Gregor Nagel scite author profile

Physiological barriers inside of tumor tissue often result in poor interstitial penetration and heterogeneous intratumoral distribution of nanoparticle-based drug delivery systems (DDS). Novel, matrix metalloproteinase (MMP)-sensitive peptide-crosslinked nanogels (pNGs) as multistage DDS are reported with a beneficial size reduction property to promote the process of deep tissue penetration.Methods: The presented pNGs are based on a dendritic polyglycerol (dPG) scaffold crosslinked by a modified MMP-sensitive fluorogenic peptide. The crosslinker integrates degradability in response to proteases present in the tumor microenvironment. Surfactant-free, inverse nanoprecipitation is employed to prepare the nanogels using strain-promoted click chemistry. The size and crosslinking density of the pNGs are controlled by the functionalization degree of dPG with cyclooctyne groups and by the peptide crosslinker fraction. The intrinsic reporter moiety of the crosslinker was used to study the influence of pNG compositions on the degradation profile. The therapeutic drug Doxorubicin was conjugated through a pH-sensitive linkage to dPG to form a multistage DDS. The penetration behavior of the pNGs was studied using agarose matrix and multicellular tumor spheroids (MCTS).Results: Nanogel sizes were controlled in the range of 150-650 nm with narrow size distributions and varying degrees of crosslinking. The pNGs showed stability in PBS and cell media but were readily degraded in the presence of MMP-7. The crosslinking density influenced the degradation kinetic mediated by MMP-7 or cells. Stable conjugation of DOX at physiological pH and controlled drug release at acidic pH were observed. The digestions of nanogels lead to a size reduction to polymer-drug fragments which efficiently penetrated into agarose gels. Moreover, the degradable multistage pNGs demonstrated deeper penetration into MCTS as compared to their non-degradable counterparts. Thus, degradable pNGs were able to deliver their cargo and efficiently reduce the cell viability in MCTS.Conclusion: The triggered size reduction of the pNGs by enzymatic degradation can facilitate the infiltration of the nanocarrier into dense tissue, and thereby promote the delivery of its cargo.

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Acid-sensitive Lipidated Doxorubicin Prodrug Entrapped in Nanoemulsion Impairs Lung Tumor Metastasis in a Breast Cancer Model

Camara

Nagel

Tschiche

et al. 2017

Nanomedicine (Lond.)

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Dendritic polymer imaging systems for the evaluation of conjugate uptake and cleavage

et al. 2015

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Fluorescent turn-on probes combined with polymers have a broad range of applications, e.g. for intracellular sensing of ions, small molecules, or DNA. In the field of polymer therapeutics, these probes can be applied to extend the in vitro characterization of novel conjugates beyond cytotoxicity and cellular uptake studies. This is particularly true in cases in which polymer conjugates contain drugs attached by cleavable linkers. Better information on the intracellular linker cleavage and drug release would allow a faster evaluation and optimization of novel polymer therapeutic concepts. We therefore developed a fluorescent turn-on probe that enables direct monitoring of pH-mediated cleavage processes over time. This is achieved by exploiting the fluorescence resonance energy transfer (FRET) between two dyes that have been coupled to a dendritic polymer. We demonstrate the use of this probe to evaluate polymer uptake and intracellular release of cargo in a cell based microplate assay that is suitable for high throughput screening.

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Responsive Nanogels for Anti-cancer Therapy

Kar

Fechner

Nagel

et al. 2017

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Nanogels (or nano-sized hydrogels) have been extensively investigated as an effective drug delivery system due to their various advantageous properties. Among them, stimuli responsive ‘smart’ nanogels, which have the ability to respond to various external stimuli, such as pH, redox, temperature, enzymes, and light, are the most attractive in the area of controlled anti-cancer drug delivery. In this book chapter, we review and discuss recent progress in the synthesis and applications of polymer-based stimuli-responsive nanogels for anti-cancer therapy and their future prospects.

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Gregor Nagel

Crosslinked casein-based micelles as a dually responsive drug delivery system

Matrix Metalloproteinase-sensitive Multistage Nanogels Promote Drug Transport in 3D Tumor Model

Acid-sensitive Lipidated Doxorubicin Prodrug Entrapped in Nanoemulsion Impairs Lung Tumor Metastasis in a Breast Cancer Model

Dendritic polymer imaging systems for the evaluation of conjugate uptake and cleavage

Responsive Nanogels for Anti-cancer Therapy

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