Synthesis and characterization of light-degradable bromocoumarin functionalized polycarbonates

Müller, Ann‐Kathrin; Jung, Dimitri; Sun, Jingjiang; Kuckling, Dirk

doi:10.1039/c9py01405e

Cited by 11 publications

(18 citation statements)

References 51 publications

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“…Preliminary in vitro cellular studies of the above-mentioned nanoparticles and degradation products confirmed that systems have the potential to be used for in vivo studies. Very recently, the same group reported light-degradable APCs nanoparticles by introducing bromocoumarin groups into the side chain [152]. Upon light irradiation, the photo-degradable bromocoumarin side groups are removed, which causes the appearance of nucleophilic amino groups.…”

Section: Light-responsive Apc Nanocarriersmentioning

confidence: 99%

“…Therefore, it would be highly advantageous to use combinations of two or more stimuli to further enhance the tumor-targeted effect, response rate or achieve on-demand burst drug release in tumor site-specific regions. Very recently, the same group reported light-degradable APCs nanoparticles by introducing bromocoumarin groups into the side chain [152]. Upon light irradiation, the photo-degradable bromocoumarin side groups are removed, which causes the appearance of nucleophilic amino groups.…”

Section: Dual/multiple Stimuli-responsive Apc Nanocarriersmentioning

confidence: 99%

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Stimuli-Responsive Aliphatic Polycarbonate Nanocarriers for Tumor-Targeted Drug Delivery

et al. 2020

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Nanoparticles based on amphiphilic copolymers with tunable physicochemical properties can be used to encapsulate delicate pharmaceutics while at the same time improving their solubility, stability, pharmacokinetic properties, reducing immune surveillance, or achieving tumor-targeting ability. Those nanocarriers based on biodegradable aliphatic polycarbonates are a particularly promising platform for drug delivery due to flexibility in the design and synthesis of appropriate monomers and copolymers. Current studies in this field focus on the design and the synthesis of new effective carriers of hydrophobic drugs and their release in a controlled manner by exogenous or endogenous factors in tumor-specific regions. Reactive groups present in aliphatic carbonate copolymers, undergo a reaction under the action of a stimulus: e.g., acidic hydrolysis, oxidation, reduction, etc. leading to changes in the morphology of nanoparticles. This allows the release of the drug in a highly controlled manner and induces a desired therapeutic outcome without damaging healthy tissues. The presented review summarizes the current advances in chemistry and methods for designing stimuli-responsive nanocarriers based on aliphatic polycarbonates for controlled drug delivery.

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Section: Light-responsive Apc Nanocarriersmentioning

confidence: 99%

Section: Dual/multiple Stimuli-responsive Apc Nanocarriersmentioning

confidence: 99%

Stimuli-Responsive Aliphatic Polycarbonate Nanocarriers for Tumor-Targeted Drug Delivery

et al. 2020

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“…One reason for this interest is the broad field of possible applications of such polymers, which include catalyst immobilization, sensors, , and patterning , as well as tissue engineering, , drug delivery, − and tissue adhesives . Recently, light as a stimulus gained tremendous attention since this trigger can be applied both remotely and accurately by adjusting the parameters of irradiation, such as wavelength, irradiation time, or intensity. , Thus, light-responsive polymers show high potential as efficient and targeted controlled release systems, which reduce side effects compared to conventional therapy. , Photocleavable moieties employed most commonly in such systems are coumarin , and ortho -nitrobenzyl − (oNB) derivatives. The combination of different stimuli-responsive units in one polymer is regarded especially useful for controlling release profiles or enhancing release rates of the drug delivery system (DDS). − For example, Kalva et al developed a photo and pH dual-responsive polycarbonate (PC) block copolymer conjugated with doxorubicin via an imine linkage to pendant groups that also contain oNB functions .…”

Section: Introductionmentioning

confidence: 99%

“…20,21 Thus, light-responsive polymers show high potential as efficient and targeted controlled release systems, which reduce side effects compared to conventional therapy. 22,23 Photocleavable moieties employed most commonly in such systems are coumarin 24,25 and ortho-nitrobenzyl 26−28 (oNB) derivatives. The combination of different stimuli-responsive units in one polymer is regarded especially useful for controlling release profiles or enhancing release rates of the drug delivery system (DDS).…”

Section: ■ Introductionmentioning

confidence: 99%

Backbone-Degradable (Co-)Polymers for Light-Triggered Drug Delivery

Rust

Jung

Hoppe

et al. 2021

ACS Appl. Polym. Mater.

