Abstract

Congenital ataxia presents in early childhood with non-progressive hypotonia, gross and fine motor delay and cognitive delays. These disorders are distinct from the progressive ataxias because of the presence of congenital cerebellar malformations and because they are typically inherited recessively. Joubert Syndrome and Related Disorders (JSRD) constitutes a subset of these conditions, consisting of a cerebellar midline (vermis) malformation, a nearly pathognomonic Molar Tooth sign on brain Imaging (MTI) and co-existent oculomotor apraxia and episodic breathing dysrhythmias. JSRD was thought to be monogenic until recently when clear evidence of both phenotypic and genotypic heterogeneity was demonstrated. Very little is known about the genetic causes of these midbrain/hindbrain malformations in humans, which has hindered proper diagnosis, prognosis, prenatal counseling and treatment. We have identified families mapping to 9q34.3 (MTI 1) with classical Joubert syndrome, and have genetically mapped a second locus associated with a form of JS displaying cerebellar, ocular and renal involvement (CORS) to chromosome 11 (MTI2). Furthermore, we have identified other families not linked to either locus, demonstrating further genetic heterogeneity. We plan to identify and characterize the genes and mutations responsible for JSRD. Families in whom the disorder is not linked to MTI1 or MTI2 will be studied using a general genetic linkage approach to identify additional MTI loci. We will perform mutation analysis on candidate genes linked to the MTI loci. A variety of positional cloning strategies will be utilized if candidate gene analysis is unsuccessful. Identification of JSRD genes coupled with extensive clinical data will allow us to characterize the spectrum of phenotypes caused by mutations in single genes and to compare phenotypes of patients with mutations at different loci. Of particular interest will be whether there is a correlation between specific genes and mutations with presence of autism, found to be present in a large proportion of JSRD patients. Molecular characterization of the JSRDs will lead to a new genetic classification and a better understanding of these disorders. Characterization of the pathogenic mechanisms underlying the JBRDs will lead to improved diagnosis, and will shed light on the genetics of human cerebellar development as well as more complex disorders including generalized ataxia and autism.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS048453-05
Application #
7394324
Study Section
Special Emphasis Panel (ZRG1-DBD (01))
Program Officer
Riddle, Robert D
Project Start
2004-07-01
Project End
2009-02-28
Budget Start
2008-03-01
Budget End
2009-02-28
Support Year
5
Fiscal Year
2008
Total Cost
$271,224
Indirect Cost

  Institution

Name
University of California San Diego
Department
Neurosciences
Type
Schools of Medicine
DUNS #
804355790
City
La Jolla
State
CA
Country
United States
Zip Code
92093

  Publications

Marin-Valencia, Isaac; Novarino, Gaia; Johansen, Anide et al. (2018) A homozygous founder mutation in TRAPPC6B associates with a neurodevelopmental disorder characterised by microcephaly, epilepsy and autistic features. J Med Genet 55:48-54
Ghosh, Shereen G; Becker, Kerstin; Huang, He et al. (2018) Biallelic Mutations in ADPRHL2, Encoding ADP-Ribosylhydrolase 3, Lead to a Degenerative Pediatric Stress-Induced Epileptic Ataxia Syndrome. Am J Hum Genet 103:431-439
Shashi, Vandana; Magiera, Maria M; Klein, Dennis et al. (2018) Loss of tubulin deglutamylase CCP1 causes infantile-onset neurodegeneration. EMBO J 37:
Breuss, Martin W; Nguyen, An; Song, Qiong et al. (2018) Mutations in LNPK, Encoding the Endoplasmic Reticulum Junction Stabilizer Lunapark, Cause a Recessive Neurodevelopmental Syndrome. Am J Hum Genet 103:296-304
Schaffer, Ashleigh E; Breuss, Martin W; Caglayan, Ahmet Okay et al. (2018) Biallelic loss of human CTNNA2, encoding ?N-catenin, leads to ARP2/3 complex overactivity and disordered cortical neuronal migration. Nat Genet 50:1093-1101
De Mori, Roberta; Romani, Marta; D'Arrigo, Stefano et al. (2017) Hypomorphic Recessive Variants in SUFU Impair the Sonic Hedgehog Pathway and Cause Joubert Syndrome with Cranio-facial and Skeletal Defects. Am J Hum Genet 101:552-563
Nguyen, Thi Tuyet Mai; Murakami, Yoshiko; Sheridan, Eamonn et al. (2017) Mutations in GPAA1, Encoding a GPI Transamidase Complex Protein, Cause Developmental Delay, Epilepsy, Cerebellar Atrophy, and Osteopenia. Am J Hum Genet 101:856-865
Marin-Valencia, Isaac; Gerondopoulos, Andreas; Zaki, Maha S et al. (2017) Homozygous Mutations in TBC1D23 Lead to a Non-degenerative Form of Pontocerebellar Hypoplasia. Am J Hum Genet 101:441-450
Friedman, Jennifer; Feigenbaum, Annette; Chuang, Nathaniel et al. (2017) Pyruvate dehydrogenase complex-E2 deficiency causes paroxysmal exercise-induced dyskinesia. Neurology 89:2297-2298
Lardelli, Rea M; Schaffer, Ashleigh E; Eggens, Veerle R C et al. (2017) Biallelic mutations in the 3' exonuclease TOE1 cause pontocerebellar hypoplasia and uncover a role in snRNA processing. Nat Genet 49:457-464

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