Your search keyword '"McDade HC"' showing total 7 results

1. Role of alternative oxidase gene in pathogenesis of Cryptococcus neoformans.

Author

Akhter S, McDade HC, Gorlach JM, Heinrich G, Cox GM, and Perfect JR

Subjects

Animals, Base Sequence, Conserved Sequence, Cryptococcosis etiology, Cryptococcus neoformans pathogenicity, DNA, Fungal genetics, Energy Metabolism, Female, Gene Targeting, Humans, Macrophages immunology, Macrophages microbiology, Mice, Mice, Inbred A, Mitochondrial Proteins, Molecular Sequence Data, Mutation, Oxidative Stress, Plant Proteins, Rabbits, Temperature, Up-Regulation, Virulence genetics, Virulence physiology, Cryptococcus neoformans enzymology, Cryptococcus neoformans genetics, Genes, Fungal, Oxidoreductases genetics

Abstract

We identified a homologue of the alternative oxidase gene in a screen to identify genes that are preferentially transcribed in response to a shift to 37 degrees C in the human-pathogenic yeast Cryptococcus neoformans. Alternative oxidases are nucleus-encoded mitochondrial proteins that have two putative roles: they can function in parallel with the classic cytochrome oxidative pathway to produce ATP, and they may counter oxidative stress within the mitochondria. The C. neoformans alternative oxidase gene (AOX1) was found to exist as a single copy in the genome, and it encodes a putative protein of 401 amino acids. An aox1 mutant strain was created using targeted gene disruption, and the mutant strain was reconstituted to wild type using a full-length AOX1. Compared to both the wild-type and reconstituted strains, the aox1 mutant strain was not temperature sensitive but did have significant impairment of both respiration and growth when treated with inhibitors of the classic cytochrome oxidative pathway. The aox1 mutant strain was also found to be more sensitive to the oxidative stressor tert-butyl hydroperoxide. The aox1 mutant strain was significantly less virulent than both the wild type and the reconstituted strain in the murine inhalational model, and it also had significantly impaired growth within a macrophage-like cell line. These data demonstrate that the alternative oxidase of C. neoformans can make a significant contribution to metabolism, has a role in the yeast's defense against exogenous oxidative stress, and contributes to the virulence composite of this organism, possibly by improving survival within phagocytic cells.

Published

2003

2. Superoxide dismutase influences the virulence of Cryptococcus neoformans by affecting growth within macrophages.

Author

Cox GM, Harrison TS, McDade HC, Taborda CP, Heinrich G, Casadevall A, and Perfect JR

Subjects

Animals, Cell Line, Cryptococcosis microbiology, Cryptococcus neoformans enzymology, Female, Humans, Macrophages, Alveolar microbiology, Mice, Molecular Sequence Data, Sequence Analysis, DNA, Superoxide Dismutase chemistry, Superoxide Dismutase genetics, Virulence, Cryptococcosis physiopathology, Cryptococcus neoformans growth & development, Cryptococcus neoformans pathogenicity, Superoxide Dismutase metabolism

Abstract

Superoxide dismutase (SOD) is an enzyme that converts superoxide radicals into hydrogen peroxide and molecular oxygen and has been shown to contribute to the virulence of many human-pathogenic bacteria through its ability to neutralize toxic levels of reactive oxygen species generated by the host. SOD has also been speculated to be important in the pathogenesis of fungal infections, but the role of this enzyme has not been rigorously investigated. To examine the contribution of SOD to the pathogenesis of fungal infections, we cloned the Cu,Zn SOD-encoding gene (SOD1) from the human-pathogenic yeast Cryptococcus neoformans and made mutants via targeted disruption. The sod1 mutant strains had marked decreases in SOD activity and were strikingly more susceptible to reactive oxygen species in vitro. A sod1 mutant was significantly less virulent than the wild-type strain and two independent reconstituted strains, as measured by cumulative survival in the mouse inhalational model. In vitro studies established that the sod1 strain had attenuated growth compared to the growth of the wild type and a reconstituted strain inside macrophages producing reduced amounts of nitric oxide. These findings demonstrate that (i) the Cu,Zn SOD contributes to virulence but is not required for pathogenicity in C. neoformans; (ii) the decreased virulence of the sod1 strain may be due to increased susceptibility to oxygen radicals within macrophages; and (iii) other antioxidant defense systems in C. neoformans can compensate for the loss of the Cu,Zn SOD in vivo.

