Literature DB >> 23474903

Synthesis of decacationic [60]fullerene decaiodides giving photoinduced production of superoxide radicals and effective PDT-mediation on antimicrobial photoinactivation.

Min Wang1, Satyanarayana Maragani, Liyi Huang, Seaho Jeon, Taizoon Canteenwala, Michael R Hamblin, Long Y Chiang.   

Abstract

We report a novel class of highly water-soluble decacationic n class="Chemical">methano[60]fullerene decaiodides C60[>M(C3N6(+)C3)2]-(I(-))10 [1-(I(-))10] capable of co-producing singlet oxygen (Type-II) and highly reactive hydroxyl radicals, formed from superoxide radicals in Type-I photosensitizing reactions, upon illumination at both UVA and white light wavelengths. The O2(-)·-production efficiency of 1-(I(-))10 was confirmed by using an O2(-)·-reactive bis(2,4-dinitrobenzenesulfonyl)tetrafluorofluorescein probe and correlated to the photoinduced electron-transfer event going from iodide anions to (3)C60*[>M(C3N6(+)C3)2] leading to C60(-)·[>M(C3N6(+)C3)2]. Incorporation of a defined number (ten) of quaternary ammonium cationic charges per C60 in 1 was aimed to enhance its ability to target pathogenic Gram-positive and Gram-negative bacterial cells. We used the well-characterized malonato[60]fullerene diester monoadduct C60[>M(t-Bu)2] as the starting fullerene derivative to provide a better synthetic route to C60[>M(C3N6(+)C3)2] via transesterification reaction under trifluoroacetic acid catalyzed conditions. These compounds may be used as effective photosensitizers and nano-PDT drugs for photoinactivation of pathogens.
Copyright © 2013 Elsevier Masson SAS. All rights reserved.

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Year:  2013        PMID: 23474903      PMCID: PMC3806655          DOI: 10.1016/j.ejmech.2013.01.052

Source DB:  PubMed          Journal:  Eur J Med Chem        ISSN: 0223-5234            Impact factor:   6.514


  27 in total

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2.  Easy Access to Water-Soluble Fullerene Derivatives via 1,3-Dipolar Cycloadditions of Azomethine Ylides to C(60).

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Review 4.  Surface proteins of gram-positive bacteria and how they get there.

Authors:  June R Scott; Timothy C Barnett
Journal:  Annu Rev Microbiol       Date:  2006       Impact factor: 15.500

5.  Development of novel fluorescence probes that can reliably detect reactive oxygen species and distinguish specific species.

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6.  A design of fluorescent probes for superoxide based on a nonredox mechanism.

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Journal:  J Am Chem Soc       Date:  2005-01-12       Impact factor: 15.419

7.  Antimicrobial photodynamic inactivation and photodynamic therapy for infections.

Authors:  Liyi Huang; Tianhong Dai; Michael R Hamblin
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8.  Electrostatic complexation and photoinduced electron transfer between Zn-cytochrome c and [olyanionic fullerene dendrimers.

Authors:  Martin Braun; Stefan Atalick; Dirk M Guldi; Harald Lanig; Michael Brettreich; Stephan Burghardt; Maria Hatzimarinaki; Elena Ravanelli; Maurizio Prato; Rudi van Eldik; Andreas Hirsch
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Review 9.  Photodynamic therapy for cancer.

Authors:  Dennis E J G J Dolmans; Dai Fukumura; Rakesh K Jain
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10.  Charge effect on the photoinactivation of Gram-negative and Gram-positive bacteria by cationic meso-substituted porphyrins.

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Journal:  BMC Microbiol       Date:  2009-04-15       Impact factor: 3.605
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  13 in total

1.  Potentiation of antimicrobial photodynamic inactivation mediated by a cationic fullerene by added iodide: in vitro and in vivo studies.

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2.  A novel tricationic fullerene C60 as broad-spectrum antimicrobial photosensitizer: mechanisms of action and potentiation with potassium iodide.

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3.  Progressive cationic functionalization of chlorin derivatives for antimicrobial photodynamic inactivation and related vancomycin conjugates.

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4.  Antimicrobial photodynamic inactivation with decacationic functionalized fullerenes: oxygen-independent photokilling in presence of azide and new mechanistic insights.

Authors:  Rui Yin; Min Wang; Ying-Ying Huang; Giacomo Landi; Daniela Vecchio; Long Y Chiang; Michael R Hamblin
Journal:  Free Radic Biol Med       Date:  2014-11-10       Impact factor: 7.376

5.  Advances in antimicrobial photodynamic inactivation at the nanoscale.

Authors:  Nasim Kashef; Ying-Ying Huang; Michael R Hamblin
Journal:  Nanophotonics       Date:  2017-08-01       Impact factor: 8.449

Review 6.  Functionalized fullerenes in photodynamic therapy.

Authors:  Ying-Ying Huang; Sulbha K Sharma; Rui Yin; Tanupriya Agrawal; Long Y Chiang; Michael R Hamblin
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7.  Fullerenes as photosensitizers in photodynamic therapy: pros and cons.

Authors:  Michael R Hamblin
Journal:  Photochem Photobiol Sci       Date:  2018-07-25       Impact factor: 3.982

8.  Photodynamic therapy with decacationic [60]fullerene monoadducts: effect of a light absorbing electron-donor antenna and micellar formulation.

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9.  Nanophotosensitive drugs for light-based cancer therapy: what does the future hold?

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Review 10.  Antimicrobial photodynamic inactivation in nanomedicine: small light strides against bad bugs.

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Journal:  Nanomedicine (Lond)       Date:  2015       Impact factor: 5.307
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