 2019

JCM

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“…[13][14][15][16][17] These constructs are conceived in such aw ay that the 1 O 2 produced serves not only forP DT,b ut also cleaves the linker with the chemotherapeutic agent, liberating it in its active form and resulting in superiorc ytotoxic effects. [13][14][15][16][17] These constructs are conceived in such aw ay that the 1 O 2 produced serves not only forP DT,b ut also cleaves the linker with the chemotherapeutic agent, liberating it in its active form and resulting in superiorc ytotoxic effects.…”

Section: Introductionmentioning

confidence: 99%

Light‐Controlled Simultaneous “On Demand” Release of Cytotoxic Combinations for Bimodal Killing of Cancer Cells

Tessaro

Fraix

Failla

et al. 2018

Chemistry A European J

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In this contribution, we report a novel entirely photocontrolled nanoplatform comprising a binary mixture of pluronic copolymers capable of self-assembling into core-shell micelles and co-entrapping two photoactivatable components: a benzoporphyrin photosensitizer for photodynamic therapy (PDT) and coumarin-photocaged chemotherapeutic agent Chlorambucil (CAB). The resulting supramolecular micellar assembly is about 30 nm in diameter with a polydispersity index <0.1, stable for more than 72 h, and exhibits excellent preservation of the photochemical properties of the two photoresponsive components, even though they are confined within the same host nanocarrier. Appropriate regulation of the relative concentrations of these components makes them capable of absorbing visible light in comparable amounts, leading to effective simultaneous photogeneration of singlet oxygen and photo-triggered release of CAB. This "on demand" release of cytotoxic combinations results in amplified anticancer activity against MCF-7 human breast adenocarcinoma cells.

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Materialien mit Selektivität für oxidative Molekülspezies für die Diagnostik und Therapie

et al. 2020

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Abbildung 1. A) Krankheiten, fürdie oxidativer Stress bedeutsam ist. B) Primäre Untergruppen oxidativer Molekülspezies, ihre Entstehungsund Transformationsreaktionen und ihre Halbwertszeit. a Die Halbwertszeit der verwandten Radikale hängt von den Umgebungsbedingungen ab. Caiyan Zhao ist als Postdoktorandin Stipendiatin an der Havard Medical School. Sie wurde 2018 in physikalischer Chemie am National Center for Nanoscience and Technology,C hinese Academy of Science (China) promoviert. Dann wechselte sie zur Fuzhou University und ist dort seit 2018 Postdoktorandin. In ihren Forschungenkonzentriert sie sich auf die Entwicklung antioxidativer und multifunktionaler Nanoplattformen zur Freisetzung von Therapeutika von niedermolekularen Substanzen bis hin zu RNA fürdie Behandlung entzündlicher Erkrankungen. Jinjun Shi ist Associate Professora nder Harvard MedicalS chool und Fakultätsmitglied am Center for Nanomedicine and Department of Anesthesiology am Brigham and Women'sHospital. Er befasst sich mit Grundlagen-und angewandter Forschung im Nanomedizinbereich. Dabei geht es um eine interdisziplinäre Kombination aus Nanotechnologie, Biomaterialien, RNA-Freisetzung, Immuntherapie und antioxidativer Therapie fürb iomedizinische Anwendungen gegen Verletzungen und verschiedeneK rankheiten wie Krebs. Er wurde 2008 an der Texas A&MUniversity promoviertund arbeitete als PostdoktorandamMIT und am Brigham and Woman'sHospital. Jibin Song promovierte 2014 in Chemical and BiomedicalE ngineeringa nder Nanyang Technological University (Singapur). Danach arbeitete er als Postdoktorand bei Prof. Xiaoyuan (Shawn) Chen an den National Institutes of Health (NIH). Er wechselte 2018 zur Fuzhou University als "Min Jiang Scholar"-Professor füranalytische Chemie. Seine Forschung dreht sich vor allem um die Entwicklungv on Nanosonden fürm olekulare Bildgebung fürB ioimaging, Biosensoriku nd Wirkstoff-oder Genfreisetzung.

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Folate-PEG Conjugates of a Far-Red Light-Activatable Paclitaxel Prodrug to Improve Selectivity toward Folate Receptor-Positive Cancer Cells

Cited by 43 publications

References 59 publications

Development of Prodrugs for PDT-Based Combination Therapy Using a Singlet-Oxygen-Sensitive Linker and Quantitative Systems Pharmacology

Development of Prodrugs for PDT-Based Combination Therapy Using a Singlet-Oxygen-Sensitive Linker and Quantitative Systems Pharmacology

Light‐Controlled Simultaneous “On Demand” Release of Cytotoxic Combinations for Bimodal Killing of Cancer Cells

Materialien mit Selektivität für oxidative Molekülspezies für die Diagnostik und Therapie

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