The Evaluation of Metal Co-ordinating Bis-Thiosemicarbazones as Potential Anti-malarial Agents.

Background: The emergence of resistance to the artemisinins which are the current mainstays for antimalarial chemotheraphy has created an environment where the development of new drugs acting in a mechanistally discrete manner is a priority.

Objective: The goal of this work was to synthesize ane evaluate bis-thiosemicarbazones as potential antimalarial agents.

Methods: Fifteen compounds were generated using two condensation protocols and evaluated in vitro against the NF54 (CQ sensitive) strain of Plasmodium falciparum.

Biogeography and organic matter removal shape long-term effects of timber harvesting on forest soil microbial communities.

The growing demand for renewable, carbon-neutral materials and energy is leading to intensified forest land-use. The long-term ecological challenges associated with maintaining soil fertility in managed forests are not yet known, in part due to the complexity of soil microbial communities and the heterogeneity of forest soils. This study determined the long-term effects of timber harvesting, accompanied by varied organic matter (OM) removal, on bacterial and fungal soil populations in 11- to 17-year-old reforested coniferous plantations at 18 sites across North America.

Cytotoxic activity of expanded coordination bis-thiosemicarbazones and copper complexes thereof.

A series of bis-thiosemicarbazone agents with coordinating groups capable of multiple metal coordination modes has been generated and evaluated for potential cytotoxic effects against melanoma (MelRm) and breast adenocarcinoma (MCF-7) cell lines. The bis-thiosemicarbazones in this study generally demonstrated superior cytotoxic activity against MelRm than MCF-7 in the absence of metal ion supplementation, but in most cases could not be considered superior to the reference thiosemicarbazone Dp44mT. The key structural features for the cytotoxic activity were the central metal binding atom on the aromatic core, the thiocarbonyl residue and the nature of substitution on the N4-terminus in terms of size and lipophilicity.

Investigation of the cytotoxic implications of metal chelators against melanoma and approaches to improve the cytotoxicity profiles of metal coordinating agents.

The cytotoxic activity of thiosemicarbazones (TSC) and thiocarbohydrazones was investigated against the MelRm melanoma cell line. In general, the melanoma line was susceptible to metal coordinating agents, the most useful of which incorporated the dipyridyl ketone hydrazone sub-structure. The impact of copper supplementation on the cytotoxic activity towards the melanoma line (MelRm) of metal coordinating agents when acting as ionophores is less predictable than the general improvement that has been seen in other cancer cells such as breast adenocarcinoma (MCF-7).

Increased generation of intracellular reactive oxygen species initiates selective cytotoxicity against the MCF-7 cell line resultant from redox active combination therapy using copper-thiosemicarbazone complexes.

The combination of cytotoxic copper-thiosemicarbazone complexes with phenoxazines results in an up to 50-fold enhancement in the cytotoxic potential of the thiosemicarbazone against the MCF-7 human breast adenocarcinoma cell line over the effect attributable to drug additivity-allowing minimization of the more toxic copper-thiosemicarbazone component of the therapy. The combination of a benzophenoxazine with all classes of copper complex examined in this study proved more effective than combinations of the copper complexes with related isoelectronic azines. The combination approach results in rapid elevation of intracellular reactive oxygen levels followed by apoptotic cell death.

Improved cytotoxicity of pyridyl-substituted thiosemicarbazones against MCF-7 when used as metal ionophores.

Zinc is the second most abundant transition metal in the human body, between 3 and 10% of human genes encoding for zinc binding proteins. We have investigated the interplay of reactive oxygen species and zinc homeostasis on the cytotoxicity of the thiosemicarbazone chelators against the MCF-7 cell line. The cytotoxicity of thiosemicarbazone chelators against MCF-7 can be improved through supplementation of ionic zinc provided the zinc ion is at a level exceeding the thiosemicarbazone concentration.

Selective induction of oxidative stress in cancer cells via synergistic combinations of agents targeting redox homeostasis.

Cancer cell resistance to chemotherapy is still a heavy burden that impairs the response of many cancer patients to conventional chemotherapy. Using drug combinations is one therapeutic approach to overcome the developing resistance to any one drug. Oxidative stress is now a generally regarded hallmark of cancer that can be one approach to selectively target cancer cells while sparing normal cells.

Biogeochemical Research Priorities for Sustainable Biofuel and Bioenergy Feedstock Production in the Americas.

Rapid expansion in biomass production for biofuels and bioenergy in the Americas is increasing demand on the ecosystem resources required to sustain soil and site productivity. We review the current state of knowledge and highlight gaps in research on biogeochemical processes and ecosystem sustainability related to biomass production. Biomass production systems incrementally remove greater quantities of organic matter, which in turn affects soil organic matter and associated carbon and nutrient storage (and hence long-term soil productivity) and off-site impacts.

Escherichia coli sequence type 131 as a prominent cause of antibiotic resistance among urinary Escherichia coli isolates from reproductive-age women.

The recent emergence of multidrug-resistant Escherichia coli sequence type 131 (ST131) has coincided with an increase in general antibiotic resistance of E. coli, suggesting that ST131 has a contributing role in resistance. However, there is little information about the contribution of ST131 to different clinical syndromes or the basis for its impressive emergence and epidemic spread.

Genotypic and phenotypic characterization of Escherichia coli isolates from children with urinary tract infection and from healthy carriers.

Background: Urinary tract infections (UTI) are common in children and contribute significantly to morbidity and mortality. The major cause is Escherichia coli, carrying multiple virulence-associated factors (VFs). However, the specific traits that distinguish childhood uropathogenic E.

Multiplex PCR-based reverse line blot assay for simultaneous detection of 22 virulence genes in uropathogenic Escherichia coli.

Urinary tract infections (UTIs) are among the most common bacterial infections and are responsible for significant morbidity and health care costs worldwide. The main bacterial cause of uncomplicated UTI is Escherichia coli, which possesses numerous virulence factors (VFs). Many studies of the pathogenesis of E.

RET-mediated gene expression pattern is affected by isoform but not oncogenic mutation.

The inherited cancer syndrome multiple endocrine neoplasia type 2 (MEN 2) is caused by mutations of the RET receptor tyrosine kinase and is characterized by medullary thyroid carcinoma. MEN 2 subtypes have distinct mutational spectrums and vary in severity. The most severe disease subtype, MEN 2B, is associated with a specific RET mutation (M918T) that has been predicted to alter downstream signaling and target gene expression patterns.

A model for GFR alpha 4 function and a potential modifying role in multiple endocrine neoplasia 2.

Mutations of the RET proto-oncogene are found in the majority of patients with the inherited cancer syndrome multiple endocrine neoplasia type 2 (MEN 2). A minority of cases, however, have no detectable RET mutation and there is considerable phenotypic variation within and among MEN 2 families with the same RET mutation, suggesting a role for other loci in this disease. A candidate for such a gene is glial cell line-derived neurotrophic factor receptor alpha 4 (GFRA4), which encodes a cell surface-bound co-receptor (GFR alpha 4) required for interaction of RET with its ligand persephin.

Transcriptional repression of the RET proto-oncogene by a mitogen activated protein kinase-dependent signalling pathway.

Transcription factors play important roles in regulating cell growth and differentiation. In this study, treatment of the MTC cell line, TT, with phorbol 12-myristate 13-acetate (PMA) was shown to reduce neurite outgrowth which may be associated with de-differentiation and loss of the transformed phenotype. Northern blotting revealed that PMA transiently induced early growth response gene 1 (Egr-1) expression and decreased RET expression.