LRRK2 Phosphorylates HuD to Affect the Post-Transcriptional Regulation of Parkinson's Disease-Linked mRNA Targets

Pastic, Alyssa

19 December 2018

Parkinson's Disease (PD) is a late-onset neurodegenerative disease characterized by progressive motor dysfunction caused by a loss of dopaminergic neurons for which there is no known cure. Among the most common genetic causes of PD are mutations in the leucine-rich repeat kinase 2 gene (LRRK2), encoding a multi-domain protein with kinase activity. The LRRK2 G2019S mutation causes hyperactivity of the kinase domain and is the most frequent LRRK2 mutation in patients with familial PD, though its role in PD pathology remains unclear. Preliminary data from the lab of our collaborator, Dr. David Park, demonstrated through a genetic screen in Drosophila melanogaster that the deletion of rbp9 encoding an RNA-binding protein prevented pathology induced by PD-relevant mutations in the LRRK2 kinase domain. The neuronal homolog of RBP9 in humans is HuD, a member of the Hu family of RNA-binding proteins that regulates the expression of many transcripts involved in neuronal development, plasticity, and survival. In addition, HuD has been shown to modify the age-at-onset or risk of developing PD. Here, we studied the effect of LRRK2 on the post-transcriptional regulation of mRNAs bound by HuD in the context of PD. Our findings showed that HuD is a substrate for LRRK2 phosphorylation in vitro, and that LRRK2 G2019S hyperphosphorylates HuD. We demonstrated that LRRK2 kinase activity is required for the binding of several transcripts by HuD that encode PD-relevant proteins such as α-synuclein and neuronal survival factor BDNF. Our findings in human neuroblastoma cells indicated that LRRK2 regulates the protein levels of HuD mRNA targets α-synuclein and BDNF in a mechanism that can by modified by HuD. Finally, we showed that the combination of HuD knockout with LRRK2 G2019S expression in mice rescues aberrant expression of HuD targets in mice with only the LRRK2 G2019S mutation or the knockout of HuD alone. Together, our findings demonstrate that LRRK2 affects the post-transcriptional regulation of HuD-bound mRNAs, and suggest the use of HuD as a potential therapeutic target in patients with PD caused by the LRRK2 G2019S mutation.

RNA-binding protein

Leucine-rich repeat kinase 2 (LRRK2)

Parkinson's disease

post-transcriptional regulation

High Throughput Screening for Modulators of LRRK2 GTPase Activity

Gray, Derrick Allen

06 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Parkinson's disease (PD) is a progressive neurodegenerative disorder that affects over 10 million people. Treatments for PD are limited to symptom mitigation with no means of stopping or slowing disease progression. Mutations within the protein leucine- rich repeat kinase 2 (LRRK2) are the most common cause of familial PD and are indistinguishable from the more common sporadic cases. Identifying molecules capable of modulating LRRK2 GTPase activity may serve as the foundation for future development of novel PD therapeutics. We recently discovered that the G-domain (ROC) of LRRK2 is capable of transitioning between monomer and dimer form in solution upon GTP/GDP binding. R1441C/G/H pathogenic mutations were demonstrated to alter this dynamic shifting toward a monomeric ROC conformation while decreasing GTPase activity. Using our ROC dimeric crystal structure, we strategically introduced disulfide bonds to generate locked monomer and locked dimer states. Monomeric ROC was shown to increase GTPase activity while the dimeric form decreased activity. Solvent mapping performed using the dimeric ROC crystal structure and a homology model of the ROC monomer revealed a binding hotspot at the ROC dimeric interface and adjacent to the R1441 residue in the monomeric model. In this study our goal was to identify more compounds capable of influencing GTPase activity. We performed high throughput screening of ROC against two compound libraries (LOPAC1280 and ChemBridge 50K) in a GTP binding assay. Twenty-three hits were identified and four compounds were further investigated in dose-response experiments. 3,4-Methylenedioxy-beta nitrostyrene (MNS) was demonstrated to decrease GTP binding and inhibit GTPase activity (IC50=23.92μM) while the compound N-phenylanthranilic acid increased GTP binding (EC50=4.969μM) and decreased GTPase activity. Identification of these compounds is the first step in the development of a novel PD therapeutic targeting the G-domain of LRRK2.

