Human neuronal LUHMES cell line as a model system for studying Rett syndrome

Shah, Ruth Rama

January 2018

Rett syndrome (RTT) is a severe neurological disorder that affects approximately 1:10000 girls. Classical RTT is defined by a developmental regression phase and subsequent stabilisation of diagnostic criteria, which include partial or complete loss of spoken language, dyspraxic gait and stereotypic hand movements such as hand mouthing. RTT is a monogenic disorder, with the majority of cases being due to loss-of-function mutations in MeCP2 (methyl-CpG binding protein 2). Due to this clear genotype-phenotype link multiple RTT mouse models have been used to elucidate the molecular details, and consequent neuropathogenesis, of this complex neurological disease, as well as for the development of potential therapeutics for RTT. However, as the molecular details become clearer, the need for a simpler model system becomes evident. Human induced pluripotent stem cells (hiPSCs) generated from RTT patient fibroblasts are an option; however the handling of these cells is laborious, time-consuming and expensive and they often differentiate into a heterogeneous population of cells. To explore an alternative human model system I have been genetically engineering and experimenting with the human dopaminergic LUHMES cell line. LUHMES cells are an immortalised pre-neuronal cell line derived from an 8-week old, female foetus and can readily be differentiated into a homogeneous population of mature, electrically active neurons in just one week. In this thesis I have assessed the phenotypic properties of the wild-type cell line, demonstrated the ease of genetic manipulation of LUHMES cells by CRISPR/Cas9 approaches, generated seven mutant MECP2 LUHMES cell lines and explored the potential of protein therapy as a therapeutic approach for RTT. The LUHMES cell line proves to be extremely easy to handle and robust and has yielded novel molecular insights into the function of MeCP2 in human neurons. In particular, MeCP2-null cells show a striking relationship between the level of gene body methylation and the extent of transcriptional upregulation when compared to wild-type neurons. In contrast neurons that express a form of MeCP2 that can bind to DNA but cannot recruit a transcriptional corepressor complex (the R306C mutant) do not exhibit substantial gene expression alterations, yet do display a consistent decrease in total RNA amount. This decrease in total RNA is recapitulated in MeCP2-null LUHMES-derived neurons and in brain regions from MeCP2-R306C mice. The requirement for functional DNA binding for normal gene-body methylation dependent gene repression is demonstrated by assessing LUHMES cells that overexpress MeCP2-R111G, a protein that cannot bind to DNA. Furthermore, overexpression of the MeCP2-R306C protein highlights the importance of NCoR binding for normal gene repression, but also demonstrates that MeCP2-R306C protein retains some gene repression activity. Thinking more broadly, this cell line also has applications as a model system for a variety of other neurological disorders; as a simplified model system to elucidate molecular and neurological phenotypes, and as a relevant human system that can be cultured in a high-throughput manner for testing therapeutic strategies.

Interactions glutamatergiques à la jonction neuromusculaire d'amphibien

Lévesque, Sébastien

January 2001

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Synapse

Glie

Cellule de Schwann périsynaptique

Électrophysiologie

Transporteur glutamatergique

GLAST

Calcium

Imagerie calcique

MCPG

Novel Analogs of m-Chlorophenylguanidine as 5-HT3 Receptor Ligands

Alix, Katie

01 May 2009

Serotonin receptors play a variety of functional roles in the body. Some indications and treatment claims for one of the classes of serotonin receptors, the 5-HT3 receptor family, include: anxiety, depression, chemotherapy- and radiation-induced emesis, constipation, irritable bowel syndrome, pain, drug addiction, and satiety control. A 5-HT3 receptor partial agonist, MD-354, served as a lead compound in the development of new 5-HT3 receptor ligands. Using halogenated analogs the study investigated their effect on binding to the 5-HT3 receptor. Conformationally-constrained analogs (quinazolines) were shown to be a novel class of 5-HT3 receptor antagonists. The log P values were determined for several analogs, and indicated that these ligands should be able to penetrate the blood-brain barrier. A homology model of the 5-HT3 receptor was built and the docking modes were assessed for these two series. Quinazolines were investigated for antidepressant properties using the mouse tail suspension test, and were shown to possess antidepressant-like activity.

MD-354

mCPG

tail suspension test

5-HT3

antidepressant

depression

meta-chlorophenylguanidine

m-chlorophenylguanidine

Chemicals and Drugs

Medicine and Health Sciences

Identification des mécanismes périphériques impliqués dans la douleur chronique expérimentale des muscles de la mastication

