F Harris1, Z Sayed1, S Hussain1, D A Phoenix2. 1. Department of Forensic and Investigative Science, University of Central Lancashire, Preston PR1 2HE, UK. 2. Faculty of Science, University of Central Lancashire, Preston PR1 2HE, UK.
Abstract
BACKGROUND: There is an urgent need for effective cancer treatments and increasingly, photo-dynamic therapy (PDT) is being used to fulfil this need as it offers a number of advantages over traditional cancer treatments. Here, the potential of a series of phenothiazinium-based photo-sensitisers (PhBPs) as PDT agents is tested. METHODS: PhBPs were incubated with EMT-6 tumour cells and erythrocytes respectively under dark and light conditions (3.15Jcm(-2) over 30min). "Comet assay" and haemolytic assay were then used to assess cellular photo-damage induced by these PhBPs. Additionally, in vitro assays were used to determine light adsorption characteristics, singlet oxygen yields (ΦΔPhBP) and lipophilicity (logP) of these PhBPs. RESULTS: "Comet assay" showed EMT-6 incubation with PhBPs under light conditions to produce DNA "tails", which were circa 35μm long, indicating the presence of DNA photo-damage. Corresponding incubations under dark conditions led to no such damage. The majority of the PhBPs tested possessed significant singlet oxygen yields (ΦΔPhBP>0.7), suggesting the general use of type II mechanisms for photo-sensitization, and were generally lipophilic (logP>0). Incubation of erythrocytes with these PhBPs in the dark produced between 6% and 19% haemolysis. These levels were generally unaffected by illumination except in the case of DMMB, which showed haemolytic levels increasing from 11% to 61%. CONCLUSIONS: It is suggested that DNA may be the primary target for the photo-dynamic anti-tumour activity of the PhBPs tested with the exception of DMMB, which may potentially also target tumour cell membranes.
BACKGROUND: There is an urgent need for effective cancer treatments and increasingly, photo-dynamic therapy (PDT) is being used to fulfil this need as it offers a number of advantages over traditional cancer treatments. Here, the potential of a series of phenothiazinium-based photo-sensitisers (PhBPs) as PDT agents is tested. METHODS: PhBPs were incubated with EMT-6 tumour cells and erythrocytes respectively under dark and light conditions (3.15Jcm(-2) over 30min). "Comet assay" and haemolytic assay were then used to assess cellular photo-damage induced by these PhBPs. Additionally, in vitro assays were used to determine light adsorption characteristics, singlet oxygen yields (ΦΔPhBP) and lipophilicity (logP) of these PhBPs. RESULTS: "Comet assay" showed EMT-6 incubation with PhBPs under light conditions to produce DNA "tails", which were circa 35μm long, indicating the presence of DNA photo-damage. Corresponding incubations under dark conditions led to no such damage. The majority of the PhBPs tested possessed significant singlet oxygen yields (ΦΔPhBP>0.7), suggesting the general use of type II mechanisms for photo-sensitization, and were generally lipophilic (logP>0). Incubation of erythrocytes with these PhBPs in the dark produced between 6% and 19% haemolysis. These levels were generally unaffected by illumination except in the case of DMMB, which showed haemolytic levels increasing from 11% to 61%. CONCLUSIONS: It is suggested that DNA may be the primary target for the photo-dynamic anti-tumour activity of the PhBPs tested with the exception of DMMB, which may potentially also target tumour cell membranes.
Authors: Juan Zhang; Chengshi Jiang; João Paulo Figueiró Longo; Ricardo Bentes Azevedo; Hua Zhang; Luis Alexandre Muehlmann Journal: Acta Pharm Sin B Date: 2017-09-22 Impact factor: 11.413