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Cilia Proteins Control Cerebellar Morphogenesis by Promoting Expansion of the Granule Progenitor PoolChizhikov, Victor V., Davenport, James, Zhang, Qihong, Shih, Evelyn Kim, Cabello, Olga A., Fuchs, Jannon L., Yoder, Bradley K., Millen, Kathleen J. 05 September 2007 (has links)
Although human congenital cerebellar malformations are common, their molecular and developmental basis is still poorly understood. Recently, cilia-related gene deficiencies have been implicated in several congenital disorders that exhibit cerebellar abnormalities such as Joubert syndrome, Meckel-Gruber syndrome, Bardet-Biedl syndrome, and Orofaciodigital syndrome. The association of cilia gene mutations with these syndromes suggests that cilia may be important for cerebellar development, but the nature of cilia involvement has not been elucidated. To assess the importance of cilia-related proteins during cerebellar development, we studied the effects of CNS-specific inactivation of two mouse genes whose protein products are critical for cilia formation and maintenance, IFT88, (also known as polaris or Tg737), which encodes intraflagellar transport 88 homolog, and Kif3a, which encodes kinesin family member 3a. We showed that loss of either of these genes caused severe cerebellar hypoplasia and foliation abnormalities, primarily attributable to a failure of expansion of the neonatal granule cell progenitor population. In addition, granule cell progenitor proliferation was sensitive to partial loss of IFT function in a hypomorphic mutant of IFT88 (IFT88orpk), an effect that was modified by genetic background. IFT88 and Kif3a were not required for the specification and differentiation of most other cerebellar cell types, including Purkinje cells. Together, our observations constitute the first demonstration that cilia proteins are essential for normal cerebellar development and suggest that granule cell proliferation defects may be central to the cerebellar pathology in human cilia-related disorders.
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Hipoterapie jako podpůrná metoda léčby u dětí s Joubertovým a jiným hypotonickým syndromem / Hippotherapy as a supportive method of treatment in children with Joubert's and other hypotonic syndromeMartínková, Dominika January 2020 (has links)
1 Abstract The subject of this thesis is hippotherapy as a supportive treatment method in children with Joubert syndrome and other hypotonic syndromes. In theoretical part is described Joubert syndrome in connection with education of students with special needs including legislation. In response to education of a child with disability there is further described therapy and basic therapeutic approaches that are often used concurrently with hippotherapy. Next part of thesis is focused on Joubert syndrome in terms of origin, causes, symptoms and diagnosis of the disease. With regards to research investigation in empiric part of the thesis there are further described specific educational approaches of individual with Joubert syndrome and other hypotonic syndromes. Theoretical part also comprises closer characteristics of hippotherapy as a possible supportive treatment method in terms of legislation, healthcare and social aspects. In empiric part there were used several methods of data collection within the qualitative research, these were analysis of studied literature, involved observation, case study, document analysis, narrative dialog with parent, discussion with hippotherapist and questionnaire submitted to parents of children attending hippotherapy. Key words: hippotherapy, Joubert syndrome, hypotonia,...
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Genetic Landscape of Joubert syndrome in French CanadiansSrour, Myriam 06 1900 (has links)
Le syndrome de Joubert est une maladie récessive caractérisée par une malformation congénitale distincte du tronc cérébral et du cervelet, associée à une anomalie des mouvements oculaires (apraxie oculomotrice), une respiration irrégulière, un retard de développement, et une ataxie à la démarche. Au cours de la dernière décennie, plus de 20 gènes responsables ont été identifiés, tous ayant un rôle important dans la structure et la fonction des cils primaires. Ainsi, le syndrome de Joubert est considéré une ciliopathie. Bien que le Syndrome de Joubert ait été décrit pour la première fois dans une famille canadienne-française en 1969, le(s) gène(s) causal demeurait inconnu dans presque tous les cas de syndrome de Joubert recensés en 2010 dans la population canadienne-française, soit début de mon projet doctoral.
Nous avons identifié un total de 43 individus canadiens-français (35 familles) atteints du syndrome de Joubert. Il y avait un regroupement de familles dans la région du Bas-Saint-Laurent de la province de Québec, suggérant la présence d'un effet fondateur. L’objectif de ce projet était de caractériser la génétique du syndrome de Joubert dans la population canadienne-française. Notre hypothèse était qu’il existait un effet fondateur impliquant au moins un nouveau gène JBTS.
Ainsi, dans un premier temps, nous avons utilisé une approche de cartographie par homozygotie. Cependant, nous n’avons pas identifié de région d’homozygotie partagée parmi les individus atteints, suggérant la présence d’une hétérogénéité génétique ou allélique. Nous avons donc utilisé le séquençage exomique chez nos patients, ce qui représente une approche plus puissante pour l’étude de conditions génétiquement hétérogènes.
