Vincent Turner scite author profile

TAC1, a Candida albicans transcription factor situated near the mating-type locus on chromosome 5, is necessary for the upregulation of the ABC-transporter genes CDR1 and CDR2, which mediate azole resistance. We showed previously the existence of both wild-type and hyperactive TAC1 alleles. Wild-type alleles mediate upregulation of CDR1 and CDR2 upon exposure to inducers such as fluphenazine, while hyperactive alleles result in constitutive high expression of CDR1 and CDR2. Here we recovered TAC1 alleles from two pairs of matched azole-susceptible (DSY294; FH1: heterozygous at mating-type locus) and azole-resistant isolates (DSY296; FH3: homozygous at mating-type locus). Two different TAC1 wild-type alleles were recovered from DSY294 (TAC1-3 and TAC1-4) while a single hyperactive allele (TAC1-5) was isolated from DSY296. A single amino acid (aa) difference between TAC1-4 and TAC1-5 (Asn977 to Asp or N977D) was observed in a region corresponding to the predicted activation domain of Tac1p. Two TAC1 alleles were recovered from FH1 (TAC1-6 and TAC1-7) and a single hyperactive allele (TAC1-7) was recovered from FH3. The N977D change was seen in TAC1-7 in addition to several other aa differences. The importance of N977D in conferring hyperactivity to TAC1 was confirmed by site-directed mutagenesis. Both hyperactive alleles TAC1-5 and TAC1-7 were codominant with wild-type alleles and conferred hyperactive phenotypes only when homozygous. The mechanisms by which hyperactive alleles become homozygous was addressed by comparative genome hybridization and single nucleotide polymorphism arrays and indicated that loss of TAC1 heterozygosity can occur by recombination between portions of chromosome 5 or by chromosome 5 duplication. C ANDIDA albicans is an opportunistic pathogen that causes oral and systemic infections in immunocompromised patients as well as vaginal infections in immunocompetent women. To prevent and treat Candida infections, immunocompromised patients are often treated for a long time with antifungal agents among which is the class of azoles. As azoles are fungistatic, rather than fungicidal, C. albicans cells repetitively exposed to these antifungals can adapt to the drug pressure and eventually become resistant to azoles. The most important mechanism of resistance to azoles is the overexpression of multidrug transporters, encoded by either the major facilitator efflux pump CaMDR1 (multidrug resistance 1) or the ABC transporters CDR1 (candida drug resistance) and CDR2. Upregulation of CaMDR1 confers resistance to fluconazole, while upregulation of CDR1 and CDR2 confers resistance to multiple azoles (itraconazole, fluconazole, voriconazole). Understanding the transcriptional control of these genes, by both cis-and trans-acting effectors, is therefore important for determining how azole resistance and transport mechanisms are regulated in C. albicans.CaMDR1 expression is controlled by at least two regulatory promoter cis-acting regions as reported recently by Harry et al. (2005). Several elements of...

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GPS analysis of human locomotion: Further evidence for long-range correlations in stride-to-stride fluctuations of gait parameters

Terrier

Turner

Schütz

2005

Human Movement Science

118

141

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Control and host‐dependent activation of insect toxin expression in a root‐associated biocontrol pseudomonad

Péchy-Tarr

Borel

Kupferschmied

et al. 2013

Environmental Microbiology

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Pseudomonas fluorescens CHA0 is a root-associated biocontrol agent that suppresses soil-borne fungal diseases of crops. Remarkably, the pseudomonad is also endowed with systemic and oral activity against pest insects which depends on the production of the insecticidal Fit toxin. The toxin gene (fitD) is part of a virulence cassette encoding three regulators (FitF, FitG, FitH) and a type I secretion system (FitABC-E). Immunoassays with a toxin-specific antibody and transcriptional analyses involving fitG and fitH deletion and overexpression mutants identified LysR family regulator FitG and response regulator FitH as activator and repressor, respectively, of Fit toxin and transporter expression. To visualize and quantify toxin expression in single live cells by fluorescence microscopy, we developed reporters which in lieu of the native toxin protein express a fusion of the Fit toxin with red fluorescent mCherry. In a wild-type background, expression of the mCherry-tagged Fit toxin was activated at high levels in insect hosts, i.e. when needed, yet not on plant roots or in batch culture. By contrast, a derepressed fitH mutant expressed the toxin in all conditions. P. fluorescens hence can actively induce insect toxin production in response to the host environment, and FitH and FitG are key regulators in this mechanism.

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Doxorubicin induces drug efflux pumps inCandida albicans

Kofla¹,

Turner²,

Schulz³

et al. 2011

Med Mycol

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Candida albicans is one of the most important opportunistic fungal pathogens. It can cause serious fungal diseases in immunocompromised patients, including those with cancer. Treatment failures due to the emergence of drug-resistant C. albicans strains have become a serious clinical problem. Resistance incidents were often mediated by fungal efflux pumps which are closely related to the human ABC transporter P-glycoprotein (P-gp). P-gp is often overexpressed in cancer cells and confers resistance to many cytotoxic drugs. We examined whether cytotoxic drugs commonly used for cancer treatment (doxorubicin and cyclophosphamide) could alter the expression of genes responsible for the development of fluconazole resistance in Candida cells in the way they can influence homologous genes in cancer cell lines. ABC transporters (CDR1 and CDR2) and other resistance genes (MDR1 and ERG11) were tested by real-time PCR for their expression in C. albicans cells at the mRNA level after induction by antineoplastic drugs. The results were confirmed by a lacZ gene reporter system and verified at the protein level using GFP and immunoblotting. We showed that doxorubicin is a potent inducer of CDR1/CDR2 expression in C. albicans at both the mRNA and protein level and thus causes an increase in fluconazole MIC values. However, cyclophosphamide, which is not a substrate of human P-gp, did not induce ABC transporter expression in C. albicans. Neither doxorubicin nor cyclophosphamide could influence the expression of the other resistance genes (MDR1 and ERG11). The induction of CDR1/CDR2 by doxorubicin in C. albicans and the resulting alteration of antifungal susceptibility might be of clinical relevance for the antifungal treatment of Candida infections occurring after anticancer chemotherapy with doxorubicin.

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Isozymes of rodent 5‘‐nucleotidase: evidence for two independent structural loci Umph‐1 and Umph‐2

Swallow

Turner

Hopkinson

1983

Annals of Human Genetics

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Two distinct isozymes (UMPH-1 and UMPH-2) which hydrolyse pyrimidine 5'-nucleotides have been identified in mouse, rat and Chinese hamster tissues. One of these, UMPH-1 appears to be specific for pyrimidine 5'-nucleotides, whereas the other, UMPH-2 has a broader substrate specificity. UMPH-1 and UMPH-2 show differences in their expression in different tissues. The evidence suggests that UMPH-1 and UMPH-2 are coded by distinct structural gene loci, Umph-1 and Umph-2. These isozymes have not been identified in man, and it is suggested that they may have overlapping electrophoretic mobility.

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Vincent Turner

A Mutation in Tac1p, a Transcription Factor Regulating CDR1 and CDR2, Is Coupled With Loss of Heterozygosity at Chromosome 5 to Mediate Antifungal Resistance in Candida albicans

GPS analysis of human locomotion: Further evidence for long-range correlations in stride-to-stride fluctuations of gait parameters

Control and host‐dependent activation of insect toxin expression in a root‐associated biocontrol pseudomonad

Doxorubicin induces drug efflux pumps inCandida albicans

Isozymes of rodent 5‘‐nucleotidase: evidence for two independent structural loci Umph‐1 and Umph‐2

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