Parkinson's disease

High Throughput Screening

LRRK2

ROC Domain

GTPase Activity

GTP Binding

Functional properties of the intact and compromised midbrain dopamine system

Kaufmann, Anna-Kristin

January 2017

The midbrain dopamine system is involved in many aspects of purposeful behaviour and, when compromised, can have devastating effects on movement and cognition as seen in diseases like Parkinson's. In the healthy brain, dopamine neurons are thought to play particularly important roles in learning by signalling errors in reward prediction. The objective of this thesis was to investigate the diversity in the functional properties of the midbrain dopamine system, and how this is altered through genetic variation of relevance to Parkinson's and development of cell phenotype. This objective was addressed with a combination of behavioural experiments, in vivo single-cell recording and labelling (both in anaesthetised as well as awake rodents), immunofluorescence labelling, retrograde tracing and stereology. In a first set of experiments, it was demonstrated that chronic as well as acute genetic challenges can alter the firing patterns of midbrain dopamine neurons. Using a novel bacterial artificial chromosome-transgenic rat model, it was shown that the R1441C mutation in human leucine-rich repeat kinase 2, which is linked to Parkinson's, leads to motor deficits and an age-dependent reduction in the in vivo firing variability and burst firing of substantia nigra pars compacta (SNc) dopamine neurons. These findings help reveal processes of early, pre-degenerative dysfunction in dopamine neurons in Parkinson's. Similar effects on firing variability and burst firing of SNc dopamine neurons were found in a mouse model with conditional knock- out of the transcription factors Forkhead box A1 and A2 (FoxA1/2) in midbrain dopamine neurons. These findings indicate that FoxA1/2 are not only crucial for the early development of dopamine neurons, but also their function in the mature brain. In a second set of experiments in wildtype mice, it was demonstrated that midbrain dopamine neurons (located in SNc and ventral tegmental area) show diverse expression of the molecular markers Calbindin, Calretinin, Aldh1a1, Sox6, Girk2, SatB1 and Otx2. It was found that selective expression of these markers is of use for discriminating between midbrain dopamine neurons that project to dorsal striatum or nucleus accumbens. To elucidate whether the diverse molecular marker expression would map onto dopamine neurons whose firing correlates with distinct behavioural events, midbrain dopamine neurons were recorded and labelled in head-fixed awake mice either exposed to neutral sensory stimuli or performing a classical conditioning paradigm. The population activity of midbrain dopamine neurons was not modulated by neutral sensory stimuli. Interestingly, fewer than 50% of identified dopamine neurons showed phasic firing increases following reward- predicting cue and/or reward delivery, despite the common assumption that most (if not all) midbrain dopamine neurons signal reward prediction errors. Instead, firing was modulated by other explanatory factors, such as licking, or showed no modulation during the task. Response types of midbrain dopamine neurons were not correlated with their anatomical location nor the selective or combinatorial expression of the markers Aldh1a1, Calbindin and Sox6. In conclusion, the first set of experiments identified how different genetic burdens can alter the in vivo firing of midbrain dopamine neurons, and provide new insights into how circuits can change in pathological or compensatory ways at early disease stages in Parkinson's. The second set of experiments revealed striking heterogeneity of midbrain dopamine neurons in the intact system, and established further a functional diversity in the response types of identified midbrain dopamine neurons that is only partially consistent with canonical reward prediction error signalling.

Recherche des facteurs génétiques à l’origine de la maladie de Parkinson dans la population canadienne-française du Québec