Nos travaux ont permis l’identification de deux nouveaux gènes responsables du syndrome de Joubert: C5orf42 et TMEM231. Bien que la localisation cellulaire et la fonction de C5orf42 soient inconnus au moment de cette découverte, nos résultats génétiques combinés avec des études ultérieures ont établi un rôle important de C5orf42 dans la structure et la fonction ciliaire, en particulier dans la zone de transition, qui est une zone de transition entre le cil et le reste de la cellule. TMEM231 avait déjà un rôle établi dans la zone de transition ciliaire et son interaction avec d’autres protéines impliquées dans le syndrome de Joubert était connu. Nos études ont également identifié des variants rares délétères chez un patient JBTS dans le gène ciliaire CEP104. Nous proposons donc CEP104 comme un gène candidat JBTS. Nous avons identifié des mutations causales dans 10 gènes, y compris des mutations dans CC2D2A dans 9 familles et NPHP1 dans 3 familles. Au total, nous avons identifié les mutations causales définitives chez 32 des 35 familles étudiées (91% des cas). Nous avons documenté un effet fondateur complexe dans la population canadienne-française avec de multiples mutations récurrentes dans quatre gènes différents (C5orf42, CC2D2A, TMEM231, NPHP1).
Au début de ce projet de recherche, l’étiologie génétique était inconnue chez les 35 familles touchées du syndrome de Joubert. Maintenant, un diagnostique moléculaire définitif est identifié chez 32 familles, et probable chez les 3 autres. Nos travaux ont abouti à la caractérisation génétique du syndrome de Joubert dans la population canadienne-française grâce au séquençage exomique, et révèlent la présence d'un effet fondateur complexe avec une l'hétérogénéité allélique et intralocus importante. Ces découvertes ont éclairé la physiologie de cette maladie. Finalement, l’identification des gènes responsables ouvre de nouvelles perspectives diagnostiques ante-natales, et de conseils génétique, très précieuses pour les familles. / Joubert syndrome (JBTS) is a primarily autosomal recessive disorder characterized by a distinctive mid-hindbrain/cerebellum malformation, eye movement abnormalities (oculomotor apraxia), irregular breathing, developmental delay, and ataxia. Over the past decade, over 20 causal genes have been identified, all of which have an important role in the structure and function of the primary cilia. Thus, JBTS joins an expanding category of diseases termed “ciliopathies”. Though JBTS was first described in affected siblings of a French Canadian (FC) family in 1969, the underlying genesis basis of the disorder was unknown in the overwhelming majority of FC cases at the onset of this doctoral project in 2010.
We identified a total of 43 FC individuals with JBTS from 35 families. We observed a clustering of the affected families in the Lower Saint-Lawrence region of the province of Quebec, suggesting the presence of a founder effect. The aim of this doctoral project was to characterize the genetic landscape of JBTS in the FC population, and we hypothesized the presence of a founder effect in novel JBTS gene(s). Therefore, we initially used a homozygosity mapping approach. However, we did not identify any shared regions of homozygosity amongst affected individuals, suggesting the presence of genetic and/or allelic heterogeneity. We therefore primarily used a whole exome sequencing approach in our JBTS patients, a strategy that is better suited for the study of genetically heterogeneous conditions.
Our work has resulted in the identification of two novel JBTS genes: C5orf42 and TMEM231. In total, we have identified causal mutations in C5orf42 in 14 families (including the original JBTS family described in 1969), and TMEM231 in 2 families. Though the function and cellular localization of C5orf42 was not known at the time of the publication of our manuscript, our genetic findings combined with subsequent animal and cellular work establish the important role of C5orf42 in ciliary structure and function, particularly at the ciliary transition zone. TMEM231 had been previously shown to localize to the ciliary transition zone and interact with several JBTS gene products. We also identified deleterious rare variants in one JBTS patient in the ciliary gene CEP104, implicating CEP104 as a strong candidate JBTS gene. We identified causal mutations in 10 JBTS genes, including CC2D2A in 9 families and NPHP1 in 3 families. Definite causal mutations were identified in 32 of 35 families (91% of cases). We documented a complex founder effect in the FC population with multiple recurrent mutations in 4 different genes (C5orf42, CC2D2A, TMEM231, NPHP1).
Prior to the start of this research endeavor, the underlying genetic etiology of Joubert syndrome was unknown in all 35 families. Now, a definite molecular diagnosis has been identified in 32 families, and a probable molecular diagnosis in the remaining 3. Therefore, our work has resulted in the unraveling of the genetic basis of JBTS in the French-Canadian population using WES, and reveals the presence of a complex founder effect with substantial locus and allelic heterogeneity.
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