Published

2003

3. Antisense repression in Cryptococcus neoformans as a laboratory tool and potential antifungal strategy.

Author

Gorlach JM, McDade HC, Perfect JR, and Cox GM

Subjects

Antifungal Agents pharmacology, Calcineurin genetics, Calcineurin metabolism, Cryptococcus neoformans growth & development, Cryptococcus neoformans metabolism, DNA, Complementary genetics, DNA, Complementary metabolism, Laccase, Oligonucleotides, Antisense genetics, Oligonucleotides, Antisense metabolism, Oxidoreductases genetics, Oxidoreductases metabolism, Transformation, Genetic, Cryptococcus neoformans drug effects, Cryptococcus neoformans genetics, Oligonucleotides, Antisense pharmacology

Abstract

Antisense repression was used as a method to alter gene function in the human-pathogenic fungus Cryptococcus neoformans. The calcineurin A gene (CNA1) and the laccase gene (LAC1) were targeted since disruption of these loci results in phenotypes that are easy to screen (temperature sensitivity and lack of melanin, respectively). Serotype D yeasts were transformed with a plasmid containing the CNA1 cDNA in an antisense orientation under the control of the inducible GAL7 promoter, and serotype A yeasts were transformed with a plasmid containing the LAC1 cDNA in an antisense orientation under the control of the constitutive actin promoter. The calcineurin transformants demonstrated a temperature-sensitive phenotype only when grown on galactose, and the laccase transformants had decreased melanin production. Northern blot analysis of the calcineurin antisense transformants confirmed that the inducible phenotype was associated with a decrease in the native CNA1 transcript levels. Furthermore, it was possible to modestly impair growth of C. neoformans at 37 degrees C by using a 30 bp antisense oligonucleotide targeting CNA1. Antisense repression is now available as a tool for molecular studies in this organism, and may be applicable to other human-pathogenic fungi that have less amenable genetic systems.

Published

2002

4. A new dominant selectable marker for use in Cryptococcus neoformans.

Author

McDade HC and Cox GM

Subjects

Acetyltransferases genetics, Actins biosynthesis, Cryptococcus neoformans drug effects, Drug Resistance, Microbial genetics, Genes, Bacterial, Genetic Complementation Test, Hygromycin B pharmacology, Recombinant Fusion Proteins biosynthesis, Transformation, Bacterial, Cryptococcus neoformans genetics, Genetic Markers, Streptothricins pharmacology

Abstract

Cryptococcus neoformans is an excellent model system for studies on the molecular pathogenesis of fungal infections. There is only one dominant selectable market that can be used in the transformation of this organism, and we wanted to develop another. We found that various strains of C. neoformans are very sensitive to the aminoglycoside antibiotic nourseothricin, and that spontaneous resistance to this drug must be an extremely rare event. Resistance to nourseothricin is conferred by the product of the nourseothricin acetyltransferase gene (nat1) from Streptomyces noursei. In order to express this gene in C. neoformans, we created a fusion construct by driving expression of natl with the promoter sequence from a C. neoformans actin gene. Biolistic transformation of the serotype A C. neoformans strain H99 and the serotype D strain JEC21 with this construct resulted in transformation efficiencies of approximately 1,000 transformants microg(-1) of DNA and 20 transformants microg(-1) of DNA, respectively. Southern blots were performed using DNA from some of the H99 transformants, and this confirmed that all of the resistant isolates had the construct integrated in a random fashion within the genome. There was no cross-resistance of the nourseothricin-resistant transformants to hygromycin B, which is the other antibiotic used as a dominant selection marker in C. neoformans. The development of nourseothricin resistance as a second dominant selectable market will be helpful in future molecular studies on this important pathogenic fungus.

