Journal
TRANSLATIONAL NEURODEGENERATION
Volume 11, Issue 1, Pages -Publisher
BMC
DOI: 10.1186/s40035-022-00304-2
Keywords
Spinal muscular atrophy; Presynaptic ER dynamics; Dynamics of ribosomal assembly; BDNF stimulation
Categories
Funding
- Projekt DEAL
- PicoQuant
- Deutsche Forschungsgemeinschaft (DFG) [Se697/7-1, 405988308]
- DFG [JA1823/3-1, JAB1920]
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Using super-resolution microscopy, proximity ligation assay, and live imaging techniques, this study investigated the dynamics of axonal ER and ribosome distribution and activation in a mouse model of SMA. The results showed impaired dynamic remodeling of ER in the axon terminals of Smn-deficient motoneurons, as well as failure of ribosomes to respond to stimulation and associate with axonal ER. These findings suggest that impaired dynamic interplay between ribosomes and ER may contribute to the pathophysiology of SMA and other motoneuron diseases.
Background: Axonal degeneration and defects in neuromuscular neurotransmission represent a pathological hallmark in spinal muscular atrophy (SMA) and other forms of motoneuron disease. These pathological changes do not only base on altered axonal and presynaptic architecture, but also on alterations in dynamic movements of organelles and subcellular structures that are not necessarily reflected by static histopathological changes. The dynamic interplay between the axonal endoplasmic reticulum (ER) and ribosomes is essential for stimulus-induced local translation in motor axons and presynaptic terminals. However, it remains enigmatic whether the ER and ribosome crosstalk is impaired in the presynaptic compartment of motoneurons with Smn (survival of motor neuron) deficiency that could contribute to axonopathy and presynaptic dysfunction in SMA. Methods: Using super-resolution microscopy, proximity ligation assay (PLA) and live imaging of cultured motoneurons from a mouse model of SMA, we investigated the dynamics of the axonal ER and ribosome distribution and activation. Results: We observed that the dynamic remodeling of ER was impaired in axon terminals of Smn-deficient motoneurons. In addition, in axon terminals of Smn-deficient motoneurons, ribosomes failed to respond to the brain-derived neurotrophic factor stimulation, and did not undergo rapid association with the axonal ER in response to extracellular stimuli. Conclusions: These findings implicate impaired dynamic interplay between the ribosomes and ER in axon terminals of motoneurons as a contributor to the pathophysiology of SMA and possibly also other motoneuron diseases.
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