Insulin-Like Growth Factor Binding Protein-6: Posttranslational modifications and sorting in polarized MDCK cells / Insulin-ähnlicher Wachstumsfaktor Bindungsprotein 6: Posttranslationale Modifikationen und Sortierung in polarisierten MDCK Zellen

Shalamanova-Malinowski, Liliana Dimitrova

30 October 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

IGFBP-6

Proteolyse

MDCK Zellen

Proteinsortierung

posttranslationale Modifikationen

IGFBP-6

proteolysis

MDCK cells

protein sorting

posttranslational modifications

42.13

42.15

Modulation of Cargo Transport and Sorting through Endosome Motility and Positioning

Höpfner, Sebastian

28 October 2005

Utilizing various systems such as cell-based assays but also multicellular organisms such as Drosophila melanogaster and C.elegans, for example, the endocytic system has been shown to consist of a network of biochemically and morphologically distinct organelles that carry out specialized tasks in the uptake, recycling and catabolism of growth factors and nutrients, serving a plethora of key biological functions (Mellman, 1996). Different classes of endosomes were found to exhibit a characteristic intracellular steady state distribution. This distribution pattern observed at steady state results from a dynamic interaction of endosomes with the actin and the microtubule cytoskeleton. It remains unclear, however, which microtubule-based motors besides Dynein control the intracellular distribution and motility of early endosomes and how their function is integrated with the sorting and transport of cargo. The first part of this thesis research outlines the search for such motor. I describe the identification of KIF16B which functions as a novel endocytic motor protein. This molecular motor, a kinesin-3, transports early endosomes to the plus end of microtubules, in a process regulated by the small GTPase Rab5 and its effector, the phosphatidylinositol-3-OH kinase hVPS34. In vivo, KIF16B overexpression relocated early endosomes to the cell periphery and inhibited transport to the degradative pathway. Conversely, expression of dominant-negative mutants or ablation of KIF16B by RNAi caused the clustering of early endosomes to the peri-nuclear region, delayed receptor recycling to the plasma membrane and accelerated degradation. These results suggest that KIF16B, by regulating the plus end motility of early endosomes, modulates the intracellular localization of early endosomes and the balance between receptor recycling and degradation. In displaying Rab5 and PI(3)P-containing cargo selectivity, a remarkable property of KIF16B is that it is subjected to the same regulatory principles governing the membrane tethering and fusion machinery (Zerial and McBride, 2001). Since KIF16B can modulate growth factor degradation, we propose that this motor could have also important implications for signaling. Importantly, KIF16B has provided novel insight into how intracellular localization of endosomes governs the transport activity of these organelles. The second part of this thesis describes the proof-of-principle of a genome-wide screening strategy aimed at gaining insights into the next level of understanding: How the spatial distribution of organelles is linked to their function in an experimental system which features cellular polarity, for example, a tissue or organ. The suitability of C. elegans as a model organism to identify genes functioning in endocytosis has been demonstrated by previous genetic screens (Grant and Hirsh 1999; Fares and Greenwald, 2001). Offering excellent morphological resolution and polarization, the nematode intestine represents a good system to study the apical sorting of a transmembrane marker. The steady state localization of such a marker is likely the result of a dynamic process that depends on biosynthetic trafficking to the apical surface, apical endocytosis and recycling occurring through apical recycling endosomes. Therefore, mis-sorting of this marker upon RNA-mediated interference will be indicative of a failure in one of the aforementioned processes. Furthermore, since it is still largely unclear why apical endosomes maintain their polarized localization, this screen will also monitor the morphology of this endocytic compartment using a second marker. Following image acquisition based on an automated confocal microscope, data can be analyzed using custom-built software allowing objective phenotypic analysis. The successful establishment of the proof-of-principle marks the current state-of-the-art of this large-scale screening project.

Endosom

Mikrotubulus

Motor

Nano

Organelle

Transferrin

Transport

endozytose

kinesin

EGF

Endosome

cargo

endocytosis

kinesin

kinesin-3

motor

nano

transferrin

transport

ddc:570

rvk:WE 5360

Endocytose

Endosom

Intrazellulärer Transport

Kinesin

Mikrotubulus

Molekularer Motor

Investigation of early endosomal sorting and budding / Untersuchung von früh-endosomalem 'sorting' und 'budding'

Barysch, Sina-Victoria

02 November 2009

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Endosom

sorting

budding

in vitro Assay

EEA1

NSF

SNAREs

endosome

sorting

budding

in vitro assay

EEA1

NSF

SNAREs

42.13

42.15

Charakterisierung der bradyzoitspezifisch exprimierten P-Typ Plasmamembran ATPase TgPMA1 in <i>Toxoplasma</i> <i>gondii</i> / Characterization of the bradyzoite-specifically expressed P-type ATPase TgPMA1 in <i>Toxoplasma gondii</i>

Holpert, Mathias

02 July 2003

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Toxoplasma

Protozoa

P-Typ

ATPase

Protonen

Toxoplasma

Protozoa

P-type

ATPase

protons

42.13

42.15

42.36

Fluoreszenzmikroskopische Studien an Plasmamembranen zur Untersuchung der molekularen Mechanismen der neuronalen Exocytose / Fluorescence Microscopy Studies of Plasma Membranes to Analyse the Molecular Machinery of Neuronal Exocytosis