Published

2001

5. Extracellular phospholipase activity is a virulence factor for Cryptococcus neoformans.

Author

Cox GM, McDade HC, Chen SC, Tucker SC, Gottfredsson M, Wright LC, Sorrell TC, Leidich SD, Casadevall A, Ghannoum MA, and Perfect JR

Subjects

Acyltransferases metabolism, Animals, Cells, Cultured, Cloning, Molecular, Cryptococcosis mortality, Cryptococcus neoformans genetics, Female, Genes, Fungal, Lysophospholipase metabolism, Macrophages microbiology, Meningitis, Cryptococcal mortality, Mice, Multienzyme Complexes metabolism, Mutagenesis, Insertional, Mutation, Phospholipases genetics, Rabbits, Cryptococcus neoformans pathogenicity, Phospholipases metabolism

Abstract

The human pathogenic fungus Cryptococcus neoformans secretes a phospholipase enzyme that demonstrates phospholipase B (PLB), lysophospholipase hydrolase and lysophospholipase transacylase activities. This enzyme has been postulated to be a cryptococcal virulence factor. We cloned a phospholipase-encoding gene (PLB1) from C. neoformans and constructed plb1 mutants using targeted gene disruption. All three enzyme activities were markedly reduced in the mutants compared with the wild-type parent. The plb1 strains did not have any defects in the known cryptococcal virulence phenotypes of growth at 37 degrees C, capsule formation, laccase activity and urease activity. The plb1 strains were reconstituted using the wild-type locus and this resulted in restoration of all extracellular PLB activities. In vivo testing demonstrated that the plb1 strain was significantly less virulent than the control strains in both the mouse inhalational model and the rabbit meningitis model. We also found that the plb1 strain exhibited a growth defect in a macrophage-like cell line. These data demonstrate that secretory phospholipase is a virulence factor for C. neoformans.

Published

2001

6. Synthesis of polymerized melanin by Cryptococcus neoformans in infected rodents.

Author

Rosas AL, Nosanchuk JD, Feldmesser M, Cox GM, McDade HC, and Casadevall A

Subjects

Animals, Antibodies, Monoclonal biosynthesis, Antibodies, Monoclonal immunology, Cryptococcosis pathology, Cryptococcus neoformans metabolism, Female, Fluorescent Antibody Technique, Immunohistochemistry, Melanins immunology, Mice, Mice, Inbred BALB C, Reproducibility of Results, Cryptococcosis metabolism, Melanins biosynthesis, Polymers

Abstract

The ability of Cryptococcus neoformans to synthesize polymerized melanin in vitro has been associated with virulence, but it is unclear whether this fungus synthesizes polymerized melanin during infection. To study this question, we used two approaches: one involved the generation of monoclonal antibodies (MAbs) to melanin for use in immunohistochemical studies of C. neoformans-infected rodents, and the other sought to isolate fungal melanin from infected tissues. Digestion of in vitro-melanized C. neoformans cells with proteases, denaturant, and hot concentrated acid yields melanin particles that retain the shape of fungal cells and are therefore called melanin ghosts. BALB/c mice were immunized with melanin ghosts, and two immunoglobulin M MAbs to melanin were generated from the spleen of one mouse. Immunofluorescence analyses of lung and brain tissues of rodents infected with wild-type melanin-producing (Mel(+)) C. neoformans strains demonstrated binding of the MAbs to the fungal cell wall. No binding was observed when infections were performed with mutant albino (Mel(-)) C. neoformans strains. Particles with striking similarity to melanin ghosts were recovered after digestion of lung and brain tissues from Mel(+) C. neoformans-infected rodents and were reactive with the MAbs to melanin. No particles were recovered from tissues infected with Mel(-) C. neoformans. A Mel(+) C. neoformans strain grown on lung or brain homogenate agar became lightly pigmented and also yielded particles similar to melanin ghosts upon digestion, providing additional evidence that lung and brain tissues contain substrate for C. neoformans melanization. These results demonstrate that C. neoformans synthesizes polymerized melanin during infection, which has important implications for pathogenesis and antifungal drug development.

Published

2000

7. Perforation of the gastrointestinal tract by an unusual foreign body; a porcupine quill; report of two cases.

Author

McDADE HC and CRANDELL WB

Subjects

Animals, Humans, Foreign Bodies, Gastrointestinal Tract, Porcupines

Published

1958