ABSTRACT
O objetivo deste estudo foi investigar o efeito da Terapia Fotodinâmica antimicrobiana (TFDa) sobre o Enterococcus faecalis (E. faecalis), in vitro, utilizando a clorofila (CL) como agente fotossensibilizador (FS) e o diodo emissor de luz (LED) como fonte de luz. A cultura pura de E. faecalis foi ativada em caldo de BHI a 37oC por 24h. O cultivo do microrganismo foi centrifugado a 3000rpm por 15min, e o pellet re-suspenso em 0,85% de solução salina. As concentrações da bactéria foram ajustadas para 107UFC mL-1 (unidades formadoras de colônias por mililitro). Diferentes tipos de solventes para a CL foram testados: éter, álcool de cereais, Tween 80 e P-123. 100l do inóculo e o mesmo volume da solução teste foram inseridos em cada poço da placa de microtitulação. A mistura foi agitada e aguardou-se 1min. 25l da suspensão foi removida e diluições seriadas foram realizadas. Alíquotas de cada diluição foram espalhadas na superfície da placa, armazenadas em microaerofilia e incubadas na estufa por 24h a 37oC. O número de UFC foi contado em cada placa. Para o experimento da TFDa, os grupos foram divididos em: controle (G1); TBO 1min (G2); CL+Tween 1min (G3); CL+Tween 5min (G4); CL+P-123 1min (G5); CL+P-123 5min (G6); CL+Tween 1min + LED 1min (G7); CL+Tween 1min + LED 5min (G8); CL+Tween 5min + LED 1min (G9); CL+Tween 5min + LED 5min (G10); CL+P-123 1min + LED 1min (G11); CL+P-123 1min + LED 5min (G12); CL+P-123 5min + LED 1min (G13); CL+P-123 5min + LED 5min (G14); TBO 1min + LED 1min (G15); TBO 1min + LED 5min (G16); LED 1min (G17); LED 5min (G18).Um volume de 100l da suspensão bacteriana foi inserido em poços da placa e o mesmo volume da solução do FS foi adicionado. A CL foi solubilizada em soluções aquosas de Tween ou P-123. Cada poço foi agitado e o tempo de préirradiação foi de 1 ou 5min. O LED foi acionado durante 1 ou 5min. 25l da suspensão foi submetida a diluições seriadas e as alíquotas de cada diluição foram espalhadas na superfície da placa em Ágar BHI...
The aim of this study was to investigate the effect of Antimicrobial Photodynamic Therapy (aPDT) against Enterococcus faecalis (E. faecalis), in vitro, using chlorophyll (CL) as photosensitizer (FS) agent and light-emitting diode (LED) as light source. Pure culture of E. faecalis was cultivated in BHI broth at 37oC for 24h. The culture was centrifuged at 3000rpm for 15min, and the pellets were resuspended in 0.85% saline solution. The bacterial concentrations were adjusted to 107CFU mL-1 (colony forming units per milliliter). Different types of solvents for CL were tested: ether, grain alcohol, Tween 80 and P-123. 100l of inoculum and the same volume of the test solution were inserted into each well of the microtitre plate. The mixture was mixed and 1 min was awaited. 25l of the suspension was removed and serial dilutions were performed. Aliquots of each dilution were spread on the surface of the plates, stored in microaerophilic conditions and incubated for 24h at 37oC. The number CFU was counted in each plate. For aPDT experiment, the groups were divided into: control (G1); TBO 1min (G2); CL+Tween 1min (G3); CL+Tween 5min (G4); CL+P-123 1min (G5); CL+P-123 5min (G6); CL+Tween 1min + LED 1min (G7); CL+Tween 1min + LED 5min (G8); CL+Tween 5min + LED 1min (G9); CL+Tween 5min + LED 5min (G10); CL+P-123 1min + LED 1min (G11); CL+P-123 1min + LED 5min (G12); CL+P-123 5min + LED 1min (G13); CL+P-123 5min + LED 5min (G14); TBO 1min + LED 1min (G15); TBO 1min + LED 5min (G16); LED 1min (G17); LED 5min (G18). A volume of 100l of bacterial suspension was inserted into the well of microtitre plate and the same volume of FS was added. CL was solubilized in aqueous solution of Tween and P-123. Each well was mixed and preirradiation time was 1 or 5min. LED was irradiated during 1 or 5 min. 25l of suspension was subjected to serial dilutions and aliquots of each dilution were spread on the surface of agar BHI plates. The plates were stored and incubated at 37oC for 24h...
