Anti-Aging Potentials of Methylene Blue for Human Skin Longevity.

Oxidative stress is the major cause of skin aging that includes wrinkles, pigmentation, and weakened wound healing ability. Application of antioxidants in skin care is well accepted as an effective approach to delay the skin aging process. Methylene blue (MB), a traditional mitochondrial-targeting antioxidant, showed a potent ROS scavenging efficacy in cultured human skin fibroblasts derived from healthy donors and from patients with progeria, a genetic premature aging disease.

Performance and data interpretation of the in vivo comet assay in pharmaceutical industry: EFPIA survey results.

In genotoxicity testing of pharmaceuticals the rodent alkaline comet assay is being increasingly used as a second in vivo assay in addition to the in vivo micronucleus assay to mitigate in vitro positive results as recommended by the ICH S2(R1) guideline. This paper summarizes a survey suggested by the Safety Working Party of European Medicines Agency (EMA), and conducted by the European Federation of Pharmaceutical Industries and Associations (EFPIA) to investigate the experience among European pharmaceutical companies by conducting the in vivo comet assay for regulatory purpose. A special focus was given on the typology of the obtained results and to identify potential difficulties encountered with the interpretation of study data.

Genotoxins induce binucleation in L5178Y and TK6 cells.

Following the initial observation that methyl methanesulphonate induced binucleated cells in the AHH-1 line and a significant number of them contained micronuclei, human lymphoblastoid TK6 and mouse lymphoma L5178Y cells were treated with methyl methanesulphonate, methylnitrosourea, mitomycin C, cytosine arabinoside, colchicine and triton X. All except triton X induced binucleated cells in both lines but an increased micronucleus incidence in them was seen only in TK6. The two lines also differed in the numbers of binucleates in the control cultures with 2.

Maximum dose levels for the rodent comet assay to examine damage at the site of contact or to the gastrointestinal tract.

The comet assay can be applied to virtually any tissue and it has been noted that it can be particularly useful in evaluating directly acting genotoxins at their initial site of action. Consequently, it has become relatively common practice to use the stomach comet assay after oral administration to test chemicals that have given positive in vitro genotoxicity results in the absence of metabolic activation. However, to test nontoxic substances up to the limit doses of 1000/2000mg/kg formulations approaching molar concentrations must be used resulting in the stomach mucosa being exposed to excessively high levels.

A critique of methods to measure cytotoxicity in mammalian cell genotoxicity assays.

Various methods have been used to estimate cytotoxicity in mammalian cell genotoxicity assays since their introduction more than four decades ago, and although there is no agreement on whether any single method is optimal, there is now a better appreciation of their limitations. Methods based on aspects of cellular function are inevitably inaccurate unless some estimate of cell number is included, and those using some measure of cell proliferation give different results depending on the mathematical model used. Although it would be desirable, it is not possible to provide a universal measure of cytotoxicity because the phenomenon is so complex.

Theoretical studies of chemical reactivity of metabolically activated forms of aromatic amines toward DNA.

The metabolism of aromatic and heteroaromatic amines (ArNH₂) results in nitrenium ions (ArNH⁺) that modify nucleobases of DNA, primarily deoxyguanosine (dG), by forming dG-C8 adducts. The activated amine nitrogen in ArNH⁺ reacts with the C8 of dG, which gives rise to mutations in DNA. For the most mutagenic ArNH₂, including the majority of known genotoxic carcinogens, the stability of ArNH⁺ is of intermediate magnitude.

Chromosome aberration frequency in rat peripheral lymphocytes increases with repeated dosing with hexamethylphosphoramide or cyclophosphamide.

Although there are several in vivo tests for potential genotoxicity, with the possible exception of the transgenic rodent mutation models, none is specifically intended to assess increasing damage with chronic administration. In principle, peripheral blood lymphocytes would be expected to accumulate DNA damage with repeated dosing because the majority are not in active division and appear to have limited DNA repair capability, and they are exposed to plasma levels of test materials and metabolites. However, there appear to be no published reports confirming this principle.

Explanation for main features of structure-genotoxicity relationships of aromatic amines by theoretical studies of their activation pathways in CYP1A2.

Aromatic and heteroaromatic amines (ArNH(2)) represent a class of potential mutagens that after being metabolically activated covalently modify DNA. Activation of ArNH(2) in many cases starts with N-hydroxylation by P450 enzymes, primarily CYP1A2. Poor understanding of structure-mutagenicity relationships of ArNH(2) limits their use in drug discovery programs.

A rapid, semi-automated method for scoring micronuclei in mononucleated mouse lymphoma cells.

A semi-automated scoring system has been developed to provide rapid, accurate assessment of micronuclei in preparations of mononuclear mouse lymphoma L5178Y cells. Following exposure to a range of test agents, flat, single-cell preparations were produced from exponentially growing cultures by cytocentrifugation. Following staining with 4'-6-diamidino-2-phenylindole (DAPI), cells were scanned by use of the MicroNuc module of Metafer 4 v 3.

Optimization of a radiolabel DNA-binding assay in cultured mammalian cells.

An improved protocol for the radiolabel DNA-binding assay, which gives a high yield of highly pure DNA has been developed by use of mouse lymphoma cells. The critical difference from previously published methods is the use of enzymatic degradation of proteins in the later DNA purification steps rather than during the homogenisation procedure. Different DNA-purification methodologies were first compared and the protocol of choice was optimized later on; both steps were performed with [(35)S]-labelled amino acids for labelling of cellular protein, which enabled both the quantification of cellular protein contaminating the DNA sample and the distinction between cellular and enzyme-derived protein.

Suitable top concentration for tests with mammalian cells: mouse lymphoma assay workgroup.

The Mouse Lymphoma Expert Workgroup of the International Workshop for Genotoxicity Tests (IWGT) met in Basel, Switzerland in August of 2009. The Workgroup (WG) was tasked with discussing the appropriate top concentration for non-pharmaceuticals that would be required for the conduct of the mouse lymphoma assay (MLA) when sufficient cytotoxicity [to between 10 and 20% relative total growth (RTG)] has not been attained. The WG approached this task by (1) enumerating the various regulatory decisions/use for MLA data, (2) discussing the appropriate assays to which MLA data and assay performance should be compared and (3) discussing all the proposals put forth concerning the top concentration for non-pharmaceuticals.

Improvement of in vivo genotoxicity assessment: combination of acute tests and integration into standard toxicity testing.

A working group convened at the 2009 5th IWGT to discuss possibilities for improving in vivo genotoxicity assessment by investigating possible links to standard toxicity testing. The working group considered: (1) combination of acute micronucleus (MN) and Comet assays into a single study, (2) integration of MN assays into repeated-dose toxicity (RDT) studies, (3) integration of Comet assays into RDT studies, and (4) requirements for the top dose when integrating genotoxicity measurements into RDT studies. The working group reviewed current requirements for in vivo genotoxicity testing of different chemical product classes and identified opportunities for combination and integration of genotoxicity endpoints for each class.

Collaborative study on fifteen compounds in the rat-liver Comet assay integrated into 2- and 4-week repeat-dose studies.

A collaborative trial was conducted to evaluate the possibility of integrating the rat-liver Comet assay into repeat-dose toxicity studies. Fourteen laboratories from Europe, Japan and the USA tested fifteen chemicals. Two chemicals had been previously shown to induce micronuclei in an acute protocol, but were found negative in a 4-week Micronucleus (MN) Assay (benzo[a]pyrene and 1,2-dimethylhydrazine; Hamada et al.