The model organism used in this work was the fruitfly Drosophila, because of its powerful genetics, and methods to study the synapse where motor axons stimulate muscles (the neuromuscular junction; Figures 2 and 3). We generated mutant animals lacking the HSP ER-shaping protein (Reticulon), and studied neuromuscular junctions in wild-type and mutant animals. This has helped us to understand the roles of this protein and the consequences of altered ER distribution for local trafficking and organelle function.
We found that Reticulon loss of function causes structural defects in presynaptic ER distribution, and that these defects associate with altered synaptic morphology and signalling between muscles and neurons. Furthermore, we observed abnormal presynaptic calcium signaling, which it is known to be essential for neuronal function and whose dysregulation associate with neurodegeneration. These results will be published in open access in a scientific article that is in preparation.
In addition, we found that animals mutated for Reticulon and other two ER-shaping proteins (ReepA and ReepB) affects presynaptic ER calcium handling. We published this data, together with genetic tools we generated to visualize calcium signaling (Figure 2), in an open access repository (Oliva et al., 2020, bioRxiv, DOI: 10.1101/2020.02.20.957696) and it is under revision in a peer-reviewed scientific journal.
During this project, we also identified and characterized genetic tools to allow the identification and manipulation of specific types of motor neurons (Figure 3). This work has been published in an open access preprint server (Perez-Moreno and O'Kane, 2019, bioRxiv DOI: 10.1101/445577) and in an open-access peer-reviewed scholarly journal (Perez-Moreno and O’Kane, 2019, G3 DOI: doi.org/10.1534/g3.118.200809).
Our findings have been disseminated in our host department (Department of Genetics, University of Cambridge: Annual Departmental meeting 2018 and Internal Seminar Series 2019), in specialized scientific conferences (Tom Wahlig Symposium 2018, European Drosophila Neurobiology Conference 2018, and Cambridge Neuroscience Seminar 2019), as well as in public outreach events (European Commission Researchers Night 2018 and Cambridge Science Festival 2019). Furthermore, we have published a review article about axonal ER and neurodegeneration in a peer-reviewed journal (Öztürk et al., 2020, Front Neurosci, DOI: doi.org/10.3389/fnins.2020.00048).