The study of molecular mechanism for synapse formation in neuronal development and brain function

Huo, Yuda

12 November 2019

Synaptogenesis is a critical process in the establishment of neuronal connectivity during brain development. The key step is to transduce external stimuli into the internal signaling cascades. Cell adhesion molecules and scaffold proteins facilitate the transduction to achieve optimal connectivity through PDZ domain mediated interaction. FRMPD2, a product of a human-specific multi-copy gene with three PDZ domains, has been shown to localize to the tight junctions in epithelial cells, suggesting a role in inter-cellular interaction. Although the correlation between neurodevelopmental disorders and gene dosage alteration of FRMPD2 has been observed, its role in the nervous system remains unknown. Therefore, I investigated the role of FRMPD2 in neurodevelopment. I found that FRMPD2 localizes at the excitatory synapses and promotes synaptogenesis in rat neurons. Mechanistically, FERM domain is required for synaptic localization of FRMPD2 through the interaction with F-actin in spines. More importantly, I found that FRMPD2 associates with cell adhesion molecule Neuroligin-1 through PDZ domain mediated interaction, resulting in an increase in Neuroligin-1 surface expression and up-regulation of synaptogenesis. Results from in utero electroporation showed that overexpression of FRMPD2 in mouse brains delayed neuronal migration and increased dendritic arborization and spine formation. Remarkably, viral overexpression of FRMPD2 in mouse brains improved memory retention. Abnormalities in synaptogenesis during neurodevelopment can cause neurodevelopmental disorders, such as Autism Spectrum Disorders (ASDs). Genomic studies from cohorts of ASD patients have revealed the prevalence of dysfunctional genes in the ubiquitin-proteasome pathway, especially the E3 ligases, suggesting the E3 ligase as a key component in ASD pathogenesis. Genomic duplication or deletion of PARK2 gene, a E3 ligase gene, has been identified in ASD patients. Therefore, I explored the autistic phenotypes of the Park2 knockout (KO) mice. Indeed, the KO mice demonstrated features of typical ASD behaviors. Further, Park2 KO mice showed a reduction in spine number, dendritic arborization, and levels of neuronal activity. The alterations in synaptic property in Park2 KO mice may serve as the etiological factor for ASD. These findings provide insights into the role of a novel synaptic organizer scaffold protein for synapse formation during brain development, and a novel ASD model. / 2020-11-12T00:00:00Z

Neurosciences

ASD

FRMPD2

Human-specific gene

Neurodevelopment

PARK2

Synaptogenesis

The role of Parkin R274W in genetic forms of Parkinson’s disease

Sevegnani, Martina

14 December 2022

Parkinson’s disease (PD) is a neurodegenerative disorder characterized by the progressive loss of nigral dopaminergic (DA) neurons and the formation of Lewy bodies. Despite most cases being idiopathic, mutations in several genes have been implicated in familial forms of PD. In particular, recessive mutations in Parkin gene (PARK2) are the most common cause of young-onset inherited parkinsonism. Parkin is an E3 ubiquitin ligase involved both in the control of mitochondrial turnover and in the proteasome-dependent degradation of proteins, two pathways that have been causally linked to PD development. Although initially described as a recessive disorder, experimental evidence suggests that heterozygous Parkin mutations can exert dominant toxic effects causing neurodegeneration. In 2012, Ruffmann and colleagues identified the first pure heterozygous R275W Parkin patient with clinical features of typical late-onset PD and a diffuse Lewy body pathology. To assess the impact of R275W Parkin, we generated the first mouse line carrying Parkin R274W mutation, which corresponds to the human R275W substitution. Unlike Parkin deficient mouse models, both homo- and heterozygous R274W mice show an age-related motor impairment, degeneration of dopaminergic neurons and neuroinflammation. We detected structural and functional mitochondrial abnormalities related to PARIS-PGC-1α axis impairment in R274W+/+ mice brain and skeletal muscle. Strikingly, we noticed signs of protein aggregation in both R274W+/- and +/+ mice, while we identified bona fide Lewy bodies only in the midbrain of heterozygous mice. Additionally, in the brains of R274W mice we discovered overt abnormalities of the glymphatic system, the main route for brain waste clearance. Our preliminary observations suggest that Parkin influences aquaporin-4 (AQP4) localization. Altogether, our data suggest that R274W Parkin substitution behaves both as a loss ofand a gain of toxic function, highlighting a link between Parkin dominant toxicity and age-dependent motor impairment, neuroinflammation, DA neurons loss, glymphatic system dysfunctions and α-synuclein aggregation in vivo. Hence, our study provides a new robust mouse model to explore PD pathogenesis and glymphatic dysfunctions, offering the possibility to test novel therapeutic strategies with great predictivity.

