Your search keyword '"Maximilian L. Haas"' showing total 2 results

1. The ABL-MYC axis controls WIPI1-enhanced autophagy in lifespan extension

Author

Katharina Sporbeck, Maximilian L. Haas, Carmen J. Pastor-Maldonado, David S. Schüssele, Catherine Hunter, Zsuzsanna Takacs, Ana L. Diogo de Oliveira, Mirita Franz-Wachtel, Chara Charsou, Simon G. Pfisterer, Andrea Gubas, Patricia K. Haller, Roland L. Knorr, Manuel Kaulich, Boris Macek, Eeva-Liisa Eskelinen, Anne Simonsen, and Tassula Proikas-Cezanne

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Human WIPI β-propellers function as PI3P effectors in autophagy, with WIPI4 and WIPI3 being able to link autophagy control by AMPK and TORC1 to the formation of autophagosomes. WIPI1, instead, assists WIPI2 in efficiently recruiting the ATG16L1 complex at the nascent autophagosome, which in turn promotes lipidation of LC3/GABARAP and autophagosome maturation. However, the specific role of WIPI1 and its regulation are unknown. Here, we discovered the ABL-ERK-MYC signalling axis controlling WIPI1. As a result of this signalling, MYC binds to the WIPI1 promoter and represses WIPI1 gene expression. When ABL-ERK-MYC signalling is counteracted, increased WIPI1 gene expression enhances the formation of autophagic membranes capable of migrating through tunnelling nanotubes to neighbouring cells with low autophagic activity. ABL-regulated WIPI1 function is relevant to lifespan control, as ABL deficiency in C. elegans increased gene expression of the WIPI1 orthologue ATG-18 and prolonged lifespan in a manner dependent on ATG-18. We propose that WIPI1 acts as an enhancer of autophagy that is physiologically relevant for regulating the level of autophagic activity over the lifespan.

Published

2023

2. Autophagy profiling in single cells with open source CellProfiler-based image analysis

Author

David S. Schüssele, Patricia K. Haller, Maximilian L. Haas, Catherine Hunter, Katharina Sporbeck, and Tassula Proikas-Cezanne

Subjects

Autophagy, Autophagy-Related Proteins, Cell Biology, Phosphatidylinositols, Molecular Biology

Abstract

Single cell-based analysis of macroautophagy/autophagy is largely achieved through the use of fluorescence microscopy to detect autophagy-related proteins that associate with autophagic membranes and therefore can be quantified as fluorescent puncta. In this context, an automated analysis of the number and size of recognized puncta is preferable to a manual count, because more reliable results can be generated in a short time. Here we present a method for open source CellProfiler software-based analysis for quantitative autophagy assessments using GFP-tagged WIPI1 (WD repeat domain, phosphoinositide interacting 1) images acquired with Airyscan or confocal laser-scanning microscopy. The CellProfiler protocol is provided as a ready-to-use software pipeline, and the creation of this pipeline is detailed in both text and video formats. In addition, we provide CellProfiler pipelines for endogenous SQSTM1/p62 (sequestosome 1) or intracellular lipid droplet (LD) analysis, suitable to assess forms of selective autophagy. All protocols and software pipelines can be quickly and easily adapted for the use of alternative autophagy markers or cell types, and can also be used for high-throughput purposes.

Published

2022