"I investigated the significance of dendritic mitochondria in fueling local dendritic protein translation using conventional and super resolution fluorescence microscopy. Mitochondria were found to exist in spatial compartments of 30 μm that were stable for a period of 60 min in dendrites, but not in axons. Super resolution imaging of the measured mitochondrial compartments revealed that they were comprised of single or multiple mitochondrial filaments. On local perturbation of the function of these mitochondrial compartments, synaptic plasticity-induced protein translation was affected in spines. However, local protein translation during basal neuronal activity remained unaffected. These results suggest that local mitochondrial compartments fuel local synaptic protein translation in an activity-dependent manner (Figure 1, Rangaraju V et al, in review).
I developed and characterized a novel methodology to selectively label and isolate the mitochondrial proteome from sub mitochondrial compartments –mitochondrial matrix and outer mitochondrial membrane– in neuronal cultures. I am currently exploiting this methodology to study the regulation of mitochondrial proteome during neuronal activity (Figure 2, Rangaraju V et al. manuscript in preparation). I am also investigating the mitochondrial proteome in sub neuronal compartments –soma and neurites– using a novel platform to grow neurons in physically separated chambers.
In summary, I have demonstrated that in addition to the presence of localized translational machinery in dendrites, local compartments of energy exist to fuel local translation in an activity-dependent manner. Further, I have implemented a novel methodology to study the sub mitochondrial proteome in neurons to investigate the modulation of the mitochondrial proteome during neuronal activity.
These findings have been presented at various international conferences – Gordon Research Conference Cell Biology of the Neuron 2016; Gordon Research Conference Dendrites: Molecular Structure & Function 2017; EMBO Fellows’ meeting 2017; and at science seminars open to the public (Bar of Science of MPIBR 2017, Ivy Circle and Cornell alumni club of Frankfurt).
This project has resulted in 3 manuscripts:
1. Vidhya Rangaraju*#, Susanne tom Dieck and Erin M Schuman, Local translation in neuronal compartments: how local is local? EMBO reports 18, 693 (2017).
Number of citations: 16. # Corresponding author.
2. Vidhya Rangaraju*, Marcel Lauterbach, Erin M Schuman, Spatially stable mitochondrial compartments fuel activity-dependent local translation, in review.
3. Vidhya Rangaraju*, Christina Thum, Fiona Rupprecht, Julian Langer, Erin M Schuman, Local mitochondrial proteome remodeling during synaptic activity, in preparation.
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