Using the Yeast Two-Hybrid System to Determine the Function of Parkin E3 Ubiquitin Ligase

Nguyen, Vanessa

01 December 2014

Parkin is a cytosolic E3 ubiquitin ligase that is recruited to the mitochondria during cellular stress and has been suggested to be involved in a variety of biological processes such as mitophagy. The recruitment of Parkin (PARK2) to the mitochondria is dependent upon the kinase activity and the accumulation of PINK1 on damaged mitochondria. Mutations in either PINK1 or Parkin genes disrupt this protective pathway and lead to the accumulation of damaged mitochondria. From a clinical standpoint, mutations in the PARK2 gene have been associated with the progression and onset of autosomal recessive juvenile parkinsonism. Without the presence of a quality control system such as that of the PINK1/Parkin pathway, the accumulation of damaged mitochondria could lead to increased levels of oxidative stress, a decrease in ATP, and the progression towards cellular death. However, many of the details regarding the mechanism of Parkin-mediated ubiquitination and its involvement in mitophagy are not fully established. The intent of this thesis is to further explore the function of Parkin by utilizing the yeast-two hybrid system to identify novel Parkin interactors/substrates. A HeLa (cervical cell carcinoma) cDNA library was screened using Parkin124-465 as the "bait" protein. From this screening, six positive Parkin interactors were isolated and characterized. Using this approach it is possible to gain a better understanding of the function of Parkin in regulating cellular processes such as mitophagy.

Microbiology

Molecular Biology

Genetika a fenotypová charakteristika Parkinsonovy nemoci s časným začátkem / Genetics and phenotypic characteristics of early-onset Parkinson's disease

Fiala, Ondřej

January 2014

Objective: Mutations in the parkin (PARK2) gene have been associated with autosomal recessive early-onset Parkinson's disease (EOPD) with various frequencies in different populations. The aim of the study is to describe phenotypic characteristics of Czech EOPD patients, to evaluate the influence of environmental risk factors, and to determine the frequency of parkin allelic variants in patients and healthy controls. Methods: A total of 70 EOPD patients (age at onset ≤ 40 years) and 75 controls were phenotyped and screened for the sequence variants and exon rearrangements in the parkin gene. Results: The main features in the phenotype of the patients' sample were: the absence of cognitive deficit, high occurrence of dystonia, depression, hyperhidrosis, an excellent response to dopaminergic therapy, early onset of dyskinesia and motor fluctuation. Patients with mutations in the parkin gene had significantly lower age at onset. The agricultural occupation and work with chemicals increased the risk of EOPD, however the coffee drinking appeared to be a protective factor. Parkin mutations were identified in five patients (7.1%): the p.R334C point mutation was present in one patient, four patients had exon deletions. The detected mutations were observed in the heterozygous state except one homozygous...

Genetika a fenotypová charakteristika Parkinsonovy nemoci s časným začátkem / Genetics and phenotypic characteristics of early-onset Parkinson's disease

Fiala, Ondřej

January 2014

Objective: Mutations in the parkin (PARK2) gene have been associated with autosomal recessive early-onset Parkinson's disease (EOPD) with various frequencies in different populations. The aim of the study is to describe phenotypic characteristics of Czech EOPD patients, to evaluate the influence of environmental risk factors, and to determine the frequency of parkin allelic variants in patients and healthy controls. Methods: A total of 70 EOPD patients (age at onset ≤ 40 years) and 75 controls were phenotyped and screened for the sequence variants and exon rearrangements in the parkin gene. Results: The main features in the phenotype of the patients' sample were: the absence of cognitive deficit, high occurrence of dystonia, depression, hyperhidrosis, an excellent response to dopaminergic therapy, early onset of dyskinesia and motor fluctuation. Patients with mutations in the parkin gene had significantly lower age at onset. The agricultural occupation and work with chemicals increased the risk of EOPD, however the coffee drinking appeared to be a protective factor. Parkin mutations were identified in five patients (7.1%): the p.R334C point mutation was present in one patient, four patients had exon deletions. The detected mutations were observed in the heterozygous state except one homozygous...