Kazuki Tsubokura scite author profile

Metal complex catalysis within biological systems is largely limited to cell and bacterial systems. In this work, a glycoalbumin-Au complex was designed and developed that enables organ-specific, localized propargyl ester amidation with nearby proteins within live mice. The targeted reactivity can be imaged through the use of Cy7.5- and TAMRA-linked propargyl ester based fluorescent probes. This targeting system could enable the exploitation of other metal catalysis strategies for biomedical and clinical applications.

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In Vivo Gold Complex Catalysis within Live Mice

Tsubokura

Vong

Pradipta

et al. 2017

Angewandte Chemie

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Metal complex catalysis within biological systems is largely limited to cell and bacterial systems.I nt his work, ag lycoalbumin-Au III complex was designed and developed that enables organ-specific,l ocalized propargyl ester amidation with nearby proteins within live mice.T he targeted reactivity can be imaged through the use of Cy7.5-and TAMRA-linked propargyl ester based fluorescent probes.This targeting system could enable the exploitation of other metal catalysis strategies for biomedical and clinical applications.

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Sequential Double “Clicks” toward Structurally Well‐Defined Heterogeneous N‐Glycoclusters: The Importance of Cluster Heterogeneity on Pattern Recognition In Vivo

et al. 2016

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Direct Guanylation of Amino Groups by Cyanamide in Water: Catalytic Generation and Activation of Unsubstituted Carbodiimide by Scandium(III) Triflate

Tsubokura¹,

Iwata²,

Taichi³

et al. 2014

Synlett

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Guanylation proceeded efficiently upon treatment of the various amines with cyanamide in the presence of catalytic amounts of scandium(III) triflate under mild conditions. The method did not require the guanylation reagents to be preactivated, and the reaction proceeded efficiently in water. The method, therefore, has practical utility for substrates that dissolve only in aqueous solutions, for example, peptides or pharmacologically important compounds.

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Disrupting tumor onset and growth via selective cell tagging (SeCT) therapy

Vong

Tahara²,

Urano

et al. 2021

Sci. Adv.

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This study presents the early framework of selective cell tagging (SeCT) therapy, which is the concept of preferentially labeling specific cells in vivo with chemical moieties that can elicit a therapeutic response. Using glycosylated artificial metalloenzyme (GArM)–based protein labeling, this study reports two separate functional strategies. In one approach, early tumor onset can be suppressed by tagging cancer cells in living mice with an integrin-blocking cyclic–Arg-Gly-Asp (cRGD) moiety, thereby disrupting cell adhesion onto the extracellular matrix. In another approach, tumor growth in mice can be reduced by tagging with a cytotoxic doxorubicin moiety. Subsequent cell death occurs following internalization and drug release. Overall, experiments have shown that mouse populations receiving the mixture of SeCT labeling reagents exhibited a significant delay/reduction in tumor onset and growth compared with controls. Highlighting its adaptability, this work represents a foundational step for further development of SeCT therapy and its potential therapeutic applications.

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In vivo metal-catalyzed SeCT therapy by a proapoptotic peptide

et al. 2021

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Cancer cell targeting driven by selective polyamine reactivity with glycine propargyl esters

et al. 2017

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One‐Pot Evolution of Ageladine A through a Bio‐Inspired Cascade towards Selective Modulators of Neuronal Differentiation

Iwata

Otsuka

Tsubokura

et al. 2016

Chemistry A European J

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A bio-inspired cascade reaction has been developed for the construction of the marine natural product ageladine A and a de novo array of its N1-substituted derivatives. This cascade features a 2-aminoimidazole formation that is modeled after an arginine post-translational modification and an aza-electrocyclization. It can be effectively carried out in a one-pot procedure from simple anilines or guanidines, leading to structural analogues of ageladine A that had been otherwise synthetically inaccessible. We found that some compounds out of this structurally novel library show a significant activity in modulating the neural differentiation. Namely, these compounds selectively activate or inhibit the differentiation of neural stem cells to neurons, while being negligible in the differentiation to astrocytes. This study represents a successful case in which the native biofunction of a natural product could be altered by structural modifications.

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