Proflavine/acriflavine derivatives with versatile biological activities.

Proflavine derivatives are extremely interesting chemotherapeutic agents, which have shown promising pharmaceutical potential due to their wide range of biological activities. This review summarizes the current state of research into the anticancer, antimicrobial, antimalarial and antileishmanial properties of these attractive compounds. Our attention has focused on new classes of proflavine conjugates, which display significant levels of anticancer activity. Highly promising cytotoxic properties have been identified in proflavine conjugates with imidazolidinones, ureas and thioureas. In particular, proflavine-dialkyldithioureas displayed substantial cytotoxic effect against the human leukemia HL-60 cells with IC50 values from 7.2 to 34.0 µm. As well, palladium complexes with proflavine ligand have important biologic activity. The LC50 values of these complexes were significantly lower than that of cisplatin against the SK-BR-3 cell line.

Subcellular localization of proflavine derivative and induction of oxidative stress--in vitro studies.

Acridines have been studied for several decades because of their numerous biological effects, especially anticancer activity. Recently, cytotoxicity of novel acridine derivatives, 3,6-bis((1-alkyl-5-oxo-imidazolidin-2-yliden)imino)acridine hydrochlorides (AcrDIMs), was confirmed for leukemic cell lines [Bioorg. Med. Chem.2011, 19, 1790]. The mechanism of action of the most cytotoxic hexyl-AcrDIM was studied in this paper focusing attention on a subcellular distribution of the drug. Accumulation of hexyl-AcrDIM in mitochondria was confirmed after labeling mitochondria with MitoRED using ImageStream Imaging Flow Cytometer. The derivative significantly decreased intracellular ATP level (reduction of ATP level was decreased by vitamin E), and induced oxidative stress (ROS production detected by DHE assay) as well as cell cycle arrest in the S-phase (flow cytometry analysis) already after short-time incubation and induction of apoptosis. Cytotoxicity of hexyl-AcrDIM is closely connected with induction of oxidative stress in cells.

[Comparative toxicity of photosensitizers in varying destruction].

The toxicity of the photosensitizers proflavine acetate (PA) versus methylene blue (MB) was evaluated during their varying destruction. Under the influence of visible light, a partial (25%) transformation of the photosensitizers was shown to be attended by their enhanced toxicity and 100% destruction of the parent substances caused a reduction in their hazard. PA and its phototransformation products mainly affect the antiperoxide protection system and the structural and functional states of the liver, kidney, and duodenum. The maximum noneffective dose is 0.002 mg/kg. The possibility of using PA for water disinfection depends on the ratio of safe and effective concentrations. A partial (25%) MB destruction products cause mutagenic effects; the permissible dose of the mutagen is 0.00025 mg/kg. MB is not recommended for disinfection of all types of waters.

Synthesis, DNA interaction, and cytotoxic activity of a novel proflavine-dithiazolidinone pharmacophore.

Five novel proflavine-dithiazolidinone derivatives 4a-4e have been designed and synthesized by the reaction of dialkyl acridin-3,6-diyl dithioureas 3a-3e with methyl bromoacetate. The binding affinity of dithiazolidinone hydrochlorides 5a-5e with calf thymus DNA and plasmid (pUC19) DNA was investigated by a variety of spectroscopic techniques including UV-vis, fluorescence, and CD spectroscopy. The effects of 5a-5e on the thermal denaturation profiles of calf thymus DNA were also studied. From spectrophotometric and spectrofluorimetric titrations, the binding constants for the pUC19 DNA-drug complexes were determined (K = 6.2-2.2 x 104 M-1). In vitro cytotoxic activities of compounds 5a-5e toward murine leukemia cell line L1210 and human uterus carcinoma HeLa cells were also examined. 2',2' '-[(Acridin-3,6-diyl)diimino]-3',3' '-dipropyl-1,3-dithiazolidin-4-one hydrochloride (5b) showed the highest activity against these cells with IC50 values of 6.3 microM and 12.9 microM over the course of 72 h.

Cytotoxicity study of tacrine, structurally and pharmacologically related compounds using rat hepatocytes.

