Switching Futile <i>para</i>‐Quinone to Efficient Reactive Oxygen Species Generator: Ubiquitin‐Specific Protease‐2 Inhibition, Electrocatalysis, and Quantification

Gopinath, Pushparathinam; Mahammed, Atif; Eilon-Shaffer, Tal; Nawatha, Mickal; Ohayon, Shimrit; Shabat, Doron; Gross, Zeev; Brik, Ashraf

doi:10.1002/cbic.201700330

Cited by 13 publications

(11 citation statements)

References 33 publications

(18 reference statements)

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“…Within this type of enzymes, ubiquitin-specific proteases 1 and 2 (USP1 and USP2) are linked with DNA damage repair. Particularly, USP2 has been associated with apoptosis resistance by cancer cells through stabilization of Fas and cyclin D1 [59]. It has been reported that both enzymes are susceptible to ROS and are inhibited by the natural ortho -quinone β-lapachone ( 12 ), suggesting that they are interesting targets for the development of compounds for cancer therapy.…”

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confidence: 99%

The diverse mechanisms and anticancer potential of naphthoquinones

et al. 2019

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Cancer is one of the leading causes of death around the world and although the different clinical approaches have helped to increase survival rates, incidence is still high and so its mortality. Chemotherapy is the only approach which is systemic, reaching cancer cells in all body tissues and the search for new potent and selective drugs is still an attractive field within cancer research. Naphthoquinones, natural and synthetic, have garnered much attention in the scientific community due to their pharmacological properties, among them anticancer action, and potential therapeutic significance. Many mechanisms of action have been reported which also depend on structural differences among them. Here, we describe some of the most relevant mechanisms of action reported so far for naphthoquinones and highlight novel targets which are being described in the literature. Furthermore, we gather some of the most impressive efforts done by researchers to harness the anticancer properties of these compounds through specifically designed structural modifications.

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Section: Main Textmentioning

confidence: 99%

The diverse mechanisms and anticancer potential of naphthoquinones

et al. 2019

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“…[22] Thed esign of these probes allows the enzymatic hydrolysis and chemiexcitation process to occur concurrently under physiological conditions with remarkable light-emission intensities. [23][24][25][26][27] We sought to use this design strategy to prepare achemiluminescence probe that is suitable for activation by cathepsin B. Herein, we report the development of the first chemiluminescence probe for the detection and imaging of cathepsin B that is suitable for use under physiological conditions.…”

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confidence: 99%

Unprecedented Sensitivity in a Probe for Monitoring Cathepsin B: Chemiluminescence Microscopy Cell‐Imaging of a Natively Expressed Enzyme

2017

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Until recently, chemiluminescence cell images could only be obtained using luciferase-activated probes. Moreover, chemiluminescence microscopy cell-imaging has not been demonstrated for natively expressed enzymes like cathepsin B. Herein, we describe the design, synthesis, and evaluation of the first chemiluminescence probe for the detection and imaging of cathepsin B. The probe activation mechanism relies on the release of a dioxetane intermediate, which undergoes chemiexcitation to emit green light with high efficiency under physiological conditions. Using the probe, we obtained clear images of cancerous leukemia and colon cells. This is the first demonstration of chemiluminescence cell images obtained by a probe for a natively expressed endogenous enzyme. We anticipate that the concept presented in this study will be broadly used to develop analogous probes for other important proteases relevant to biomolecular processes.

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“…Removal of the substrate by an enzyme or an analyte of choice triggers the direct chemiexcitation mechanism of the dioxetane luminophore. This meant that, for the first‐time, an intense light‐emission signal could be obtained under physiological conditions to image endogenous molecular activities in vitro and in vivo . The insights obtained from analysis of the chemiexcitation pathway prompted us to develop a distinct molecular unit that intrinsically integrates a chemiexcitation turn‐on signal with a self immolative release mechanism .…”

Section: Figurementioning

confidence: 99%

Direct Real‐Time Monitoring of Prodrug Activation by Chemiluminescence

et al. 2018

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The majority of theranostic prodrugs reported so far relay information through a fluorogenic response generated upon release of the active chemotherapeutic agent. A chemiluminescence detection mode offers significant advantages over fluorescence, mainly due to the superior signal-to-noise ratio of chemiluminescence. Here we report the design and synthesis of the first theranostic prodrug monitored by a chemiluminescence diagnostic mode. As a representative model, we prepared a prodrug from the chemotherapeutic monomethyl auristatin E, which was modified for activation by β-galactosidase. The activation of the prodrug in the presence of β-galactosidase is accompanied by emission of a green photon. Light emission intensities, which increase with increasing concentration of the prodrug, were linearly correlated with a decrease in the viability of a human cell line that stably expresses β-galactosidase. We obtained sharp intravital chemiluminescent images of endogenous enzymatic activity in β-galactosidase-overexpressing tumor-bearing mice. The exceptional sensitivity achieved with the chemiluminescence diagnostic mode should allow the exploitation of theranostic prodrugs for personalized cancer treatment.

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Switching Futile para‐Quinone to Efficient Reactive Oxygen Species Generator: Ubiquitin‐Specific Protease‐2 Inhibition, Electrocatalysis, and Quantification

Cited by 13 publications

References 33 publications

The diverse mechanisms and anticancer potential of naphthoquinones

The diverse mechanisms and anticancer potential of naphthoquinones

Unprecedented Sensitivity in a Probe for Monitoring Cathepsin B: Chemiluminescence Microscopy Cell‐Imaging of a Natively Expressed Enzyme

Direct Real‐Time Monitoring of Prodrug Activation by Chemiluminescence

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