Lorcan T. Allen scite author profile

A new approach to achieving selectivity for photodynamic therapy based upon the reversible off/on switching of the key therapeutic property (singlet oxygen generation) of a supramolecular photonic therapeutic agent (SPTA) in response to an external stimulus in the surrounding microenvironment is described. A series of SPTA analogues with pH responsive receptors of varying pKa are presented, in which the generation of singlet oxygen is shown to be dependent upon a proton source. For example, systems have been constructed such that the excited state energy of the photosensitizer can be decayed by a rapid photoinduced electron transfer (PET) mechanism, resulting in virtually no singlet oxygen being generated, but when the amine receptor is protonated the PET mechanism does not operate and singlet oxygen is produced. In vitro efficacy demonstrated that the SPTA derivatives can be activated within cells and one analogue is measured to have an EC50 value of 5.8 nM when assayed in the MRC5 cell line.

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Synthesis of BF₂chelates of tetraarylazadipyrromethenes and evidence for their photodynamic therapeutic behaviour

Killoran

et al. 2002

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Surface-induced changes in protein adsorption and implications for cellular phenotypic responses to surface interaction

et al. 2006

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Interaction of soft condensed materials with living cells: Phenotype/transcriptome correlations for the hydrophobic effect

Allen

Fox

Blute

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

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The assessment of biomaterial compatibility relies heavily on the analysis of macroscopic cellular responses to material interaction. However, new technologies have become available that permit a more profound understanding of the molecular basis of cellbiomaterial interaction. Here, both conventional phenotypic and contemporary transcriptomic (DNA microarray-based) analysis techniques were combined to examine the interaction of cells with a homologous series of copolymer films that subtly vary in terms of surface hydrophobicity. More specifically, we used differing combinations of N-isopropylacrylamide, which is presently used as an adaptive cell culture substrate, and the more hydrophobic, yet structurally similar, monomer N-tert-butylacrylamide. We show here that even discrete modifications with respect to the physiochemistry of soft amorphous materials can lead to significant impacts on the phenotype of interacting cells. Furthermore, we have elucidated putative links between phenotypic responses to cell-biomaterial interaction and global gene expression profile alterations. This case study indicates that high-throughput analysis of gene expression not only can greatly refine our knowledge of cell-biomaterial interaction, but also can yield novel biomarkers for potential use in biocompatibility assessment.

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A potent nonporphyrin class of photodynamic therapeutic agent: cellular localisation, cytotoxic potential and influence of hypoxia

et al. 2005

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We have developed a totally new class of nonporphyrin photodynamic therapeutic agents with a specific focus on two lead candidates azadipyrromethene (ADPM)01 and ADPM06. Confocal laser scanning microscopy imaging showed that these compounds are exclusively localised to the cytosolic compartment, with specific accumulation in the endoplasmic reticulum and to a lesser extent in the mitochondria. Light-induced toxicity assays, carried out over a broad range of human tumour cell lines, displayed EC 50 values in the micro-molar range for ADPM01 and nano-molar range for ADPM06, with no discernable activity bias for a specific cell type. Strikingly, the more active agent, ADPM06, even retained significant activity under hypoxic conditions. Both photosensitisers showed low to nondeterminable dark toxicity. Flow cytometric analysis revealed that ADPM01 and ADPM06 were highly effective at inducing apoptosis as a mode of cell death. The photophysical and biological characteristics of these PDT agents suggest that they have potential for the development of new anticancer therapeutics.

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Lorcan T. Allen

Supramolecular Photonic Therapeutic Agents

Synthesis of BF₂chelates of tetraarylazadipyrromethenes and evidence for their photodynamic therapeutic behaviour

Surface-induced changes in protein adsorption and implications for cellular phenotypic responses to surface interaction

Interaction of soft condensed materials with living cells: Phenotype/transcriptome correlations for the hydrophobic effect

A potent nonporphyrin class of photodynamic therapeutic agent: cellular localisation, cytotoxic potential and influence of hypoxia

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Lorcan T. Allen

Supramolecular Photonic Therapeutic Agents

Synthesis of BF2chelates of tetraarylazadipyrromethenes and evidence for their photodynamic therapeutic behaviour

Surface-induced changes in protein adsorption and implications for cellular phenotypic responses to surface interaction

Interaction of soft condensed materials with living cells: Phenotype/transcriptome correlations for the hydrophobic effect

A potent nonporphyrin class of photodynamic therapeutic agent: cellular localisation, cytotoxic potential and influence of hypoxia

Contact Info

Product

Resources

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Synthesis of BF₂chelates of tetraarylazadipyrromethenes and evidence for their photodynamic therapeutic behaviour