Subject(s)
Chlorophyll/therapeutic use , Enterococcus faecalis/radiation effects , Photosensitizing Agents/therapeutic use , Photochemotherapy/methods , Lasers, Semiconductor/therapeutic use , Chlorophyll/chemistry , Photosensitizing Agents/chemistry , Reproducibility of Results , Statistics, Nonparametric , Low-Level Light Therapy/methodsABSTRACT
Quinifuryl (MW 449.52), 2-(5' - nitro - 2' - furanyl) ethenyl - 4 - {N - [4' - (N, N - diethylamino) - 1' - methylbutyl] carbamoyl} quinoline, is a water soluble representative of a family of 5 - nitrofuran - ethenyl - quinoline drugs which has been shown to be highly toxic to various lines of transformed cells in the dark. In the present study, the toxicity of Quinifuryl to P388 mouse leukemia cells was compared in the dark and under illumination with visible light (390 - 500 nm). Illumination of water solutions of Quinifuryl (at concentrations ranging from 0.09 to 9.0 aeg/ml ) in the presence of P388 cells resulted in its photodecomposition and was accompanied by elevated cytotoxicity. A significant capacity to kill P388 cells was detected at a drug concentration as low as 0.09 aeg/ml. The toxic effect detected at this drug concentration under illumination exceeded the effect observed in the dark by more than three times. Moreover, the general toxic effect of Quinifuryl, which included cell proliferation arrest, was nearly 100 percent. Both dose- and time-dependent toxic effects were measured under illumination. The LC50 value of Quinifuryl during incubation with P388 cells was approximately 0.45 aeg/ml under illumination for 60 min and less than 12 aeg/ml in the dark. We have demonstrated that the final products of the Quinifuryl photolysis are not toxic, which means that the short-lived intermediates of Quinifuryl photodecomposition are responsible for the phototoxicity of this compound. The data obtained in the present study are the first to indicate photocytotoxicity of a nitroheterocyclic compound and demonstrate the possibility of its application as a photosensitizer drug for photochemotherapy.
Subject(s)
Animals , Mice , /drug therapy , Photosensitizing Agents/therapeutic use , Quinolines/therapeutic use , Cell Survival/drug effects , Darkness , Drug Evaluation, Preclinical , Lighting , /pathology , Photochemotherapy , Photosensitizing Agents/chemistry , Quinolines/chemistry , Time FactorsABSTRACT
Hematoporphyrin derivative, a drug used in the photodynamic therapy of solid tumours was synthesized in the laboratory and was called Hpd(L). Physico-chemical and biological properties of this drug have been compared with Photofrin II, the commercially available drug. Both Hpd(L) and Photofrin II possess similar properties qualitatively. Quantitatively, Hpd(L) was half as active as Photofrin II in its efficacy in causing photodynamic cytotoxicity or in the optical densities at the absorption peaks. These differences could be due to the differences in the compositions. Hpd(L) is a non-purified complex mixture of a number of porphyrin derivatives whereas Photofrin II is a relatively purer compound consisting of di- and tri-hematoporphyrins linked through ether or ester bonds. In vitro cellular uptake and retention of these drugs has been found to be a passive process not involving energy expenditure. pH and temperature of the incubation media have been found to profoundly influence these processes, while a complex relation seems to exist between physiological state of a cell and accumulation of these photosensitizers.