Browsing by Subject "Endosomes"

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    Kinetic analysis of endosome processing : maturation of early endosomes and vesicular traffic to lysosomes
    (1995) Stroud, Evelyn Joy; Thilo, Lutz
    The present study was undertaken to establish the mechanism(s) involved in the endocytic pathway, in particular, early endosome processing and delivery to the lysosomes. Two models for endosome processing have previously been proposed in the literature, namely the maturation and vesicular traffic models. The general consensus has been an early phase of intermingling of the endocytic contents markers within early endosomes that mature to form non-fusogenic late endosomes (maturation model). This maturation phase is followed by a segregation phase where intermingling of contents between vesicles no longer takes place. To establish the mechanism(s) involved in early endosome processing and delivery to lysosomes, a kinetic analysis was made using results from cellular fluid-phase uptake assays. This unique approach offers an alternative view to previous studies on the mechanisms in operation during endocytic processing. The results and conclusions made could thus confirm or disprove previously proposed mechanisms.
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    The kinetics of endosome processing
    (1995) Legalatladi, Seetsela; Thilo, Lutz
    The present thesis looks at the behaviour of internalised cell surface-derived membrane marker in comparison with the behaviour of endocytosed HRP (horse-radish peroxidase) as a fluid-phase contents marker. The pooling and/or segregation in the endosome was measured by determining co-localization with HRP. Colocalization of the two markers in the endosome is studied by using the ability of HRP to catalyse the crosslinking of membrane marker in endosomes with DAB (3,3'-diaminobenzidine), rendering the membrane marker detergent insoluble. To study the kinetic behaviour of membrane marker, radioactive galactose was covalently bound to cell-surface glycoconjugates on mouse macrophage-cells, P388D₁, as catalysed by galactosyltransferase. This provided a general membrane marker. After endocytosis-derived redistribution of membrane marker between the cell surface and endosomal membrane, a steady state was established with about 16% of the label on internal membranes. The bulk of the label on the cell surface was removable by subsequent treatment with β-galactosidase.