How Does The Recycling Process Within Eukaryotic Cells Work on a Molecular Level?

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The research presented in the video investigates how endosomes are able to transport material back to the cell surface in a process called recycling or endosomal exocytosis. In order to do so, endosomes have to have their own identity which is defined by a phosphoinositide, Phosphatidylinositol 3-phosphate (PI3P).
To deliver the material to the cell surface the endosomes have to get rid of their old PI3P identity and acquire a new identity that is characteristic of the plasma membrane such as PI4-phosphate (PI4P). VOLKER HAUCKE explains that understanding how this conversion of phosphoitnositide identities occurs is important to understand communication within a cell and how it may be related to diseases.

DOI:

https://doi.org/10.21036/LTPUB10330

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Researcher

Volker Haucke is Director of the Leibnitz Institute for Molecular Pharmacology, Professor of Molecular Pharmacology at the Free University Berlin as well as a faculty member of the Charité University for Medicine Berlin. In 2003, he received the Young Investigator Award of the European Molecular Biology Organization, where he also became an Elected Member in 2014.
Haucke‘s research revolves around the molecular mechanisms of exo-endocytosis and endolyososomal membrane dynamics and its role in cell signaling, especially in the nervous system. This also involves using the new-found insights to develop treatments for diseases linked to these processes.

Institution

Leibniz Institute for Molecular Pharmacology (FMP)

The FMP conducts basic research in Molecular Pharmacology with the aim to identify novel bioactive molecules and to characterize their interactions with their biological targets in cells or organisms. These compounds are useful tools in basic biomedical research and may be further developed for the treatment, prevention, or diagnosis of disease. To this aim FMP researchers study key biological processes and corresponding diseases, such as cancer, aging including osteoporosis, or neurodegeneration. They also develop and apply advanced technologies ranging from screening technologies over NMR based methods to proteomics and in vivo models. (Source: FMP)

Original publication

A Phosphoinositide Conversion Mechanism for Exit from Endosomes

Ketel Katharina, Krauss Michael, Nicot Anne-Sophie, Puchkov Dmytro, Wieffer Marnix, Müller Rainer, Subramanian Devaraj, Schultz Carsten, Laporte Jocelyn and Haucke Volker

Nature

Published in 2016

Reading recommendations

Phosphoinositides in Control of Membrane Dynamics

Schink Kay O., Tan Kia-Wee and Stenmark Harald

Annual Review of Cell and Developmental Biology

Published in 2016

Signal Processing by the Endosomal System

Villaseñor Roberto, Kalaidzidis Yannis and Zerial Marino

Current opinion in cell biology

Published in 2016

Cell Biology: Lipid Code for Membrane Recycling

Balla Tamas

Nature

Published in 2016

Phosphatidylinositol 3-phosphates—at the Interface Between Cell Signalling and Membrane Traffic

Haucke Volker and Marat Andrea L.

The EMBO journal

Published in 2016

Mendelian Disorders of PI Metabolizing Enzymes

Staiano Leopoldo, De Leo Maria Giovanna, Persico Maria and De Matteis Maria Antonietta

Biochimica et Biophysica Acta (BBA)-Molecular and Cell Biology of Lipids

Published in 2015

Detection and Manipulation of Phosphoinositides

Idevall-Hagren Olof and De Camilli Pietro

Biochimica et Biophysica Acta (BBA)-Molecular and Cell Biology of Lipids

Published in 2015

Phosphoinositides: Tiny Lipids with Giant Impact on Cell Regulation

Balla Tamas

Physiological reviews

Published in 2013

PI4P and PI (4, 5) P2 Are Essential but Independent Lipid Determinants of Membrane Identity

Balla Tamas, Hammond Gerald R. V., Fischer Michael J., Anderson Karen E., Holdich Jon, Koteci Ardita and Irvine Robin F.

Science

Published in 2012

Mutations in Posphoinositide Metabolizing Enzymes and Human Disease

De Camilli Pietro and McCrea Heather J.

Physiology

Published in 2009

Phosphoinositides in Cell Regulation and Membrane Dynamics

De Camilli Pietro and Di Paolo Gilbert

Nature

Published in 2006

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Citation

Volker Haucke, Latest Thinking, How Does The Recycling Process Within Eukaryotic Cells Work on a Molecular Level?, https://doi.org/10.21036/LTPUB10330, 2016

Credits:

© Volker Haucke and Latest Thinking
This work is licensed under CC-BY 4.0