47 research outputs found
Malten, a new synthetic molecule showing in vitro antiproliferative activity against tumour cells and induction of complex DNA structural alterations
Background:
Hydroxypyrones represent several classes of molecules known for their high synthetic versatility. This family of molecules shows several interesting pharmaceutical activities and is considered as a promising source of new anti neoplastic compounds.
Methods:
In the quest to identify new potential anti cancer agents, a new maltol (3-hydroxy-2-methyl-4-pyrone)-derived molecule, named malten (N,N′-bis((3-hydroxy-4-pyron-2-yl)methyl)-N,N′-dimethylethylendiamine), has been synthesised and analysed at both biological and molecular levels for its antiproliferative activity in eight tumour cell lines.
Results:
Malten exposure led to a dose-dependent reduction in cell survival in all the neoplastic models studied. Sublethal concentrations of malten induce profound cell cycle changes, particularly affecting the S and/or G2-M phases, whereas exposure to lethal doses causes the induction of programmed cell death (apopotosis). The molecular response to malten was also investigated in two biological models: JURKAT and U937 cells. It showed the modulation of genes having key roles in cell cycle progression and apoptosis. Finally, as part of the effort to clarify the action mechanism, we showed that malten is able to impair DNA electrophoretic mobility and drastically reduce both PCR amplificability and fragmentation susceptibility of DNA.
Conclusion:
Taken together, these results show that malten may exert its antiproliferative activity through the induction of complex DNA structural modifications. This evidence, together with the high synthetic versatility of maltol-derived compounds, makes malten an interesting molecular scaffold for the future design of new potential anticancer agents
Biochemical mutagens affect the preservation of fungi and biodiversity estimations
Many fungi have significant industrial applications
or biosafety concerns and maintaining the original
characteristics is essential. The preserved fungi have to
represent the situation in nature for posterity, biodiversity
estimations, and taxonomic research. However, spontaneous
fungal mutations and secondary metabolites affecting
producing fungi are well known. There is increasing
interest in the preservation of microbes in Biological
Resource Centers (BRC) to ensure that the organisms
remain viable and stable genetically. It would be anathema
if they contacted mutagens routinely. However, for
the purpose of this discussion, there are three potential
sources of biochemical mutagens when obtaining individual
fungi from the environment: (a) mixtures of microorganisms
are plated routinely onto growth media
containing mutagenic antibiotics to control overgrowth
by contaminants, (b) the microbial mixtures may contain
microorganisms capable of producing mutagenic secondary
metabolites, and (c) target fungi for isolation may
produce “self” mutagens in pure culture. The probability
that these compounds could interact with fungi undermines
confidence in the preservation process and the
potential effects of these biochemical mutagens are considered
for the first time on strains held in BRC in this
review
Genotoxicity and mutagenicity of Echinodorus macrophyllus (chapéu-de-couro) extracts
Echinodorus macrophyllus, commonly known as chapéu-de-couro, is a medicinal plant used in folk medicine to treat inflammation and rheumatic diseases. In this work, we used short-term bacterial assays based on the induction of SOS functions to examine the genotoxicity and mutagenicity of an aqueous extract of E. macrophyllus leaves. Whole extract and an ethyl acetate fraction showed similar genotoxicity and caused an ~70-fold increase in lysogenic induction. The extract also gave a positive result in the SOS chromotest with an increase of 12-fold in β-Galactosidase enzymatic units. There was a strong trend towards base substitutions and frameshifts at purine sites in the mutations induced by the extract in Escherichia coli (CC103 and CC104 strains) and Salmonella typhimurium test strains (22-fold increase in histidine revertants in TA98 strain). Since reactive oxygen species may be implicated in aging process and in degenerative diseases, we used antioxidant compounds as catalase, thiourea and dipyridyl in the lysogenic induction test. All this compounds were able to reduce the induction factor observed in the treatment with chapéu-de-couro, thus suggesting that the genotoxicity and mutagenicity were attributable to the production of reactive oxygen species that targeted DNA purines
(+)-Altholactone exhibits broad spectrum immune modulating activity by inhibiting the activation of pro-inflammatory cytokines in RAW 264.7 cell lines
An evaluation of Indonesian plants to identify compounds with immune modulating activity revealed that the methanolic extract of an Alphonsea javanica Scheff specimen possessed selective anti-inflammatory activity in a nuclear factor-kappa B (NF-kappa B) luciferase and MTT assay using transfected macrophage immune (Raw264.7) cells. A high-throughput LC/MS-ELSD based library approach of the extract in combination with the NF-kappa B and MTT assays revealed the styryl lactone (+)-altholactone (2) was responsible for the activity. Compound 2, its acetylated derivate (+)-3-O-acetylaltholactone (3), and the major compound of this class, (+)-goniothalmin (1), were further evaluated to determine their anti-inflammatory potential in the NF-kappa B assay. Concentration-response studies of 1-3 indicated that only 2 possessed NF-kappa B based anti-inflammatory activity. Compound 2 reduced the LPS-induced NO production, phosphorylation of I kappa B alpha, and the expression of inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2) using Western blot analysis. Further studies using qPCR indicated 2 reduced the expression of eight pro-inflammatory cytokines/enzymes (0.8-5.0 mu M) which included: COX-2, iNOS, IP-10, IL-1 beta, MCP-1, GCS-F, IL-6 and IFN-beta. These results indicated that 2 displays broad spectrum immune modulating activity by functioning as an anti-inflammatory agent against LPS-induced NF-kappa B signaling. Conversely the selective cytotoxicity and in vivo anti-tumor and anti-inflammatory activity previously reported for 1 do not appear to arise from a mechanism that is linked to the NF-kappa B immune mediated pathway. (C) 2013 Published by Elsevier Ltd.211443584364Fogarty International Center [U01TW008160]Office of Dietary SupplementsNational Science FoundationDepartment of EnergyUSDA Agricultural Food Research Initiative of the National Institute of Food and Agriculture, USDA [35621-04750]NIH-MARC [GM007910-31]Fogarty International Center [U01TW008160]USDA Agricultural Food Research Initiative of the National Institute of Food and Agriculture, USDA [35621-04750]NIH-MARC [GM007910-31