Rivière, Jean-Baptiste

01 1900

La maladie de Parkinson (MP) est une affection neurodégénérative invalidante et incurable. Il est maintenant clairement établi que d’importants déterminants génétiques prédisposent à son apparition. La recherche génétique sur des formes familiales de la MP a mené à la découverte d’un minimum de six gènes causatifs (SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA) et certains, par exemple LRRK2, contiennent des variations génétiques qui prédisposent également aux formes sporadiques. La caractérisation des protéines codées par ces gènes a mené à une meilleure compréhension des mécanismes moléculaires sousjacents. Toutefois, en dépit de ces efforts, les causes menant à l’apparition de la MP restent inconnues pour la majorité des patients. L’objectif général des présents travaux était d’identifier des mutations prédisposant à la MP dans la population canadienne-française du Québec à partir d’une cohorte composée principalement de patients sporadiques. Le premier volet de ce projet consistait à déterminer la présence de mutations de LRRK2 dans notre cohorte en séquençant directement les exons contenant la majorité des mutations pathogéniques et en effectuant une étude d’association. Nous n’avons identifié aucune mutation et l’étude d’association s’est avérée négative, suggérant ainsi que LRRK2 n’est pas une cause significative de la MP dans la population canadienne-française. La deuxième partie du projet avait pour objectif d’identifier de nouveaux gènes causatifs en séquençant directement des gènes candidats choisis à cause de leurs implications dans différents mécanismes moléculaires sous-tendant la MP. Notre hypothèse de recherche était basée sur l’idée que la MP est principalement due à des mutations individuellement rares dans un grand nombre de gènes différents. Nous avons identifié des mutations rares dans les gènes PICK1 et MFN1. Le premier code pour une protéine impliquée dans la régulation de la transmission du glutamate tandis que le second est un des acteurs-clés du processus de fusion mitochondriale. Nos résultats, qui devront être répliqués, suggèrent que le séquençage à grande échelle pourrait être une méthode prometteuse d’élucidation des facteurs de prédisposition génétiques à la MP ; ils soulignent l’intérêt d’utiliser une population fondatrice comme les canadiens-français pour ce type d’étude et devraient permettre d’approfondir les connaissances sur la pathogénèse moléculaire de la MP. / Parkinson’s disease (PD) is a complex neurological disorder with significant genetic predisposing factors which are extremely heterogeneous. Investigations of familial forms of the disorder revealed causative mutations in six different genes, namely SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA, and functional analyses of these gene products pinpointed dysfunction of key molecular pathways involved in the neurodegenerative process of the disorder. Further sequencing and genome-wide association studies indicated that some of these genes, including LRRK2, also contain variants predisposing to sporadic forms of PD. Despite these significant breakthroughs, the vast majority of PD genetic predisposing factors remain unknown. Our goal was to identify mutations predisposing to PD in the French Canadian (FC) population from a cohort mostly composed of late-onset sporadic cases. We therefore sequenced the two exons of LRRK2 that contain most of the pathogenic mutations and we performed a case-control association study. Sequencing analysis did not reveal any reported or novel mutations and the case-control association study did not provide any positive signal, thus indicating that common variants in LRRK2 are unlikely to be a significant cause of late-onset PD in the FC population. Because of the allelic and non-allelic genetic heterogeneity observed for PD, we hypothesized that dozens of genes may carry rare pathogenic mutations. The second part of this research project was therefore aimed at identifying new PD causative genes by direct sequencing of genes functionally associated with the known causative gene pathways. Our screening uncovered several rare mutations likely pathogenic in the PICK1 and the MFN1 genes. PICK1 is involved in internalization of AMPA receptors whereas MFN1 is one of the core components of the mitochondrial fusion/fission machinery. Although these observations will need to be replicated, our findings support the previously suspected pathogenic role for glutamate excitotoxicity and imbalanced mitochondrial dynamics in Parkinson’s disease. They further emphasize the value of inbred populations in genetic studies of PD and provide new clues to the molecular pathogenesis of the disorder.

Maladie de Parkinson

Génétique

Canadiens-français

Séquençage de gènes

Candidats

Formes sporadiques

Mutations rares

LRRK2

PICK1

MFN1

Parkinson's disease

Genetics

French-Canadian

Candidate gene sequencing

Sporadic forms

Rare mutations

Recherche des facteurs génétiques à l’origine de la maladie de Parkinson dans la population canadienne-française du Québec

Rivière, Jean-Baptiste

01 1900

La maladie de Parkinson (MP) est une affection neurodégénérative invalidante et incurable. Il est maintenant clairement établi que d’importants déterminants génétiques prédisposent à son apparition. La recherche génétique sur des formes familiales de la MP a mené à la découverte d’un minimum de six gènes causatifs (SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA) et certains, par exemple LRRK2, contiennent des variations génétiques qui prédisposent également aux formes sporadiques. La caractérisation des protéines codées par ces gènes a mené à une meilleure compréhension des mécanismes moléculaires sousjacents. Toutefois, en dépit de ces efforts, les causes menant à l’apparition de la MP restent inconnues pour la majorité des patients. L’objectif général des présents travaux était d’identifier des mutations prédisposant à la MP dans la population canadienne-française du Québec à partir d’une cohorte composée principalement de patients sporadiques. Le premier volet de ce projet consistait à déterminer la présence de mutations de LRRK2 dans notre cohorte en séquençant directement les exons contenant la majorité des mutations pathogéniques et en effectuant une étude d’association. Nous n’avons identifié aucune mutation et l’étude d’association s’est avérée négative, suggérant ainsi que LRRK2 n’est pas une cause significative de la MP dans la population canadienne-française. La deuxième partie du projet avait pour objectif d’identifier de nouveaux gènes causatifs en séquençant directement des gènes candidats choisis à cause de leurs implications dans différents mécanismes moléculaires sous-tendant la MP. Notre hypothèse de recherche était basée sur l’idée que la MP est principalement due à des mutations individuellement rares dans un grand nombre de gènes différents. Nous avons identifié des mutations rares dans les gènes PICK1 et MFN1. Le premier code pour une protéine impliquée dans la régulation de la transmission du glutamate tandis que le second est un des acteurs-clés du processus de fusion mitochondriale. Nos résultats, qui devront être répliqués, suggèrent que le séquençage à grande échelle pourrait être une méthode prometteuse d’élucidation des facteurs de prédisposition génétiques à la MP ; ils soulignent l’intérêt d’utiliser une population fondatrice comme les canadiens-français pour ce type d’étude et devraient permettre d’approfondir les connaissances sur la pathogénèse moléculaire de la MP. / Parkinson’s disease (PD) is a complex neurological disorder with significant genetic predisposing factors which are extremely heterogeneous. Investigations of familial forms of the disorder revealed causative mutations in six different genes, namely SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA, and functional analyses of these gene products pinpointed dysfunction of key molecular pathways involved in the neurodegenerative process of the disorder. Further sequencing and genome-wide association studies indicated that some of these genes, including LRRK2, also contain variants predisposing to sporadic forms of PD. Despite these significant breakthroughs, the vast majority of PD genetic predisposing factors remain unknown. Our goal was to identify mutations predisposing to PD in the French Canadian (FC) population from a cohort mostly composed of late-onset sporadic cases. We therefore sequenced the two exons of LRRK2 that contain most of the pathogenic mutations and we performed a case-control association study. Sequencing analysis did not reveal any reported or novel mutations and the case-control association study did not provide any positive signal, thus indicating that common variants in LRRK2 are unlikely to be a significant cause of late-onset PD in the FC population. Because of the allelic and non-allelic genetic heterogeneity observed for PD, we hypothesized that dozens of genes may carry rare pathogenic mutations. The second part of this research project was therefore aimed at identifying new PD causative genes by direct sequencing of genes functionally associated with the known causative gene pathways. Our screening uncovered several rare mutations likely pathogenic in the PICK1 and the MFN1 genes. PICK1 is involved in internalization of AMPA receptors whereas MFN1 is one of the core components of the mitochondrial fusion/fission machinery. Although these observations will need to be replicated, our findings support the previously suspected pathogenic role for glutamate excitotoxicity and imbalanced mitochondrial dynamics in Parkinson’s disease. They further emphasize the value of inbred populations in genetic studies of PD and provide new clues to the molecular pathogenesis of the disorder.

