Laboratory epidemiology and mechanisms of azole resistance in Aspergillus fumigatus

Bueid, Ahmed

January 2012

Although A. fumigatus strains are generally susceptible to azoles, recently, acquired resistance to a number of antifungal compounds has been reported, especially to triazoles possibly due to widespread clinical use of triazoles or through exposure to azole fungicides in the environment. The significant clinical problem of azole resistance has led to study the antifungal resistance mechanisms for developing effective therapeutic strategies. Of 230 clinical A. fumigatus isolates submitted during 2008 and 2009 to the Mycology Reference Centre Manchester, UK (MRCM), 64 (28%) were azole resistant and 14% and 20% of patients had resistant isolates, respectively. Among the resistant isolates, 62 of 64 (97%) were itraconazole resistant, 2 of 64 (3%) were only voriconazole resistant and 78% were multi-azole resistant. The gene encoding 14-α sterol demethylase (cyp51A) was analyzed in 63 itraconazole resistant (ITR-R) and 16 ITR-susceptible clinical and environmental isolates of A. fumigatus respectively. Amino acid substitutions in the cyp51A, the commonest known mechanism of azole resistance in A. fumigatus, were found in some ITR-R isolates. Fifteen different amino acid substitutions were found in the cyp51A three of which, A284T, M220R and M220W, have not been previously reported. In addition, several mutations were found in the cyp51A gene in one of the A. fumigatus environmental isolates. Importantly, a remarkably increased frequency of azole-resistant isolates without cyp51A mutations was observed in 43% of isolates and 54% of patients. Other mechanisms of resistance must be responsible for resistance. In order to assess the contribution of transporters and other genes to resistance, particular resistant isolates that did not carry a cyp51A mutation were studied. The relative expression of three novel transporter genes; ABC11, MFS56 and M85 as well as cyp51A, cyp51B, AfuMDR1, AfuMDR2 AfuMDR3, AfuMDR4 and atrF were assessed using real-time RT-PCR in both azole susceptible and resistant isolates, without cyp51A mutations. Interestingly, deletion of ABC11, MFS56 and M85 from a wild-type strain increased A. fumigatus susceptibility to azoles and these genes showed changes in expression levels in many ITR-R isolates. Most ITR-R isolates without cyp51A mutations showed either constitutive high-level expression of the three novel genes or induction of expression upon exposure to itraconazole. One isolate highly over-expressed cyp51B, a novel finding. Our results are most consistent with over-expression of one or more of these genes in ITR-R A. fumigatus without cyp51A mutations being at least partially responsible for ITR resistance. Multiple concurrent possible resistance mechanisms were found in some isolates. My work probably explains the mechanism(s) of resistance in A. fumigatus isolates with cyp51A mutations. Other ITR resistance mechanisms are also possible. To determine taxonomic relationships among A. fumigatus clinical and environmental isolates, the sequences of the ITS, β-tubulin, actin and calmodulin gene of 23 clinical and 16 environmental isolates were analyzed phylogenetically. Actin and calmodulin sequences proved to be good for species differentiation of A. fumigatus while both ITS, β-tubulin regions did not, in this dataset. Many cryptic species of A. fumigates (complex) were found. All environmental A. fumigates complex isolates were ITR susceptible and no cross resistance was found.

579.5

Synthesis of Taxol™ Analogs as Conformational Probes

Metaferia, Belhu B.

31 July 2002

Taxol™, isolated from the bark of Taxus brevifolia in the late 1960s, and the semisynthetic analog Taxotere™ have proven clinical importance for the treatment of ovarian and breast cancer. Taxol™ exerts its biological effect by binding to polymerized tubulin and stabilizing the resulting microtubules. Studies aimed at understanding the biologically active conformation of taxol and its binding environment on β-tubulin are described. This knowledge is important because it could lead to the design of structurally less complicated drugs with better efficacy and better bioavailability. Moreover, the information can be extended to other natural products that possess microtubule-stabilizing properties similar to Taxol™. In this work, the synthesis of a triply labeled taxol analog is described as well as REDOR studies of this compound complexed to tubulin are in progress. Macrocyclic analogs of taxol have been prepared and their biological activities were evaluated. Chemical modeling of these analogs and their activities agrees with the hypothesis that Taxol™ adopts T-shaped conformation. Difficulties were encountered with the key ring-closing metathesis strategy, suggesting that a more flexible and efficient macrocyclization method will be needed to synthesize additional macrocyclic analogs. / Ph. D.

