Your search keyword '"Kazana E"' showing total 4 results

1. Repurposing in vitro approaches for screening anti-parasitic drugs against the brain-eating amoeba Naegleria fowleri.

Author

Martín-Escolano R, Yiangou L, Kazana E, Robinson GK, Michaelis M, and Tsaousis AD

Subjects

Brain, Drug Repositioning, Humans, United States, Amoeba, Naegleria fowleri, Pharmaceutical Preparations

Abstract

Naegleria fowleri is both a pathogenic and a free-living microbial eukaryote, responsible for the development of primary amoebic meningoencephalitis (PAM) in humans. PAM is a rapid, severe and fatal underestimated infectious disease, which has been reported in countries with warmer climates. The major drawbacks with PAM are the lack of effective therapies and delay in diagnosis. The current frontline treatment presents a low rate of recovery (5%) and severe adverse effects. For example, many drug candidates lack efficacy, since they do not effectively cross the blood-brain-barrier. Consequently, more effective drugs are urgently needed. Herein, we report a new in vitro method suitable for medium- and high-throughput drug discovery assays, using the closely related Naegleria gruberi as a model. We have subsequently used this method to screen a library of 1175 Food and Drug Administration-approved drugs. As a result, we present three drugs (camptothecin, pyrimethamine, and terbinafine) that can be repurposed, and are anticipated to readily cross the blood-brain-barrier with activity against Naegleria species in therapeutically achievable concentrations. Successively, we integrated several in vitro assays that resulted in identifying fast-acting and high amoebicidal drugs. In conclusion, we present a new approach for the identification of anti-Naegleria drugs along with three potential drug candidates for further development for the treatment of PAM., (Copyright © 2021. Published by Elsevier Ltd.)

Published

2021

2. Translation elongation can control translation initiation on eukaryotic mRNAs.

Author

Chu D, Kazana E, Bellanger N, Singh T, Tuite MF, and von der Haar T

Subjects

Codon, Initiator metabolism, Eukaryota, RNA, Messenger genetics, RNA, Messenger metabolism, Ribosomes metabolism, Gene Expression Regulation, Peptide Chain Elongation, Translational, Peptide Chain Initiation, Translational

Abstract

Synonymous codons encode the same amino acid, but differ in other biophysical properties. The evolutionary selection of codons whose properties are optimal for a cell generates the phenomenon of codon bias. Although recent studies have shown strong effects of codon usage changes on protein expression levels and cellular physiology, no translational control mechanism is known that links codon usage to protein expression levels. Here, we demonstrate a novel translational control mechanism that responds to the speed of ribosome movement immediately after the start codon. High initiation rates are only possible if start codons are liberated sufficiently fast, thus accounting for the observation that fast codons are overrepresented in highly expressed proteins. In contrast, slow codons lead to slow liberation of the start codon by initiating ribosomes, thereby interfering with efficient translation initiation. Codon usage thus evolved as a means to optimise translation on individual mRNAs, as well as global optimisation of ribosome availability.

Published

2014

3. The cabbage aphid: a walking mustard oil bomb.

Author

Kazana E, Pope TW, Tibbles L, Bridges M, Pickett JA, Bones AM, Powell G, and Rossiter JT

Subjects

Animals, Aphids growth & development, Aphids metabolism, Brassica metabolism, Coleoptera growth & development, Coleoptera physiology, Feeding Behavior, Hemolymph metabolism, Larva enzymology, Larva growth & development, Larva metabolism, Nymph enzymology, Nymph growth & development, Nymph metabolism, Aphids enzymology, Brassica parasitology, Glucosinolates metabolism, Glycoside Hydrolases metabolism, Insect Proteins metabolism

Abstract

The cabbage aphid, Brevicoryne brassicae, has developed a chemical defence system that exploits and mimics that of its host plants, involving sequestration of the major plant secondary metabolites (glucosinolates). Like its host plants, the aphid produces a myrosinase (beta-thioglucoside glucohydrolase) to catalyse the hydrolysis of glucosinolates, yielding biologically active products. Here, we demonstrate that aphid myrosinase expression in head/thoracic muscle starts during embryonic development and protein levels continue to accumulate after the nymphs are born. However, aphids are entirely dependent on the host plant for the glucosinolate substrate, which they store in the haemolymph. Uptake of a glucosinolate (sinigrin) was investigated when aphids fed on plants or an in vitro system and followed a different developmental pattern in winged and wingless aphid morphs. In nymphs of the wingless aphid morph, glucosinolate level continued to increase throughout the development to the adult stage, but the quantity in nymphs of the winged form peaked before eclosion (at day 7) and subsequently declined. Winged aphids excreted significantly higher amounts of glucosinolate in the honeydew when compared with wingless aphids, suggesting regulated transport across the gut. The higher level of sinigrin in wingless aphids had a significant negative impact on survival of a ladybird predator. Larvae of Adalia bipunctata were unable to survive when fed adult wingless aphids from a 1% sinigrin diet, but survived successfully when fed aphids from a glucosinolate-free diet (wingless or winged), or winged aphids from 1% sinigrin. The apparent lack of an effective chemical defence system in adult winged aphids possibly reflects their energetic investment in flight as an alternative predator avoidance mechanism.

Published

2007

4. MR in cisternal hydatid cysts.

Author

Tsitouridis J, Dimitriadis AS, and Kazana E

Subjects

Humans, Male, Middle Aged, Subarachnoid Space pathology, Brain Diseases diagnosis, Cisterna Magna pathology, Echinococcosis diagnosis, Magnetic Resonance Imaging

Abstract

We describe a case of multiple hydatid cysts in the cerebral subarachnoid space. The diagnosis was based on clinical findings, latex test results, cerebrospinal fluid examination, and MR imaging findings.

Published

1997