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

Afonin, Sergii; Babii, Oleg; Reuter, Aline; Middel, Volker; Takamiya, Masanari; Strähle, Uwe; Komarov, Igor V.; Ulrich, Anne S.

doi:10.3762/bjoc.16.6

Cited by 24 publications

(19 citation statements)

References 52 publications

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“…Before photoresponsive molecules can enter clinical trials and be used in medical applications, it is necessary to perform in vivo toxicity studies. 88 The extent of these toxicity studies will depend on the target amount to be injected. E.g.…”

Section: Toxicitymentioning

confidence: 99%

Photoresponsive molecular tools for emerging applications of light in medicine

et al. 2020

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Section: Toxicitymentioning

confidence: 99%

Photoresponsive molecular tools for emerging applications of light in medicine

et al. 2020

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“…Although there is growing concern about the use of animal models to predict human drug toxicity [16], numerous studies have revealed that rodent and nonrodent safety data are sufficiently predictive of the extent and type of adverse effects that could be experienced in subsequent human clinical trials [17][18][19], provided that the methodology of the preclinical safety data acquisition was correct [20]. Surprisingly, literature reports on the toxicity of photocontrollable biologically active compounds in multicellular organisms are very scarce, with most simply using lower vertebrates, such as zebrafish embryos, as their test subjects [21][22][23][24][25]. To the best of our knowledge, toxicity data on different photoforms of photoswitch-modified compounds have never been determined and compared in mammals [25][26][27][28].…”

mentioning

confidence: 99%

Peptide Drugs for Photopharmacology: How Much of a Safety Advantage Can Be Gained By Photocontrol?

Babii

Afonin

Schober

et al. 2020

Future Drug. Discov.

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Aim: To verify whether photocontrol of biological activity could augment safety of a chemotherapeutic agent. Materials & methods: LD50 values for gramicidin S and photoisomeric forms of its photoswitchable diarylethene-containing analogs were determined using mice. The results were compared with data obtained from cell viability measurements taken for the same compounds. Absorption, Distribution, Metabolism, and Elimination (ADME) tests using a murine cancer model were conducted to get insight into the underlying reasons for the observed in vivo toxicity. Results: While in vitro cytotoxicity values of the photoisomers differed substantially, the differences in the observed LD50 values were less pronounced due to unfavorable pharmacokinetic parameters. Conclusion: Despite unfavorable pharmacokinetic properties as in the representative case studied here, there is an overall advantage to be gained in the safety profile of a chemotherapeutic agent via photocontrol. Nevertheless, optimization of the pharmacokinetic parameters of photoisomers is an important issue to be addressed during the development of photopharmacological drugs.

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“…Indeed, very few systemic in vivo applications of photopharmaceuticals have been made. As none of those have tested a defined mechanism of drug action, nor explored the optical-scale spatiotemporally-resolved targeting which is the only benefit of photopharmaceutical approaches as compared to conventional drugs, [53][54][55] the ability of photopharmacology to contribute useful systemically-applicable reagents for organism studies has remained unclear.…”

Section: Discussionmentioning

confidence: 99%

In vivo photocontrol of microtubule dynamics and integrity, migration and mitosis, by the potent GFP-imaging-compatible photoswitchable reagents SBTubA4P and SBTub2M

Gao

Meiring

Varady

et al. 2021

Preprint

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Photoswitchable reagents to modulate microtubule stability and dynamics are an exciting tool approach towards micron- and millisecond-scale control over endogenous cytoskeleton-dependent processes. When these reagents are globally administered yet locally photoactivated in 2D cell culture, they can exert precise biological control that would have great potential for in vivo translation across a variety of research fields and for all eukaryotes. However, photopharmacology's reliance on the azobenzene photoswitch scaffold has been accompanied by a failure to translate this temporally- and cellularly-resolved control to 3D models or to in vivo applications in multi-organ animals, which we attribute substantially to the metabolic liabilities of azobenzenes. Here, we optimised the potency and solubility of metabolically stable, druglike colchicinoid microtubule inhibitors based instead on the styrylbenzothiazole (SBT) photoswitch scaffold, that are non-responsive to the major fluorescent protein imaging channels and so enable multiplexed imaging studies. We applied these reagents to 3D systems (organoids, tissue explants) and classic model organisms (zebrafish, clawed frog) with one- and two-protein imaging experiments. We successfully used systemic treatment plus spatiotemporally-localised illuminations in vivo to photocontrol microtubule dynamics, network architecture, and microtubule-dependent processes in these systems with cellular precision and second-level resolution. These nanomolar, in vivo-capable photoswitchable reagents can prove a game-changer for high-precision cytoskeleton research in cargo transport, cell motility, cell division and development. More broadly, their straightforward design can also inspire the development of similarly capable optical reagents for a range of protein targets, so bringing general in vivo photopharmacology one step closer to productive realisation.

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

Cited by 24 publications

References 52 publications

Photoresponsive molecular tools for emerging applications of light in medicine

Photoresponsive molecular tools for emerging applications of light in medicine

Peptide Drugs for Photopharmacology: How Much of a Safety Advantage Can Be Gained By Photocontrol?

In vivo photocontrol of microtubule dynamics and integrity, migration and mitosis, by the potent GFP-imaging-compatible photoswitchable reagents SBTubA4P and SBTub2M

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