The HERC1 E3 Ubiquitin Ligase is essential for normal development and for neurotransmission at the mouse neuromuscular junction

Bachiller, Sara; Rybkina, Tatyana; Porras-García, Elena; Pérez-Villegas, Eva MÂa; Tabares, Lucı́a; Armengol, J.A.; Carrión, Ángel Manuel; Ruiz, Rocío

doi:10.1007/s00018-015-1878-2

Cited by 34 publications

(46 citation statements)

References 52 publications

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“…Early findings in the peripheral nerves of C. elegans suggested that presynaptic formation would be driven by ubiquitination mechanisms (DiAntonio et al 2001). Such a similar demand is likely to be conserved in vertebrate synapses because mice bearing mutations for components of the ubiquitination machinery display severe synaptic defects (Wilson et al 2002;Burgess et al 2004;Saiga et al 2009;Chen et al 2011;Bachiller et al 2015). In line with these studies, we have recently demonstrated that the rate of presynaptic assembly shoots up upon inhibition of the proteasome in developing axons (Pinto et al 2016a).…”

Section: Polyubiquitinated Signals Instruct Assemblysupporting

confidence: 67%

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Puzzling out presynaptic differentiation

Pinto

Almeida

2016

Journal of Neurochemistry

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Proper brain function in the nervous system relies on the accurate establishment of synaptic contacts during development. Countless synapses populate the adult brain in an orderly fashion. In each synapse, a presynaptic terminal loaded with neurotransmitters-containing synaptic vesicles is perfectly aligned to an array of receptors in the postsynaptic membrane. Presynaptic differentiation, which encompasses the events underlying assembly of new presynaptic units, has seen notable advances in recent years. It is now consensual that as a growing axon encounters the receptive dendrites of its partner, presynaptic assembly will be triggered and specified by multiple postsynaptically-derived factors including soluble molecules and cell adhesion complexes. Presynaptic material that reaches these distant sites by axonal transport in the form of pre-assembled packets will be retained and clustered, ultimately giving rise to a presynaptic bouton. This review focuses on the cellular and molecular aspects of presynaptic differentiation in the central nervous system, with a particular emphasis on the identity of the instructive factors and the intracellular processes used by neuronal cells to assemble functional presynaptic terminals.

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Section: Polyubiquitinated Signals Instruct Assemblysupporting

confidence: 67%

“…; Bachiller et al . ). In line with these studies, we have recently demonstrated that the rate of presynaptic assembly shoots up upon inhibition of the proteasome in developing axons (Pinto et al .…”

Section: Presynaptic Differentiationmentioning

confidence: 97%

Puzzling out presynaptic differentiation

Pinto

Almeida

2016

Journal of Neurochemistry

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“…However, Purkinje cells seem not to be the exclusive target of the mutation; thus, we have recently reported that 1-month-old tbl/tbl mice—that is, before the beginning of Purkinje cell degeneration—present alterations of their motor performance. This motor impairment was closely related to three main alterations of the neuromuscular junction: (i) the reduction of the motor end-plate size; (ii) the decrease of neuromuscular activity efficiency in vivo ; and (iii) the impairment of the evoked neurotransmitter release (Bachiller et al, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

HERC 1 Ubiquitin Ligase Mutation Affects Neocortical, CA3 Hippocampal and Spinal Cord Projection Neurons: An Ultrastructural Study

et al. 2016

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The spontaneous mutation tambaleante is caused by the Gly483Glu substitution in the highly conserved N terminal RCC1-like domain of the HERC1 protein, which leads to the increase of mutated protein levels responsible for cerebellar Purkinje cell death by autophagy. Until now, Purkinje cells have been the only central nervous neurons reported as being targeted by the mutation, and their degeneration elicits an ataxic syndrome in adult mutant mice. However, the ultrastructural analysis performed here demonstrates that signs of autophagy, such as autophagosomes, lysosomes, and altered mitochondria, are present in neocortical pyramidal, CA3 hippocampal pyramidal, and spinal cord motor neurons. The main difference is that the reduction in the number of neurons affected in the tambaleante mutation in the neocortex, the hippocampus, and the spinal cord is not so evident as the dramatic loss of cerebellar Purkinje cells. Interestingly, signs of autophagy are absent in both interneurons and neuroglia cells. Affected neurons have in common that they are projection neurons which receive strong and varied synaptic inputs, and possess the highest degree of neuronal activity. Therefore, because the integrity of the ubiquitin-proteasome system is essential for protein degradation and hence, for normal protein turnover, it could be hypothesized that the deleterious effects of the misrouting of these pathways would depend directly on the neuronal activity.

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“…The detected increase in tbl PC survival, reduced atrophy and increased afferent contacts to tbl PCs, clearly show that physical exercise activated protective mechanisms in mutant mice. However, additional mechanisms such as a reduction of neuromuscolar junction alterations described in tbl mice (Bachiller et al, 2015) could also contribute to the detected functional benefits. A better preservation of cerebellar neurons is in line with the increased deposition of PNN in CN, and it is further strengthened by the incremented expression of BDNF in combination with reduction of deregulated autophagy.…”

Section: Discussionmentioning

confidence: 99%

Preventive motor training but not progenitor grafting ameliorates cerebellar ataxia and deregulated autophagy in tambaleante mice

Fucà

Guglielmotto

Boda

et al. 2017

Neurobiology of Disease

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Authors' contributionEF and KL performed grafts; EF performed motor training, behavioral, immunohistochemical analyses and stereological counts; MG and EB performed molecular biology and biochemical experiments; EF, FR, KL and AB conceived experiments, EF, KL and AB interpreted data and wrote the manuscript; all the authors reviewed and approved the final manuscript. Highlights• Preventive grafts of Purkinje cells survive despite ongoing host neurodegeneration correlates. Our results demonstrate that, despite a good survival rate and integration of grafted PCs, the adopted grafting protocol could not alleviate the ataxic symptoms in tbl mice. Conversely, preventive motor training increases PCs survival with a moderate positive impact on the motor phenotype.

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The HERC1 E3 Ubiquitin Ligase is essential for normal development and for neurotransmission at the mouse neuromuscular junction

Cited by 34 publications

References 52 publications

Puzzling out presynaptic differentiation

Puzzling out presynaptic differentiation

HERC 1 Ubiquitin Ligase Mutation Affects Neocortical, CA3 Hippocampal and Spinal Cord Projection Neurons: An Ultrastructural Study

Preventive motor training but not progenitor grafting ameliorates cerebellar ataxia and deregulated autophagy in tambaleante mice

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