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In modern therapy, cutting side effects caused by the administration of drugs is one of the core challenges. One possible strategy is the delivery of a drug to the disease site by encapsulation into a polymeric matrix. Especially, light-responsive polymers are regarded as promising materials due to, e.g., the capability of tailored on-demand release in illuminated areas. In this work, a series of light-responsive backbone-degradable (co-)polymers were synthesized by polycondensation and polyaddition. All obtained polymers showed rapid degradation in solution upon exposure to ultraviolet (UV) light as observed by size-exclusion chromatography (SEC) and ultraviolet-visible (UV–vis) spectroscopy. Light-induced decomposition of films prepared from the polycarbonate was confirmed by UV–vis, surface plasmon resonance (SPR), and profilometry measurements. Depending on the incorporated comonomers, the functional co-polyurethanes exhibited either enhanced hydrophilicity or dual-responsiveness to light and redox environments, which was detected by SEC after treatment with a reducing agent. The formulation of nanoparticles from light-responsive polyurethanes proved the processability of the synthesized polymers, and dynamic light scattering (DLS) measurements confirmed the photo-induced degradation of the prepared particles. Water-soluble tetrazolium salt (WST-1) assays were carried out to evaluate the cytotoxic potential before and after irradiation.

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“…Besides, when functional groups are incorporated into the polymer backbones; the potential applications will be further broadened. For example, the introduction of hydroxyl, 6–9 carboxyl, 10,11 and amino groups 12–19 can effectively tunning the hydrophilic properties. Pendant functional groups may also provide active sites for further modification such as crosslinking, attaching bioactive substances to satisfy more specific applications 3,4,20,21 .…”

Section: Introductionmentioning

confidence: 99%

Synthesis of new aliphatic poly(ester‐carbonate)s bearing amino groups based on photolabile protecting group and evaluation of antibacterial property

Gao

Chen

et al. 2021

Polymers for Advanced Techs

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Amino‐functionalized six‐membered cyclic carbonate 5‐((2‐nitrobenzyl) amino)‐1,3‐dioxan‐2‐one (NBAC) was synthesized with 2‐nitrobenzyl group as photolabile protecting group. The following copolymerization was carried out by using l‐lactide as comonomer and Sn (Oct)2 as catalyst. The amino‐functionalized polymer P(LA‐co‐AC) was obtained by ultraviolet irradiation of P(LA‐co‐NBAC) to remove the protecting group. The structures of products were confirmed by 1H nuclear magnetic resonance (NMR) and 13C NMR analysis. The pendant amino groups not only resulted in an enhancement of the hydrophilicity, but also played a role of antibacterial effect due to the positive charge imparted to the material.

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Synthesis and characterization of light-degradable bromocoumarin functionalized polycarbonates

Abstract: The preparation, characterization and degradation properties of novel light-degradable bromocoumarin functionalized polycarbonates were investigated in the present work.

Cited by 11 publications

References 51 publications

Stimuli-Responsive Aliphatic Polycarbonate Nanocarriers for Tumor-Targeted Drug Delivery

Stimuli-Responsive Aliphatic Polycarbonate Nanocarriers for Tumor-Targeted Drug Delivery

Backbone-Degradable (Co-)Polymers for Light-Triggered Drug Delivery

Synthesis of new aliphatic poly(ester‐carbonate)s bearing amino groups based on photolabile protecting group and evaluation of antibacterial property

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