MH 13-Autophagy; Screening

High-content screening of small molecule compounds in autophagy-deficient cell types

MH - Medicine

Institute of Human Genetics

Therapeutic approaches in pre-clinical models of NBIA

BiologyMedicine

Participation also possible online only:

Planned project location:

Ingolstädter Landstraße 1
85764 Neuherberg
Germany

Dr.

Arcangela

Iuso

arcangela.iuso@helmholtz-munich.de

 +49-89-3187-43149

Title:
Testing Autophagy-Restoring Compounds in Patient-Derived Fibroblasts Using High-Content Imaging

Project Summary:
Autophagy dysfunction contributes to the pathogenesis of several neurodegenerative and lysosomal storage disorders. In this project, we will use an established high-content imaging (HCI) platform to test candidate compounds for their ability to restore autophagy function in patient-derived fibroblasts carrying known mutations in autophagy-related genes.

Using quantitative imaging of key autophagy markers—including LC3 (autophagosome formation), p62/SQSTM1 (cargo clearance), and lysosomal markers (e.g., LAMP1, LysoTracker)—we will assess autophagic flux in response to pharmacological treatment. Fibroblasts will be treated with selected compounds known or predicted to modulate autophagy pathways (e.g., mTOR inhibitors, TFEB activators, AMPK modulators), under both basal and stress-induced conditions.

Key Objectives:

To evaluate the effect of candidate compounds on autophagosome formation and cargo degradation in autophagy-defective fibroblasts.
To compare treatment responses between mutant and control fibroblasts using quantitative image-based metrics.
To identify compounds that significantly rescue autophagy phenotypes, based on reduction of p62 accumulation, increased LC3 puncta turnover, and improved lysosomal function.
Expected Outcomes:
This project will identify promising autophagy-restoring compounds suitable for further preclinical development. It will also generate quantitative phenotypic data that can be used for mechanistic follow-up and to support future high-throughput compound screening in patient-derived cell models.

40

2 years of bachelor studies completed

Basic Cell Biology Knowledge; Laboratory Experience in Cell Culture (Aseptic technique, Maintenance and passaging of adherent cell lines); Familiarity with staining techniques and imaging fixed cells; Data Handling and Documentation Skills

Recommended (But Can Be Taught During the Project)
Immunofluorescence Staining; Experience with staining intracellular proteins (e.g., LC3, p62, LAMP1);
Image Analysis Basics (ImageJ/Fiji)