The key regulator of autophagy is the protein Atg1. Its importance for the activation of autophagy has long been known to researchers, and details of its functions were described by the Kraft group in their 2014 Molecular Cell publication. However, how Atg1 activity and the process of autophagy are controlled in order to prevent their aberrant activation had remained elusive. Now, the team of Claudine Kraft at the MFPL of the University of Vienna discovered that Atg1 is regulated in both space and time. Only when precise requirements are met, Atg1 is activated and autophagy is initiated.
To start the process, both the key regulator Atg1 as well as the "waste" to be discarded are separately brought to the precise location where the waste is packed into cellular “garbage bags". The simultaneous presence of both Atg1 and the waste at this place is crucial for the activation of Atg1 and the initiation of autophagy. Claudine Kraft and her team showed that the cell allows Atg1 to meet the waste only at the site of waste packaging. This tightly restricts autophagy initiation in space and time and prevents its aberrant activation.
In a normal cell two coordinators bring Atg1 and the waste independently from each other to the waste packaging location. When these coordinators are removed from the cell, the waste and Atg1 cannot meet and autophagy is not induced. Daniel Papinski, shared first author of the study, explains: "In cells without these coordinators, we were able to promote waste removal by autophagy when Atg1 was artificially forced to meet the waste. This shows that the concurrence of Atg1 and waste at the right place is a key regulatory step to activate autophagy".
The detailed study of such fundamental cellular processes is crucial for the understanding of diseases that go hand in hand with these events – in the case of autophagy, Alzheimer’s disease or cancer. In the long run, this will help to better treat or perhaps even prevent these illnesses.
Claudine Kraft elaborates: "This work gave us important insight into the molecular events regulating autophagy in space and time. Only if we understand the molecular details, we will be able to design medication exclusively targeting autophagy in these diseases".
Publication in "Molecular Cell"Torggler R, Papinski D, Brach T, Bas L, Schuschnig M, Pfaffenwimmer T, Rohringer S, Matzhold T, Schweida D, Brezovich A and Kraft C (2016). Two Independent Pathways within Selective Autophagy Converge to Activate Atg1 Kinase at the Vacuole. Molecular Cell, doi: