Janet Mcgarr scite author profile

This report investigates the extent of the expression of fibronectin (FN) binding properties among the mycobacteria and provides preliminary characteristics of the bacterial molecule(s) mediating attachment. Eight BCG substrains, three Mycobacterium tuberculosis strains and four other mycobacterial species all expressed FN-binding capacity. Treatment of organisms with detergent prior to the binding assay destroyed the FN-binding capacity of BCG but not that of Staphylococcus aureus. Trypsin pretreatment eliminated the FN-binding capacity of both BCG and S. aureus. [35S]Methionine-labelled material in supernatants from BCG and M. tuberculosis cultures attached to FN-coated surfaces. These culture supernatants inhibited the attachment of BCG but not S. aureus to FN-coated surfaces. This inhibitory activity of the supernatants was removed by affinity chromatography on FN-Sepharose but was not affected by similar passage over a control column (human serum albumin attached to Sepharose). These results demonstrate that the ability to bind FN is present in all mycobacterial species tested and suggest that attachment is mediated by trypsin-sensitive cell-surface component(s).

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Studies on the molecular mechanisms of human Fc receptor-mediated phagocytosis. Amplification of ingestion is dependent on the generation of reactive oxygen metabolites and is deficient in polymorphonuclear leukocytes from patients with chronic granulomatous disease.

Gresham

Mcgarr²,

Shackelford³

et al. 1988

J. Clin. Invest.

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Human PMN and monocytes both possess a mechanism for amplifying Fc receptor-mediated phagocytic function, which is dependent on activation of the respiratory burst. The pathway for augmentation of phagocytosis requires superoxide anion, hydrogen peroxide, and lactoferrin and is independent of the hydrogen peroxide-MPO-halide system. In neither cell type is this mechanism induced upon exposure to the opsonized target. PMN require an additional signal for stimulation of the respiratory burst; this is not true of monocytes. On the other hand, monocytes require an exogenous source of lactoferrin in order to activate this pathway for enhanced ingestion. The dependence of this pathway for both PMN and monocytes on superoxide anion, hydrogen peroxide, and cell-bound lactoferrin is consistent with a role for locally generated reactive oxygen metabolites, possibly hydroxyl radicals, in phagocytosis amplification. Patients with chronic granulomatous disease, who are genetically deficient in the ability to activate the respiratory burst, are unable to amplify Fc receptor-mediated phagocytosis. Thus, these patients may have a previously unrecognized defect in the recruitment of phagocytic function at inflammatory sites.

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Characterization of Fibronectin Attachment by A Human Transitional Cell Carcinoma Line, T24

et al. 1991

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The ability of transitional cell carcinoma cells to adhere to and invade the extracellular matrix is important in invasion and metastasis. The glycoprotein fibronectin is associated with laminin and Type IV collagen in the bladder basement membrane. We characterized the interaction between T-24 cells, a cell line derived from an invasive transitional cell tumor, and fibronectin. The cells use the alpha 5 beta 1 heterodimeric integrin receptor complex to mediate adherence via the classical (RGDS) fibronectin binding site. The importance of the alpha 5 beta 1 receptor to T-24 function is unknown and under investigation.

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Evidence for a conformational change in human fibronectin which occurs between 4 and 37°C

Brown

Bohnsack

O’Shea

et al. 1987

Molecular Immunology

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Janet Mcgarr

Attachment of Mycobacteria to Fibronectin-coated Surfaces

Studies on the molecular mechanisms of human Fc receptor-mediated phagocytosis. Amplification of ingestion is dependent on the generation of reactive oxygen metabolites and is deficient in polymorphonuclear leukocytes from patients with chronic granulomatous disease.

Characterization of Fibronectin Attachment by A Human Transitional Cell Carcinoma Line, T24

Evidence for a conformational change in human fibronectin which occurs between 4 and 37°C

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