Maladie de Parkinson

Génétique

Canadiens-français

Séquençage de gènes

Candidats

Formes sporadiques

Mutations rares

LRRK2

PICK1

MFN1

Parkinson's disease

Genetics

French-Canadian

Candidate gene sequencing

Sporadic forms

Rare mutations

CHARACTERIZATION OF DIAGNOSTIC BIOSIGNATURES FOR PARKINSON’S DISEASE AND RENAL CELL CARCINOMA THROUGH QUANTITATIVE PROTEOMICS AND PHOSPHOPROTEOMICS ANALYSES OF URINARY EXTRACELLULAR VESICLES

Marco Hadisurya (16548114)

26 July 2023

<p>Urine-based biomarkers offer numerous advantages for clinical analysis, including non-invasive collection, a suitable sample source for longitudinal disease monitoring, a better screenshot of disease heterogeneity, higher sample volumes, faster processing times, and lower rejection rates and costs. They will be extremely useful in a clinical trial context, which can be applied alone or in combination with other methods as long as they demonstrate clear reproducibility across cohorts. While biofluids such as urine present enormous challenges with a wide dynamic range and extreme complex typically dominated by a few highly abundant proteins, we have demonstrated that the analytical issue can be efficiently addressed by focusing on extracellular vesicles (EVs), tiny packages released by all kinds of cells. These tiny packages contain different kinds of molecules from inside the cells. Here, we established a robust EV isolation and characterization platform to screen and validate Parkinson’s Disease (PD) and Renal Cell Carcinoma (RCC) biomarkers from urine. PD is a progressive neurological disorder affecting body movement because some brain cells stop producing dopamine. PD is often not diagnosed until it has advanced, making early detection crucial. We investigated urinary EVs from 138 individuals to enable early detection and found several proteins involved in PD development that could be biological indicators for early disease detection. Several biochemical techniques were applied to verify our findings. In the second project, we attempted to develop a novel diagnostic technique for early intervention of RCC. Here, we made our efforts to develop a quantitative method based on data-independent acquisition (DIA) mass spectrometry to analyze urinary EV phosphoproteomics for non-invasive RCC biomarker screening. Combined with our in-house EVtrap method for EV isolation and PolyMAC enrichment of phosphopeptides, we quantified 2,584 unique phosphosites. We observed unique upregulated phosphosites and pathways differentiating healthy control (HC), chronic kidney disease (CKD), low-grade, and high-grade clear cell RCC. These applications have a significant promise for early PD and RCC diagnosis and monitoring based on actual functional proteins with urine as the source. These studies might provide a viable path to developing urinary EV-based disease diagnosis.</p>

Analytical biochemistry

Analytical spectrometry

Mass spectrometry

Extracellular vesicles

Exosomes

Urine

Proteomics

Phosphoproteomics

Biomarker discovery

Biosignatures

Machine learning

Parkinson's disease

LRRK2

Kidney cancer

Renal cell carcinoma

RCC

Chronic kidney disease

CKD

Data-independent acquisition

DIA

Gas-phase fractionation

GPF

GPF DIA

EVtrap

PolyMAC