Robert Cherniak scite author profile

The major significance of the capsular polysaccharide of C. neoformans is its role in potentiating opportunistic infections by the yeast. It has the ability to exert a broad spectrum of influences on the immune response, from activation of phagocytic cells and complement components of the alternative pathway, to the induction of specific antibody, T-suppressor cells, DTH responses, and cytokines (51). These biological properties along with the serotype specificities are all determined by the physical properties and chemical structures of the polysaccharide antigens that compose the capsule. There is evidence not only for an association of lethal infections with serotype A in patients with advanced AIDS (34, 56), but also for a role for the capsule in directly influencing the infection of CD4+ cells by HIV (57). Together, these phenomena raise intriguing questions about the possible connection between the chemistry of these capsular antigens and cryptococcal infections in AIDS patients. One speculation is that AIDS creates the optimal physiological conditions for the establishment and spread of cryptococcosis. It has been observed that during the progression of AIDS there is a shift towards a T-2 response (14). This could lead to conditions that would inhibit the cellular immune responses that block dissemination of cryptococcal infections. Thus, an important consideration in the application of vaccine or immune modulation therapies in the treatment of cryptococcosis in AIDS victims would be the design of vaccines that could boost the T-1 immune response. It has been shown that the form and dose of an antigenic challenge can influence the induction of a T-1 or T-2 immune response (61). Recently, Murphy has reported that gamma interferon and interleukin 2 are up-regulated in the spleens of mice that produce anticryptococcal TDH and TAMP cells in response to immunogenic doses of cryptococcal culture filtrate antigen given with Freund's complete adjuvant (49). Perhaps purified cryptococcal antigens (e.g., MP) conjugated to an appropriate carrier or adjuvant could be used in therapeutic strategies to limit cryptococcosis in immunocompromised individuals. Future investigations of virulence and pathogenicity in the context of defined polysaccharide antigens from encapsulated strains of C. neoformans will contribute to a better understanding of the regulation of cryptococcal infection and immunity at the cellular and molecular levels.(ABSTRACT TRUNCATED AT 400 WORDS)

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Cryptococcus neoformansChemotyping by Quantitative Analysis of¹H Nuclear Magnetic Resonance Spectra of Glucuronoxylomannans with a Computer-Simulated Artificial Neural Network

Cherniak

Valafar

Morris

et al. 1998

Clin Diagn Lab Immunol

187

156

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The complete assignment of the proton chemical shifts obtained by nuclear magnetic resonance (NMR) spectroscopy of de-O-acetylated glucuronoxylomannans (GXMs) from Cryptococcus neoformanspermitted the high-resolution determination of the total structure of any GXM. Six structural motifs based on an α-(1→3)-mannotriose substituted with variable quantities of 2-O-β- and 4-O-β-xylopyranosyl and 2-O-β-glucopyranosyluronic acid were identified. The chemical shifts of only the anomeric protons of the mannosyl residues served as structure reporter groups (SRG) for the identification and quantitation of the six triads present in any GXM. The assigned protons for the mannosyl residues resonated at clearly distinguishable positions in the spectrum and supplied all the information essential for the assignment of the complete GXM structure. This technique for assigning structure is referred to as the SRG concept. The SRG concept was used to analyze the distribution of the six mannosyl triads of GXMs obtained from 106 isolates of C. neoformans. The six mannosyl triads occurred singularly or in combination with one or more of the other triads. The identification and quantitation of the SRG were simplified by using a computer-simulated artificial neural network (ANN) to automatically analyze the SRG region of the one-dimensional proton NMR spectra. The occurrence and relative distribution of the six mannosyl triads were used to chemotype C. neoformans on the basis of subtle variations in GXM structure determined by analysis of the SRG region of the proton NMR spectrum by the ANN. The data for the distribution of the six SRGs from GXMs of 106 isolates of C. neoformansyielded eight chemotypes, Chem1 through Chem8.

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Structural characterization of the galactoxylomannan of Cryptococcus neoformans Cap67

Vaishnav¹,

Bacon²,

O’Neill³

et al. 1998

Carbohydrate Research

111

135

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A galactoxylomannan antigen of Cryptococcus neoformans serotype A

Cherniak

Reiss

Turner

1982

Carbohydrate Research

148

100

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Structure and antigenic activity of the capsular polysaccharide of Cryptococcus neoformans serotype A

Cherniak

Reiss²,

Slodki

et al. 1980

Molecular Immunology

146

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Cell-wall glucans of Cryptococcus neoformans CAP 67

