Direct Photocontrol of Peptidomimetics: An Alternative to Oxygen‐Dependent Photodynamic Cancer Therapy

Babii, Oleg; Afonin, Sergii; Garmanchuk, L. V.; Никулина, В. В.; Nikolaienko, T.; Storozhuk, Olha; Shelest, D.; Dasyukevich, O I; Li, Ostapchenko; Iurchenko, Volodymyr; Zozulya, Sergey; Ulrich, Anne S.; Komarov, Igor V.

doi:10.1002/anie.201600506

Cited by 65 publications

(47 citation statements)

References 47 publications

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“…Besides, it is of interest to study this family of diarylethenes in order to develop different types of light-controlling materials and devices. [11][12][13][14][15][16][17] In addition, the elaboration of an alternative and effective synthetic protocol is one of the major challenges in modern organic synthesis having a high priority in the development of new technologies and smart materials. [18][19][20] However, the synthesis of these compounds remains a difficult task and has a lot of limitations.…”

Section: -4mentioning

confidence: 99%

Facile synthesis of photoactive diaryl(hetaryl)cyclopentenes by ionic hydrogenation

et al. 2016

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Section: -4mentioning

confidence: 99%

Facile synthesis of photoactive diaryl(hetaryl)cyclopentenes by ionic hydrogenation

et al. 2016

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“…Compared to the ring-closed (deactivated, OFF) photoform, the ring-open (active, ON) isomer of 2 indeed displayed a much stronger in vitro toxicity against several tumor cell lines [29,30]. Using the photoswitchable analogue 2 in an allograft mouse model, the first in vivo photopharmacology application for a DAE-derived peptide as an anticancer agent has been demonstrated [29]. In order to optimize 2, we have recently performed a structure-activity relationship (SAR) study using a library of photoswitchable derivatives of 2 [30].…”

Section: Introductionmentioning

confidence: 98%

“…This natural antimicrobial agent has an amphipathic structure, whose functional mechanism is attributed to the permeabilization of bacterial membranes, with considerable side-effects also on eukaryotic cell membranes [27,28]. Compared to the ring-closed (deactivated, OFF) photoform, the ring-open (active, ON) isomer of 2 indeed displayed a much stronger in vitro toxicity against several tumor cell lines [29,30]. Using the photoswitchable analogue 2 in an allograft mouse model, the first in vivo photopharmacology application for a DAE-derived peptide as an anticancer agent has been demonstrated [29].…”

Section: Introductionmentioning

confidence: 99%

Light-controllable dithienylethene-modified cyclic peptides: photoswitching the in vivo toxicity in zebrafish embryos

Afonin¹,

Babii²,

Reuter³

et al. 2020

Beilstein J. Org. Chem.

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This study evaluates the embryotoxicity of dithienylethene-modified peptides upon photoswitching, using 19 analogues based on the β-hairpin scaffold of the natural membranolytic peptide gramicidin S. We established an in vivo assay in two variations (with ex vivo and in situ photoisomerization), using larvae of the model organism Danio rerio, and determined the toxicities of the peptides in terms of 50% lethal doses (LD 50 ). This study allowed us to: (i) demonstrate the feasibility of evaluating peptide toxicity with D. rerio larvae at 3-4 days post fertilization, (ii) determine the phototherapeutic safety windows for all peptides, (iii) demonstrate photoswitching of the whole-body toxicity for the dithienylethene-modified peptides in vivo, (iv) re-analyze previous structure-toxicity relationship data, and (v) select promising candidates for potential clinical development. 39

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“…In addition to classical targeting methods (based, for example, on tumor molecularm arkers), an active field of research is focusedo ns elf-propelling nano-and microbots that are remotelyo rs elf-driven to the target. [2][3][4] Other approaches involve using focalized light to locally heat biologically targeted nanoparticles, [5] generating reactive oxygen species chemically or genetically, [6] redoxb iology, [7] and nanoswitching the pharmacological action of small molecules [8] and peptidomimetics [9] using photochromic actuators. Compared to gene therapies and micro-and nanoparticles, the photopharmacological approachm ight benefitf rom well-established medical, industrial and regulatory procedures of pharmacology and is compatible with clinically available phototherapies.…”

Section: Introductionmentioning

confidence: 99%

“…[18] If only one of these conformationsi sa ble to inhibito renhance ac ertain PPI, the peptide can be used to photomodulate that interaction at the targeted location and dosage. [9,19] Progress in drug delivery is hampered by al ack of efficient strategies to target drugsw ithh igh specificity and precise spatiotemporalr egulation. The remote control of nanoparticles and drugs with light allows regulationo ft heir action site and dosage.…”

Section: Introductionmentioning

confidence: 99%

Targeted Nanoswitchable Inhibitors of Protein–Protein Interactions Involved in Apoptosis

et al. 2018

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Progress in drug delivery is hampered by a lack of efficient strategies to target drugs with high specificity and precise spatiotemporal regulation. The remote control of nanoparticles and drugs with light allows regulation of their action site and dosage. Peptide‐based drugs are highly specific, non‐immunogenic, and can be designed to cross the plasma membrane. In order to combine target specificity and remote control of drug action, here we describe a versatile strategy based on a generalized template to design nanoswitchable peptides that modulate protein–protein interactions upon light activation. This approach is demonstrated to promote photomodulation of two important targets involved in apoptosis (the interactions Bcl‐xL–Bak and MDM2–p53), but can be also applied to a large pool of therapeutically relevant protein–protein interactions mediated by α‐helical motifs. The template can be adjusted using readily available information about hot spots (residues contributing most to the binding energy) at the protein–protein interface of interest.

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Direct Photocontrol of Peptidomimetics: An Alternative to Oxygen‐Dependent Photodynamic Cancer Therapy

Cited by 65 publications

References 47 publications

Facile synthesis of photoactive diaryl(hetaryl)cyclopentenes by ionic hydrogenation

Facile synthesis of photoactive diaryl(hetaryl)cyclopentenes by ionic hydrogenation

Light-controllable dithienylethene-modified cyclic peptides: photoswitching the in vivo toxicity in zebrafish embryos

Targeted Nanoswitchable Inhibitors of Protein–Protein Interactions Involved in Apoptosis

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