T-Taxol conformation

Tubulin

Taxol

Microtubules

Macrocyclic analogs

Anti-cancer agents

Ring-closing olefin metathesis

REDOR

ROESY

NAMFIS

Geny β-tubulinových paralogů u rodu Aspergillus: taxonomický význam a markery použitelné v jejich rozlišení / β-tubulin paralogs in Aspergillus: taxonomical importance and molecular tools for distinguishing

Hubka, Vít

January 2011

A beta-tubulin gene (benA) is widely used in taxonomy and identification of Aspergillus spp. and other Fungi.Across Aspergillus spp. There is either one (benA) or two beta-tubulin paralogs (benA and tubC). The risk ofcontemporary use of sequences of paralogous genes with non-homologous function in the same phylogeneticanalysis is well known. It is evident that it had happened repeatedly in Aspergillus section Nigri. It is alarmingthat conventional primers for amplification of partial benA sequence can specifically amplify tubC paralog insome species. In this work, both paralogs were characterised in a set of species. The beta-tubulin primers in usewere revised and new, more benA specific primers were designed. Applicability of some markers such as basecomposition, codon usage and length of introns for distinguishing -tubulin paralogs benA and tubC is tested. Alarge study on molecular diversity of 349 isolates of Aspergillus (PCR-fingerprint, sequence data - ITS, benA,rpb2, caM) originating from Czech culture collections and from clinical material is also included. 82 specieswere identified, togetherwith nine tentative new taxa belonging to sections with high economic impact - Nigri,Fumigati or Aspergillus (Eurotium spp.). Five species from Section Aspergillus could be synonymised withexisting taxa. A study...

Vliv suplementace karotenoidy a oxidačního stresu na morfologii, kvalitu spermií a spermatogenezi u zebřičky pestré / Interactive effects of carotenoid supplementation and oxidative stress on sperm morphology, sperm quality and spermatogenesis in the Zebra finches

Bílková, Karolína

January 2018

The phenotype-linked fertility hypothesis predicts that both, male carotenoid-based sexual ornamentation and their spermatozoa are phenotypically plastic and may be co-affected by the environment. One of the factors affecting their phenotype may be oxidative stress and the ability of organism to eliminate its effect. Oxidative stress may reduce sperm quality because sperm lack the ability to repair DNA, but it can also affect spermatogenesis itself. However, some substances may function as antioxidants, and thus eliminate effect of reactive oxygen species (oxidative stress) in the body. In this study, adult zebra finch males (Taeniopygia guttata) originating from the domesticated and recently wild-derived populations were exposed to the diquat (D), which enhances the oxidative stress, and carotenoid lutein (L), which could have an antioxidant function. Experimental design had factorial character 2x2 with a control (group L, D, LD, control). Neither oxidative stress, carotenoids, nor their interactions affected sperm morphology or velocity and it also did not increase abnormal sperm proportion in the ejaculate. However, the differences were observed at the molecular level, where by inducing the oxidative stress, the sperm had reduced signal intensity of acetylated α-tubulin in the sperm tails....

The identification of protein-protein interactors of the Coxsackievirus and Adenovirus Receptor (CAR) and their impact on cell migration /

Fok, Patrick Terrence.

January 2008

No description available.

Cell Adhesion.

ras GTPase-Activating Proteins.

Receptors, Virus -- physiology.

Tubulin.

Receptors, Cytoplasmic and Nuclear.

Transcription Factors.

Cell Movement.

beta Catenin.

Cytokine expression, cytoskeleton organization, and viability of SIM-A9 microglia exposed to Staphylococcus aureus-derived lipoteichoic acid and peptidoglycan

Roberts, Erin

January 2017

No description available.

Microbiology

Immunology

Staphylococcus aureus

lipoteichoic acid

LTA

peptidoglycan

PGN

microglia

CNS

TNFa

IL-10

tubulin

actin

viability

cytotoxicity

Investigations of the Functions of gamma-Tubulin in Cell Cycle Regulation in <i>Aspergillus nidulans</i>

Nayak, Tania

11 September 2008

No description available.