Ferreira, Renato Alves

12 1900

L’objectif premier de notre projet était d’établir un modèle animal de douleur chronique orofaciale, lequel pourrait imiter la sensibilité retrouvée chez les patients souffrant de douleur orofaciale myalgique. Nous avons procédé à des injections intramusculaires de saline acide (2 injections à 2 jours d’intervalle pH 4.0) pour induire une sensibilisation mécanique des mucles massétérins. La réponse nocifensive a été mesurée à l’aide de filaments de von Frey avant et après ces injections dans des rats Sprague-Dawley. Par la suite, le potentiel analgésique de différents antagonistes des récepteurs glutamatergiques fût évalué par l’injection intramusculaire de ces antagonistes à différents moments. Nos résultats suggèrent que deux injections de saline acide, produisent une hypersensibilité mécanique signalée par l’augmentation du nombre de réponses à l’application de filaments de von Frey. Cet effet dure plusieurs semaines et est bilatéral, même lorsque les injections sont unilatérales, indiquant qu’une composante centrale est forcément impliquée. Toutefois, une composante périphérique impliquant les récepteurs glutamatergiques semble présider le tout puisque les antagonistes glutamatergiques, appliqués de façon préventive empêchent le développement de l’hypersensibilité. Cependant, le maintien de cette hypersensibilité doit dépendre de mécanismes centraux puisque l’application d’antagonistes une fois la sensibilisation induite, ne diminue en rien le nombre de réponses obtenues. Ce modèle semble approprié pour reproduire une hypersensibilité musculaire durable de bas niveau. Nos données indiquent que les récepteurs glutamatergiques périphériques participent à l’induction de cette hypersensibilité de longue durée. Nous croyons que ce modèle pourra éventuellement contribuer à une meilleure compréhension des mécanismes à l’origine des myalgies faciales persistantes. / The first objective of this project was to establish an animal model of chronic orofacial pain, which could mimic symptoms of patients suffering from orofacial myalgia. We used acidic saline injections (2 injections, 2 days apart at pH 4.0) in masseteric muscles to induce mechanical hypersensitivity. Nocifensive behavior was measured before and after the injections using von Frey filaments in male Sprague Dawley rats. Later, the potential analgesic effect of glutamate receptors antagonists was measured by intramuscular administration of these antagonists at different times. Our results suggest that two injections of acidic saline produce a mechanical hypersensitivity as reflected by the increased number of responses to applications of von Frey filaments. This effect lasts several weeks and is bilateral, even when the injections are unilateral, indicating that a central component must be involved. However, the initial stage of induction of this hypersensitivity involves peripheral glutamate receptors since injection of their antagonists before the second acidic saline injection prevents development of the nocifensive response, whereas their injection at later times is ineffective in blocking development of the response. This model based on a double injection of acidic saline seems appropriate to reproduce low intensity, long-lasting muscle pain. Our data suggests that peripheral glutamate receptors are involved in the induction of this long-term hypersensitivity. We believe that this model may contribute to a better understanding of the mechanisms behind persistent orofacial muscle pain.

Récepteurs glutamatergiques

Fuseau neuromusculaire

saline acide

Afférences de gros calibre

Nociception

Douleur

Glutamate receptors

Muscle spindle

Acidic saline

APV

DNQX

MCPG

MPEP

Large caliber afferents

Nociception

Pain

Identification des mécanismes périphériques impliqués dans la douleur chronique expérimentale des muscles de la mastication

Ferreira, Renato Alves

12 1900

L’objectif premier de notre projet était d’établir un modèle animal de douleur chronique orofaciale, lequel pourrait imiter la sensibilité retrouvée chez les patients souffrant de douleur orofaciale myalgique. Nous avons procédé à des injections intramusculaires de saline acide (2 injections à 2 jours d’intervalle pH 4.0) pour induire une sensibilisation mécanique des mucles massétérins. La réponse nocifensive a été mesurée à l’aide de filaments de von Frey avant et après ces injections dans des rats Sprague-Dawley. Par la suite, le potentiel analgésique de différents antagonistes des récepteurs glutamatergiques fût évalué par l’injection intramusculaire de ces antagonistes à différents moments. Nos résultats suggèrent que deux injections de saline acide, produisent une hypersensibilité mécanique signalée par l’augmentation du nombre de réponses à l’application de filaments de von Frey. Cet effet dure plusieurs semaines et est bilatéral, même lorsque les injections sont unilatérales, indiquant qu’une composante centrale est forcément impliquée. Toutefois, une composante périphérique impliquant les récepteurs glutamatergiques semble présider le tout puisque les antagonistes glutamatergiques, appliqués de façon préventive empêchent le développement de l’hypersensibilité. Cependant, le maintien de cette hypersensibilité doit dépendre de mécanismes centraux puisque l’application d’antagonistes une fois la sensibilisation induite, ne diminue en rien le nombre de réponses obtenues. Ce modèle semble approprié pour reproduire une hypersensibilité musculaire durable de bas niveau. Nos données indiquent que les récepteurs glutamatergiques périphériques participent à l’induction de cette hypersensibilité de longue durée. Nous croyons que ce modèle pourra éventuellement contribuer à une meilleure compréhension des mécanismes à l’origine des myalgies faciales persistantes. / The first objective of this project was to establish an animal model of chronic orofacial pain, which could mimic symptoms of patients suffering from orofacial myalgia. We used acidic saline injections (2 injections, 2 days apart at pH 4.0) in masseteric muscles to induce mechanical hypersensitivity. Nocifensive behavior was measured before and after the injections using von Frey filaments in male Sprague Dawley rats. Later, the potential analgesic effect of glutamate receptors antagonists was measured by intramuscular administration of these antagonists at different times. Our results suggest that two injections of acidic saline produce a mechanical hypersensitivity as reflected by the increased number of responses to applications of von Frey filaments. This effect lasts several weeks and is bilateral, even when the injections are unilateral, indicating that a central component must be involved. However, the initial stage of induction of this hypersensitivity involves peripheral glutamate receptors since injection of their antagonists before the second acidic saline injection prevents development of the nocifensive response, whereas their injection at later times is ineffective in blocking development of the response. This model based on a double injection of acidic saline seems appropriate to reproduce low intensity, long-lasting muscle pain. Our data suggests that peripheral glutamate receptors are involved in the induction of this long-term hypersensitivity. We believe that this model may contribute to a better understanding of the mechanisms behind persistent orofacial muscle pain.

Récepteurs glutamatergiques

Fuseau neuromusculaire

saline acide

Afférences de gros calibre

Nociception

Douleur

Glutamate receptors

Muscle spindle

Acidic saline

APV

DNQX

MCPG

MPEP

Large caliber afferents

Nociception

Pain