Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide

A nuclear localisation sequence (NLS) peptide, PAAKRVKLD, derived from the human c-Myc regulator gene, has been functionalised with a long wavelength (λ(ex) = 550 nm; λ(em) = 677 nm) cyclometalated organometallic iridium(iii) complex to give the conjugate Ir-CMYC. Confocal fluorescence microscopy st...

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Autores principales: Day, Adam H., Übler, Martin H., Best, Hannah L., Lloyd-Evans, Emyr, Mart, Robert J., Fallis, Ian A., Allemann, Rudolf K., Al-Wattar, Eman A. H., Keymer, Nathaniel I., Buurma, Niklaas J., Pope, Simon J. A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Royal Society of Chemistry 2020
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7069228/
https://www.ncbi.nlm.nih.gov/pubmed/32206278
http://dx.doi.org/10.1039/c9sc05568a
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author Day, Adam H.
Übler, Martin H.
Best, Hannah L.
Lloyd-Evans, Emyr
Mart, Robert J.
Fallis, Ian A.
Allemann, Rudolf K.
Al-Wattar, Eman A. H.
Keymer, Nathaniel I.
Buurma, Niklaas J.
Pope, Simon J. A.
author_facet Day, Adam H.
Übler, Martin H.
Best, Hannah L.
Lloyd-Evans, Emyr
Mart, Robert J.
Fallis, Ian A.
Allemann, Rudolf K.
Al-Wattar, Eman A. H.
Keymer, Nathaniel I.
Buurma, Niklaas J.
Pope, Simon J. A.
author_sort Day, Adam H.
collection PubMed
description A nuclear localisation sequence (NLS) peptide, PAAKRVKLD, derived from the human c-Myc regulator gene, has been functionalised with a long wavelength (λ(ex) = 550 nm; λ(em) = 677 nm) cyclometalated organometallic iridium(iii) complex to give the conjugate Ir-CMYC. Confocal fluorescence microscopy studies on human fibroblast cells imaged after 18–24 h incubation show that Ir-CMYC concentrations of 80–100 μM promote good cell uptake and nuclear localisation, which was confirmed though co-localisation studies using Hoechst 33342. In comparison, a structurally related, photophysically analogous iridium(iii) complex lacking the peptide sequence, Ir-PYR, showed very different biological behaviour, with no evidence of nuclear, lysosomal or autophagic vesicle localisation and significantly increased toxicity to the cells at concentrations >10 μM that induced mitochondrial dysfunction. Supporting UV-visible and circular dichroism spectroscopic studies show that Ir-PYR and Ir-CMYC display similarly low affinities for DNA (ca. 10(3) M(–1)), consistent with electrostatic binding. Therefore the translocation and nuclear uptake properties of Ir-CMYC are attributed to the presence of the PAAKRVKLD nuclear localisation sequence in this complex.
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spelling pubmed-70692282020-03-23 Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide Day, Adam H. Übler, Martin H. Best, Hannah L. Lloyd-Evans, Emyr Mart, Robert J. Fallis, Ian A. Allemann, Rudolf K. Al-Wattar, Eman A. H. Keymer, Nathaniel I. Buurma, Niklaas J. Pope, Simon J. A. Chem Sci Chemistry A nuclear localisation sequence (NLS) peptide, PAAKRVKLD, derived from the human c-Myc regulator gene, has been functionalised with a long wavelength (λ(ex) = 550 nm; λ(em) = 677 nm) cyclometalated organometallic iridium(iii) complex to give the conjugate Ir-CMYC. Confocal fluorescence microscopy studies on human fibroblast cells imaged after 18–24 h incubation show that Ir-CMYC concentrations of 80–100 μM promote good cell uptake and nuclear localisation, which was confirmed though co-localisation studies using Hoechst 33342. In comparison, a structurally related, photophysically analogous iridium(iii) complex lacking the peptide sequence, Ir-PYR, showed very different biological behaviour, with no evidence of nuclear, lysosomal or autophagic vesicle localisation and significantly increased toxicity to the cells at concentrations >10 μM that induced mitochondrial dysfunction. Supporting UV-visible and circular dichroism spectroscopic studies show that Ir-PYR and Ir-CMYC display similarly low affinities for DNA (ca. 10(3) M(–1)), consistent with electrostatic binding. Therefore the translocation and nuclear uptake properties of Ir-CMYC are attributed to the presence of the PAAKRVKLD nuclear localisation sequence in this complex. Royal Society of Chemistry 2020-01-08 /pmc/articles/PMC7069228/ /pubmed/32206278 http://dx.doi.org/10.1039/c9sc05568a Text en This journal is © The Royal Society of Chemistry 2020 http://creativecommons.org/licenses/by/3.0/ This article is freely available. This article is licensed under a Creative Commons Attribution 3.0 Unported Licence (CC BY 3.0)
spellingShingle Chemistry
Day, Adam H.
Übler, Martin H.
Best, Hannah L.
Lloyd-Evans, Emyr
Mart, Robert J.
Fallis, Ian A.
Allemann, Rudolf K.
Al-Wattar, Eman A. H.
Keymer, Nathaniel I.
Buurma, Niklaas J.
Pope, Simon J. A.
Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide
title Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide
title_full Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide
title_fullStr Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide
title_full_unstemmed Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide
title_short Targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-Myc signal peptide
title_sort targeted cell imaging properties of a deep red luminescent iridium(iii) complex conjugated with a c-myc signal peptide
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7069228/
https://www.ncbi.nlm.nih.gov/pubmed/32206278
http://dx.doi.org/10.1039/c9sc05568a
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