Cellular Biology

Genetics

Molecular Biology

&947

-tubulin

APC/C

cyclin B

cell cycle

mitotic exit

spindle pole body

Syntheses and Bioactivities of Targeted and Conformationally Restrained Taxol Analogs

Liu, Changhui

01 June 2004

Taxol (1) was first isolated from the bark of the Pacific yew about 35 years ago by Drs. Wall and Wani. Although its development as an anticancer agent was delayed by numerous reasons, including its scarcity and insolubility, the discovery of its tubulin-assembly activity and other factors motivated oncologists to overcome these problems. It has since become one of the most important current drugs for the treatment of several cancers, including breast and ovarian cancers. Like almost all anticancer drugs taxol does have some toxic side effects and many tumors also show significant resistance to therapy with taxol. Drug targeting studies aimed at improving its selectivity and efficacy is described. Two targeting methods, the estrogen receptor (ER) directed targeting and colloidal gold (cAu)directed targeting, were used in our research. In this dissertation, a series of estradiol-taxol conjugates (ETCs) were synthesized. They were active in four cytotoxicity assays and tubulin polymerization assay, but less active than taxol. One of them showed the desired selectivity for ER positive cancer cells. Recently, several studies have attempted to elucidate the bioactive binding conformation of taxol on microtubules. Three models have been proposed for this conformation. The T-taxol conformation was proposed by Dr. Snyder based on electron crystallographic density and molecular modeling. In this dessertation, a series of cyclopropyl-containing taxol analogs and macrocyclic taxol lactones were synthesized. The bioassay results showed they are less active than taxol. The molecular modeling studies suggested that the cyclopropyl-containing taxol analogs could not adopt the T-taxol conformation, which would result in the loss of bioactivities. It is an indirect evidence to support T-taxol conformation. As for macrocyclic taxol lactones, it is proposed that they would have a close contact between the ester moiety on the C-3' phenyl ring and Phe272 of the β-tubulin protein when they adopt T-taxol conformation. It will push the macrocyclics out of the binding pocket and lead to the lost of bioactivities. / Ph. D.

tubulin-binding conformation

thio-taxol

ER

estradiol

drug targeting

Taxol

cyclopropyl-taxol

T-taxol conformation

macrocyclic taxoids

In vitro cellular models for neurotoxicity studies : neurons derived from P19 cells

Popova, Dina

January 2017

Humans are exposed to a variety of chemicals including environmental pollutants, cosmetics, food preservatives and drugs. Some of these substances might be harmful to the human body. Traditional toxicological and behavioural investigations performed in animal models are not suitable for the screening of a large number of compounds for potential toxic effects. There is a need for simple and robust in vitro cellular models that allow high-throughput toxicity testing of chemicals, as well as investigation of specific mechanisms of cytotoxicity. The overall aim of the thesis has been to evaluate neuronally differentiated mouse embryonal carcinoma P19 cells (P19 neurons) as a model for such testing. The model has been compared to other cellular models used for neurotoxicity assessment: retinoic acid-differentiated human neuroblastoma SH-SY5Y cells and nerve growth factor-treated rat pheochromocytoma PC12 cells. The chemicals assessed in the studies included the neurotoxicants methylmercury, okadaic acid and acrylamide, the drug of abuse MDMA (“ecstasy”) and a group of piperazine derivatives known as “party pills”. Effects of the chemicals on cell survival, neurite outgrowth and mitochondrial function have been assessed. In Paper I, we describe a fluorescence-based microplate method to detect chemical-induced effects on neurite outgrowth in P19 neurons immunostained against the neuron-specific cytoskeletal protein βIII-tubulin. In Paper II, we show that P19 neurons are more sensitive than differentiated SH-SY5Y and PC12 cells for detection of cytotoxic effects of methylmercury, okadaic acid and acrylamide. Additionally, in P19 neurons and differentiated SH-SY5Y cells, we could demonstrate that toxicity of methylmercury was attenuated by the antioxidant glutathione. In Paper III, we show a time- and temperature-dependent toxicity produced by MDMA in P19 neurons. The mechanisms of MDMA toxicity did not involve inhibition of the serotonin re-uptake transporter or monoamine oxidase, stimulation of 5-HT2A receptors, oxidative stress or loss of mitochondrial membrane potential. In Paper IV, the piperazine derivatives are evaluated for cytotoxicity in P19 neurons and differentiated SH-SY5Y cells. The most toxic compound in both cell models was TFMPP. In P19 neurons, the mechanism of action of TFMPP included loss of mitochondrial membrane potential. In conclusion, P19 neurons are a robust cellular model that may be useful in conjunction with other models for the assessment of chemical-induced neurotoxicity.