James

Cherniak

Jones

et al. 1990

Carbohydrate Research

106

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Microevolution of a Standard Strain ofCryptococcus neoformansResulting in Differences in Virulence and Other Phenotypes

et al. 1998

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Cryptococcus neoformans is a major fungal pathogen for patients with debilitated immune systems. However, no information is available on the stability of virulence or of phenotypes associated with virulence for C. neoformans laboratory strains. A serendipitous observation in our laboratory that one isolate of C. neoformans ATCC 24067 (strain 52D) became attenuated after continuous in vitro culture prompted us to perform a comparative study of nine strain 24067 isolates obtained from six different research laboratories. Each isolate was characterized by DNA typing, virulence for mice, proteinase production, extracellular protein synthesis, melanin synthesis, carbon assimilation pattern, antifungal drug susceptibility, colony morphology, growth rate, agglutination titers, phagocytosis by murine macrophages, capsule size, and capsular polysaccharide structure. All isolates had similar DNA typing patterns consistent with their assignment to the same strain, although minor chromosome size polymorphisms were observed in the electrophoretic karyotypes of two isolates. Several isolates had major differences in phenotypes that may be associated with virulence, including growth rate, capsule size, proteinase production, and melanization. These findings imply that C. neoformans is able to undergo rapid changes in vitro, probably as a result of adaptation to laboratory conditions, and suggest the need for careful attention to storage and maintenance conditions. In summary, our results indicate thatC. neoformans (i) can become attenuated by in vitro culture and (ii) is capable of microevolution in vitro with the emergence of variants exhibiting new genotypic and phenotypic characteristics.

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Facilitated isolation, purification, and analysis of glucuronoxylomannan of Cryptococcus neoformans

et al. 1991

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Cryptococcus neoformans was cultured in a chemically defined medium. The culture was adjusted to 0.25% formaldehyde or autoclaved after 5 days of growth at 35C, and a cell-free supernatant was obtained by centrifugation. Solid calcium acetate was added to the supernatant to give a 5% solution, and the pH was adjusted to-5 with glacial acetic acid. The polysaccharide (PS) was precipitated by the addition of 3 volumes of 95% ethanol. The PS was dissolved in 0.2 M NaCI, and insoluble calcium salts were solubilized by the addition of several drops of glacial acetic acid. The PS solution was treated by ultrasonic irradiation for 15 min. This concurrently decreased the molecular weight of the PS and reduced the viscosity of the solution. The ultrasonically irradiated PS was precipitated by differential complexation with hexadecyltrimethylammonium bromide at 23°C, the complex was dissolved in 1 M NaCl, and the glucuronoxylomannan was precipitated by adding 3 volumes of ethanol. The glucuronoxylomannan was dissolved in 1 M NaCl and then ultrasonically irradiated for 2 h to reduce the molecular mass to a limiting value of-100 kDa (GXMS). The purified GXMS was centrifuged, dialyzed, and finally recovered by lyophilization. GXMS was chromatographed on DEAEcellulose at reasonable concentrations without the complication of high solution viscosity. The sugar composition and structure of GXMS were determined by gas-liquid chromatography, permethylation gas-liquid chromatography-mass spectrometry, and 13C nuclear magnetic resonance spectroscopy. The improved solution characteristics of GXMS were ideal for the determination of its chemical and serological properties.

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Robert Cherniak

Polysaccharide antigens of the capsule of Cryptococcus neoformans

Cryptococcus neoformansChemotyping by Quantitative Analysis of¹H Nuclear Magnetic Resonance Spectra of Glucuronoxylomannans with a Computer-Simulated Artificial Neural Network

Structural characterization of the galactoxylomannan of Cryptococcus neoformans Cap67

A galactoxylomannan antigen of Cryptococcus neoformans serotype A

Structure and antigenic activity of the capsular polysaccharide of Cryptococcus neoformans serotype A

Cell-wall glucans of Cryptococcus neoformans CAP 67

Microevolution of a Standard Strain ofCryptococcus neoformansResulting in Differences in Virulence and Other Phenotypes

Facilitated isolation, purification, and analysis of glucuronoxylomannan of Cryptococcus neoformans

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Robert Cherniak

Polysaccharide antigens of the capsule of Cryptococcus neoformans

Cryptococcus neoformansChemotyping by Quantitative Analysis of1H Nuclear Magnetic Resonance Spectra of Glucuronoxylomannans with a Computer-Simulated Artificial Neural Network

Structural characterization of the galactoxylomannan of Cryptococcus neoformans Cap67

A galactoxylomannan antigen of Cryptococcus neoformans serotype A

Structure and antigenic activity of the capsular polysaccharide of Cryptococcus neoformans serotype A

Cell-wall glucans of Cryptococcus neoformans CAP 67

Microevolution of a Standard Strain ofCryptococcus neoformansResulting in Differences in Virulence and Other Phenotypes

Facilitated isolation, purification, and analysis of glucuronoxylomannan of Cryptococcus neoformans

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Product

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Cryptococcus neoformansChemotyping by Quantitative Analysis of¹H Nuclear Magnetic Resonance Spectra of Glucuronoxylomannans with a Computer-Simulated Artificial Neural Network