Tacrine is the first drug approved for the treatment of Alzheimer's disease. Approximately 50% of patients treated with tacrine develop elevated serum aminotransferase levels, as an indication of potential hepatotoxicity. However, acute and chronic studies with a limited number of animal models have not demonstrated hepatotoxicity. The present study compared the cytotoxicity in hepatocyte cultures of tacrine with structurally (proflavine and 9-aminoacridine) or pharmacologically similar compounds (physostigmine), as well as structurally modified tacrine to determine if there was a structure activity relationship with regards to toxicity. Cytotoxicity was assessed by determination of extra- and intracellular amounts of lactate dehydrogenase. Cytotoxicity was assessed after a four-hour exposure over a test compound concentration range of 0 to 3 mM. Concentration-dependent cytotoxicity occurred with tacrine and all structurally related compounds. Physostigmine which is pharmacologically similar, but structurally different, did not induce cytotoxicity. Cytotoxic potency did not appear to be related to acetylcholinesterase inhibitory activity, while compounds with acridine structures induced cytotoxicity. Thus, in this in vitro model, cytotoxicity appears to be related to structure and not pharmacological action. Results of this study indicate that compounds structurally related to tacrine are cytotoxic because of the heterocyclic ring structure. Neither unsaturation of an aromatic ring of the heterocyclic compound, amino substitution of the heterocyclic rings, N-hydroxylation of the amino group, nor ring hydroxylation dramatically alter cytotoxicity.

Evaluation and application of a bioluminescent bacterial genotoxicity test.

The Mutatox test (commercial name for the bioluminescent bacterial genotoxicity test) has been shown to be a good alternative to the Ames test. The test uses dark mutants of luminous bacteria (Vibrio fischeri) and determines the ability of various genotoxic agents to restore the luminescence by inducing mutation. It provides a rapid screening test which can be used to assay the genotoxicity of large numbers of pure and complex compounds. The test is completed in 1 day, and by serially diluting the compound, dose response data plus toxicity data can be generated for a number of samples simultaneously. For the direct assay (without exogenous metabolic activation), the positive controls selected were 3,6-diaminoacridine (proflavine) and N-methyl-N-nitro-nitrosoguanidine. For the S-9 assay, which incorporated the microsome fraction (S-9) from rat liver as an exogenous metabolic activation system, the positive controls selected were aflatoxin B1 and benzo(a)pyrene. This study also indicated that methyl-imidazo-quinoline and tryptophan pyrolysates were genotoxic in the presence of S-9 activation, aflatoxin B1 epoxide and fumonisin B1 showed direct genotoxic activity, and aflatoxin B2 and ochratoxin A were not genotoxic.

A proflavin-induced frameshift hotspot in the thymidylate synthase gene of bacteriophage T4.

Twenty-one independent thymidylate synthase deficient (td) mutants were isolated after proflavin mutagenesis of T4D0 phage. A strikingly high proportion of these mutations (17 of 21; 80%) mapped in a small 122 nucleotide (nt) region which spans the 5' splice site of this intron-containing gene. This region comprises only 14% of the total td exon sequence. RNA sequence analysis of these mutants identified a series of frameshift insertion/deletion mutations and indicated a hotspot for proflavin-induced mutations in the 3' end of exon I of the td gene. The mutant sequences at the hotspot site fully support a previously proposed mutagenic mechanism for proflavin-induced mutations in which frameshifts are produced as a consequence of exonuclease or DNA polymerase activity at the 3' ends of nicks in the DNA produced by perturbation of the T4-encoded type II topoisomerase activity by the acridine. Sixteen of the seventeen DNA mutations in the hotspot region can be explained by the model as a consequence of enzymatic processing of nicks at two phosphodiester bonds staggered by 4 base pairs (bp) and located on opposite strands of the DNA. Thus, these mutants exhibit precisely the symmetry expected of topoisomerase-mediated mutagenesis. The DNA sequences of the td hotspot mutants, when considered with the sequences of proflavin-induced mutants in the T4 rIIB and lysozyme genes, confirm the view that proflavin-induced mutations in diverse bacteriophage T4 DNA sequences are all produced by the topoisomerase-dependent mechanisms and do not support the view that classical misalignments in DNA repeats are hotspots for proflavin-induced mutagenesis in T4.

Photo-enhancement of the mutagenicity of 9-anilinoacridine derivatives related to the antitumour agent amsacrine.

