Leila M. Oda scite author profile

Leila M. Oda

3Publications

63Citation Statements Received

34Citation Statements Given

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133

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Affiliations

Instituto Nacional de Higiene, Epidemiología y Microbiología, Federal University of Rio de Janeiro

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Ingestion of yeast forms of Sporothrix schenckii by mouse peritoneal macrophages

Oda¹,

Kubelka²,

Alviano³

et al. 1983

Infect Immun

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The ingestion by thioglycolate-elicited mouse peritoneal macrophages of yeast forms of two strains of Sporothrix schenckii was studied. Yeast forms opsonized with concanavalin A (ConA) were extensively phagocytized, and the phagocytic indexes depended on the concentration of ConA and apparently on the number of lectin receptors at the yeast surface as well. Neuraminidase treatment of S. schenckii increased the ingestion of unopsonized yeasts 7.7-fold. The addition of monosaccharides and derivatives partially inhibited phagocytosis. Mannose, rhamnose, and galactose, which are major constituents of S. schenckii surface antigens, reduced the phagocytic indexes by 40 to 50%. Glucosamine, N-acetylglucosamine, and N-acetylneuraminic acid were equally effective as inhibitors of phagocytosis. A mixture of five neutral sugars and glucosamine inhibited phagocytosis by 73%. The inhibitory effect of simple sugars could be amplified by using neuraminidase-treated yeast cells. Pentoses and glucose were inactive or slightly inhibitory. A purified rhamnomannan inhibited phagocytosis of the homologous strain, whereas partially purified peptidopolysaccharides were toxic to peritoneal macrophages. A partially purified galactomannan from S. schenckii was inhibitory (62% inhibition), and a peptidopolysaccharide fraction in which the O-linked carbohydrate chains had been removed neither was toxic to macrophages nor inhibited phagocytosis. Pretreatment of macrophages with simple sugars under conditions inhibiting ingestion or binding of S. schenckii did not affect phagocytosis of latex particles or sensitized sheep erythrocytes. The presence of receptors at the peritoneal macrophages which bind S. schenckii cell surface components is suggested.

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Surface Anionic Groups in Symbiote‐Bearing and Symbiote‐Free Strains ofCrithidia deanei¹

Oda

Alviano

Filho

et al. 1984

The Journal of Protozoology

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The surface anionic groups of symbiote‐bearing and symbiote‐free strains of Crithidia deanei were compared by determining cellular electrophoretic mobility, by ultrastructural cytochemistry, and by identification of sialic acids by thin‐layer and gasliquid chromatography. Symbiote‐free Crithidia deanei has a highly negative surface charge (‐0.9984 μmċs‐1ċ V‐1ċ cm), which is slightly reduced (‐0.8527 μmċs‐1ċ V‐1ċ cm) by the presence of the endosymbiote. Treatment of both strains of C. deanei with neuraminidase decreased significantly the electrophoretic mobility of cells toward the cathodic pole, indicating the existence of exposed sialic acid residues responsible for the negative charge on the protozoan cell surface. Thin‐layer and gas‐liquid chromatography showed that N‐glycolyl‐ and N‐acetylneuraminic acids were present in both strains of C. deanei.

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Sialic acids are surface components ofSporothrix schenckiiyeast forms

Alviano

Pereira

Souza

et al. 1982

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Leila M. Oda

Ingestion of yeast forms of Sporothrix schenckii by mouse peritoneal macrophages

Surface Anionic Groups in Symbiote‐Bearing and Symbiote‐Free Strains ofCrithidia deanei¹

Sialic acids are surface components ofSporothrix schenckiiyeast forms

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Leila M. Oda

Ingestion of yeast forms of Sporothrix schenckii by mouse peritoneal macrophages

Surface Anionic Groups in Symbiote‐Bearing and Symbiote‐Free Strains ofCrithidia deanei1

Sialic acids are surface components ofSporothrix schenckiiyeast forms

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Surface Anionic Groups in Symbiote‐Bearing and Symbiote‐Free Strains ofCrithidia deanei¹