Zilly, Felipe Emilio

06 July 2006

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

SNARE

Syntaxin

Munc18

Exocytose

PC12

SNARE

syntaxin

Munc18

exocytosis

PC12

35.70

42.13

42.15

Faktoren des Kerntransports von Core-Histonproteinen: Strukturelle und funktionelle Analyse / Characterisation of the nuclear transport of core histones: structural and functional analysis

Baake, Matthias

03 May 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Glykosylierung

CDG

GDP-Fukose Transporter

retrovirale Expressionsklonierung

Glycosylation

Congenital Disorder of Glycosylation

GDP-Fucose Transporter

35.76 Aminosäuren

Peptide

Eiweiße

42.15 Zellbiologie

A Micro-scope on intracellular trafficking / Eine mikroskopische Übersicht intrazellulärer Transportprozesse

Olendrowitz, Christian

05 May 2011

No description available.

570 Biowissenschaften

Biologie

42.13 (Molekularbiologie)

Fluoreszenzmikroskopische Studien an Plasmamembranen zur Untersuchung der molekularen Mechanismen der neuronalen Exocytose / Fluorescence Microscopy Studies of Plasma Membranes to Analyse the Molecular Machinery of Neuronal Exocytosis

Zilly, Felipe Emilio

06 July 2006

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

SNARE

Syntaxin

Munc18

Exocytose

PC12

SNARE

syntaxin

Munc18

exocytosis

PC12

35.70

42.13

42.15

Modulation of Cargo Transport and Sorting through Endosome Motility and Positioning

Höpfner, Sebastian

14 November 2005

Utilizing various systems such as cell-based assays but also multicellular organisms such as Drosophila melanogaster and C.elegans, for example, the endocytic system has been shown to consist of a network of biochemically and morphologically distinct organelles that carry out specialized tasks in the uptake, recycling and catabolism of growth factors and nutrients, serving a plethora of key biological functions (Mellman, 1996). Different classes of endosomes were found to exhibit a characteristic intracellular steady state distribution. This distribution pattern observed at steady state results from a dynamic interaction of endosomes with the actin and the microtubule cytoskeleton. It remains unclear, however, which microtubule-based motors besides Dynein control the intracellular distribution and motility of early endosomes and how their function is integrated with the sorting and transport of cargo. The first part of this thesis research outlines the search for such motor. I describe the identification of KIF16B which functions as a novel endocytic motor protein. This molecular motor, a kinesin-3, transports early endosomes to the plus end of microtubules, in a process regulated by the small GTPase Rab5 and its effector, the phosphatidylinositol-3-OH kinase hVPS34. In vivo, KIF16B overexpression relocated early endosomes to the cell periphery and inhibited transport to the degradative pathway. Conversely, expression of dominant-negative mutants or ablation of KIF16B by RNAi caused the clustering of early endosomes to the peri-nuclear region, delayed receptor recycling to the plasma membrane and accelerated degradation. These results suggest that KIF16B, by regulating the plus end motility of early endosomes, modulates the intracellular localization of early endosomes and the balance between receptor recycling and degradation. In displaying Rab5 and PI(3)P-containing cargo selectivity, a remarkable property of KIF16B is that it is subjected to the same regulatory principles governing the membrane tethering and fusion machinery (Zerial and McBride, 2001). Since KIF16B can modulate growth factor degradation, we propose that this motor could have also important implications for signaling. Importantly, KIF16B has provided novel insight into how intracellular localization of endosomes governs the transport activity of these organelles. The second part of this thesis describes the proof-of-principle of a genome-wide screening strategy aimed at gaining insights into the next level of understanding: How the spatial distribution of organelles is linked to their function in an experimental system which features cellular polarity, for example, a tissue or organ. The suitability of C. elegans as a model organism to identify genes functioning in endocytosis has been demonstrated by previous genetic screens (Grant and Hirsh 1999; Fares and Greenwald, 2001). Offering excellent morphological resolution and polarization, the nematode intestine represents a good system to study the apical sorting of a transmembrane marker. The steady state localization of such a marker is likely the result of a dynamic process that depends on biosynthetic trafficking to the apical surface, apical endocytosis and recycling occurring through apical recycling endosomes. Therefore, mis-sorting of this marker upon RNA-mediated interference will be indicative of a failure in one of the aforementioned processes. Furthermore, since it is still largely unclear why apical endosomes maintain their polarized localization, this screen will also monitor the morphology of this endocytic compartment using a second marker. Following image acquisition based on an automated confocal microscope, data can be analyzed using custom-built software allowing objective phenotypic analysis. The successful establishment of the proof-of-principle marks the current state-of-the-art of this large-scale screening project.

info:eu-repo/classification/ddc/570

ddc:570

Untersuchung von Proteinkomponenten der ER-Golgi Recycling-Maschinerie von Hefe / Analysis of protein components of the ER-Golgi recycling-machinery in yeast

Neumann, Tanja

31 January 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

vesikulärer Transport

SNAREs

42.13 Molekularbiologie

42.15 Zellbiologie

42.20 Genetik