Neurotoxicity

Neuronal cell culture

P19 cells

SH-SY5Y cells

βIII-tubulin

Methylmercury

Okadaic acid

Acrylamide

MDMA

Piperazine-derived designer drugs.

Pharmacology and Toxicology

Farmakologi och toxikologi

Développement de nouveaux analogues structuraux de l’isocombrétastatine A-4 : conception, synthèse et évaluation biologique / Development of news isocombretastatin A-4 derivatives : design, synthesis and biological evaluation

Tréguier, Bret

03 February 2012

Lors de son développement, une tumeur ne peut survivre sans passer par une étape invasive afin de subvenir à ses besoins en nutriment et en oxygène. Cette étape, appelé angiogénèse tumorale, conduit à la formation de vaisseaux sanguins dits « tumoraux », différents des vaisseaux sanguins normaux. Afin de stopper la croissance de la tumeur, il est possible de détruire les vaisseaux sanguins tumoraux formés pendant l’angiogénèse tumorale grâce à des molécules antivasculaires. Ces molécules vont désorganiser la structure du vaisseau et diminuer le flux sanguin au sein de la tumeur pour mener à la nécrose de cette dernière. Parmi ces molécules antivasculaires,la prodrogue phosphate de la combrétastatine A-4 naturelle (CA-4) est le composé actuellement le plus efficace(en développement clinique de phase III contre le cancer de la thyroïde). L’isocombrétastatine A-4 (isoCA-4),possédant une structure de type 1,1-diaryléthylène, est un analogue très puissant développé au laboratoire. Cette molécule est isomère de la CA-4 et permet d’obtenir les mêmes activités biologiques que la CA-4. L’objectif de cette thèse est d’étudier ce motif 1,1-diaryléthylène dans le cadre de molécules cytotoxiques en synthétisant et en évaluant in vitro plusieurs séries de molécules de type « iso ». L’autre partie de cette thèse est dédiée à la synthèse d’analogues hétérocycliques de l’isoCA-4, qui permettront de réaliser les premières études de relation structure-activité sur l’isoCA-4, où son cycle B a été remplacé par un hétérocycle. Ce travail nous a permis de confirmer que la structure de l’isoCA-4 peut servir de base de travail pour développer d’autres agents antivasculaires. / For a tumor, the angiogenesis is a vital step for its development. The spread of the tumor is necessary characterized by an extension of the surrounding vasculature, in order to provide the nutriments and the oxygen required to the growth of the tumor. Resulting from the angiogenesis, the new tumorous blood vessels formed represent an excellent target to treat cancer by aiming specifically at the heart of the tumor. By means of vascular disrupting agents (VDA), it is possible to cut the tumor off the blood flow to trigger the necrosis within the tumor. Among the current VDA, the natural combretastatin A-4 (CA-4) is a strong compound that exhibits excellent antitumoral activities. An isomer of the CA-4, the isocombretastatin A-4 (isoCA-4), was developed inour laboratory to propose an alternative and a new family of VDA. The isoCA-4 is characterized by a 1,1-diarylethylene core, which we studied in this thesis, through 3 series of molecules related to this new structure inmedicinal chemistry. We also synthesized heterocyclic analogues of the isoCA-4, in order to explore the capacity of the isoCA-4 to serve as a basis for developing new antimitotic compounds.

Antivasculaire

Bioisostérie

Couplage pallado-catalysé

Cyclisation

Ényne

Combretastatin A-4

Antivascular

Cytotoxicity

Tubulin polymerization inhibition

Bioisosterism

Pallado-catalyzed cross coupling

Cyclization

Enyne