The frameshift mutagenicity of the DNA intercalating drug proflavine is known to be enhanced by photoirradiation of bacterial cultures. To determine whether this phenomenon was also present in acridine-derived antitumour drugs, cultures of Salmonella typhimurium were exposed to the antileukaemia agent amsacrine and the experimental agent N-[2-(dimethylamino)ethyl]acridine-4-carboxamide dihydrochloride (acridine carboxamide) in the presence or absence of visible light. A small increase in mutagenicity was observed with amsacrine but not with acridine carboxamide. A series of analogues of amsacrine were then tested, and a striking relationship was found between the minimum drug concentration for mutagenicity and DNA binding affinity. In each case, photoirradiation was associated with a small increase in mutagenicity. Each of the compounds showing the photo-enhancement effect was capable of reversible one-electron oxidation. It is suggested that this oxidation occurs in bacteria, and that the DNA binding constant of the resulting acridine radical species will increase because of the extra positive charge. This increased DNA binding would be sufficient to explain the photo-enhancement of mutagenicity of these drugs.

Variation in the mutagenic potential of acridines in Salmonella typhimurium, with stage of the culture.

The mutagenic potential of proflavine differed by up to two orders of magnitude in three strains of Salmonella typhimurium carrying the frameshift marker hisC3076, depending upon the stage of the culture. In cultures at a specific stage, proflavine showed decreased mutagenesis in a recA as compared with a wildtupe or uvrB derivative. The related compound 9-aminoacridine also showed marked variation in mutagenic potential with the stage of the bacterial culture, but was equally mutagenic in all three strains, at least in log phase cells. Within the literature, there are conflicting data regarding the mutagenicity of acridines, and the contribution of repair enzymes to this event. We suggest that many of the reported differences can be related to the variations in bacterial growth conditions in different laboratories, and urge authors to supply more details of these.

Photocarcinogenesis by methoxypsoralen, neutral red, proflavine, and long UV radiation.

A study of the photosensitizing effects of 8-methoxypsoralen (MOP), neutral red (NR), and proflavine (PF) on the skin of female Swiss albino mice, strain 955, was carried out using fractionated exposure to long ultraviolet light (300-400 nm) and visible light (tungsten emission). The results (1) confirmed MOP photocarcinogenicity, (2) demonstrated that both NR and PF are photocarcinogens, and, further, (3) showed that the above UV light with 2.6% of fluence at 313 nm is a long-term carcinogenic agent even though the total dose of 313 nm was 100 times less than the minimal UV tumorigenic dose in mice. The tumors were mammary adenocarcinomas, carcinomas of skin appendages, carcino-mixo-sarcomas, lymphomas, and one case of thyroid adenocarcinoma. The implications of the above data regarding the controversy about oncogenic risks in photochemotherapy are discussed.

Tumor virus induction and host cell capacity inactivation: possible in vitro tests for photosensitizing chemicals.

The responses of two in vitro mammalian virus-host cell systems to the photosensitizing chemicals proflavine sulfate and 8-methoxypsoralen (8-MOP) in the presence of light are described. Infectious simian virus 40 (SV40) could be induced from SV40-transformed hamster cells by treatment with proflavine plus visible light or 8-MOP plus near UV radiation. The same photosensitizing treatments inactivated the capacity of monkey cells to support the growth of herpes simplex virus. SV40 induction and inactivation of host cell capacity for herpesvirus growth might be useful as screening systems for testing the photosensitizing potential of chemicals. Advantages and disadvantages associated with each system are discussed.

Proflavine and light in the treatment of experimental herpetic ocular infections.

The effect of purified proflavine and light exposure was assessed in rabbits whose eyes had been infected with one of two strains of herpesvirus. In comparing proflavine-light and placebo-light treatment, 0.1% proflavine administered twice daily for 5 days had a significant effect in suppressing herpetic eye disease, but 0.05% proflavine was less effective. In addition to being effective in infections with either virus strain, the 0.1% proflavine also suppressed intensity of corneal epithelial ulceration and stromal opacity in animals pretreated with subconjunctival corticosteroids to produce more severe disease. Proflavine or idoxuridine (IDU) alone or in combination showed no differences in suppressing herpetic ocular disease, but all were significantly more effective than placebo. Virus recovery rates were approximately the same from eyes treated with proflavine, IDU, or placebo, indicating that viral replication in the cornea and conjunctiva was not completely suppressed by either of the antiviral drugs alone or in combination.