The Neurogenetic Research Group was established in 2004 to develop laboratory-based molecular neuroscience research within the Murdoch Children's Research Institute and enhance the established clinical and public health research activities of the Bruce Lefroy Centre. A major focus of the group’s research is gene discovery and functional characterisation of proteins contributing to neurodevelopmental and neurogenetic disorders including autism, brain malformations, Parkinson's disease and ataxia.
The team uses powerful modern genomic technologies, including high density SNP arrays and massively parallel sequencing, to identify changes in genes that cause disease. The characterisation of the disease-causing genes involves analysing cells and animal models to understand the molecular mechanism underlying the condition. Identification of disease-causing genes is beneficial to both the affected individual and their family. A genetic diagnosis helps improve clinical outcomes and genetic counselling, the potential for pre-implantation genetic diagnosis and potentially targeted treatments or therapeutics. The group’s studies aim to understand mechanisms underlying disease and are an essential prerequisite for the development of treatment programs as well as prevention or onset-delay strategies for brain and mind disorders.
Accelerated Gene Identification Program (AGIP)
The aim of this program is to use modern genetic technologies to identify and subsequently characterise disease-causing genes for genetic disorders. The experimental design involves a co-ordinated clinical/research pipeline, whereby individuals and families with genetic disorders are identified and characterised by units including the Brain Malformations Clinic at the Royal Children’s Hospital and Victorian Clinical Genetics Service at the MCRI. Modern genomic and bioinformatic technologies are used to identify the disease-causing gene. Subsequent experimental studies use a combination of molecular and biochemical characterisation of cell and animal models to investigate and understand the cause of the disorder. Recent successes include the identification of novel genes responsible for Borrone Syndrome, short rib polydactyly, cardiomyopathy and Parkinson’s disease.
Understanding the role of Parkin and PACRG in Parkinson’s disease
Parkinson’s disease (PD) is a significant burden to Australia and the developed world. The most common cause of early onset disease (before 50 years of age) is mutation in the parkin gene. The team previously showed a second gene called Parkin co-regulated gene (PACRG) is linked to parkin. The preliminary data suggests there is functional significance to this genomic arrangement. This project aims to generate novel mouse models dysregulated for Parkin and Pacrg and use these to investigate the functional relationship of the bidirectional Parkin-PACRG locus. We believe that understanding the regulation of these genes will enable a better understanding of what causes Parkinson’s disease.
Molecular studies of Friedrich ataxia
Friedreich ataxia (FRDA) is the most common inherited ataxia and usually begins in childhood. It causes progressive damage to the nervous system and wide-ranging symptoms, including unsteadiness, ultimately resulting in affected individuals requiring a wheelchair. In most individuals, FRDA also affects the heart, with increased thickness of the heart wall (cardiomyopathy) and a propensity to irregular heart rhythms, called arrhythmia. In FRDA, the altered gene is called FXN and this instructs cells to make the frataxin protein. A DNA expansion in FXN results in lower levels of frataxin protein in people with FRDA compared to unaffected individuals.
The overall goal of our research is to develop safe, efficient therapies and biomarkers for FRDA and other neurological diseases. Our ongoing projects are outlined here.
Cilia and human disease
Cilia are evolutionarily-conserved microtubule-based hair-like organelles that perform remarkably diverse cellular functions. A large and increasing number of genetic diseases are associated with defects in cilia, however, there is still limited understanding of the basic mechanisms, proteins and pathways regulating their formation, structure and function. The team has previously shown loss of the Parkin co-regulated gene (PACRG) in mice results in both hydrocephalus and infertility. Similarly, variation in the human gene is associated with human male infertility. This project uses cell and animal models to investigate the basic biology and function of PACRG in cilia and determine the role of PACRG-mediated cilial dysfunction in human disease.
Immunofluorescent studies detecting a ciliary marker (red) and PACRG (green) demonstrate a high degree of co-localisation (yellow) indicating that PACRG is a component of (A) the cilia specialised ependymal cells within the brain; (B) the cilia of the cells lining the trachea and (C) the tail of sperm.
Clinical and Molecular Genetic Study of Autism Spectrum Disorders
The Autism Spectrum Disorders (ASD) are a group of neuro-developmental disorders defined by impairment in language and social interaction. The disorders affect approximately one in 100 individuals. The researchers in this project are aiming to identify novel genes that contribute to ASD. They perform clinical phenotyping of large families with multiple affected members to identify families suitable for linkage analysis and gene discovery. Subsequent studies will investigate the role of identified genes in cohorts of patients with sporadic ASD and also study the gene function and pathogenic mechanisms using cell and animal models.
Determining the genetic control of Corpus Callosum development
Malformations of brain development (MBD) are a group of congenital brain abnormalities which are a significant cause of neurocognitive disabilities and neurological disorders. The routine use of imaging in both prenatal screening and the assessment of children with neurodevelopmental abnormalities have revealed that MBD are a frequent cause of disability in the paediatric population. As the awareness of MBD has increased so has research into the underlying pathogenic mechanisms and with this the recognition of the critical role genetics plays in regulating brain development. However, despite substantial progress made during the past decade, the majority of genes underlying human MBD remain unknown.
This project focuses on agenesis (partial or complete developmental absence) of the corpus callosum (ACC), a disorder that affects approximately one in 4,500 children in the general population and three to five per cent of individuals assessed for a neurodevelopmental disorder. The corpus callosum is composed of approximately 200 million axons connecting the left and right sides of the brain. The CC functions by transferring and integrating information between the two halves of the brain. ACC is a genetically complex, congenital disorder associated with intellectual disability and neurological deficits such as developmental delay and seizures. The project aims to identify and characterise genes underlying ACC using modern genomic technologies and cell and animal models. Completion of this project will reveal fundamental mechanisms regulating CC development and function and will provide insights into normal brain development.
Sagittal T2-weighted brain MRI scans. A) A newborn with an intact corpus callosum. B) A child with complete loss of the corpus callosum.
- Acute effects of active breaks during prolonged sitting on subcutaneous adipose tissue gene expression: an ancillary analysis of a randomised controlled trial. 2019
- Cerebral hypomyelination associated with biallelic variants of FIG4. 2019
- Do schizotypy dimensions reflect the symptoms of schizophrenia? 2019
- Generation of iPSC lines from peripheral blood mononuclear cells from 5 healthy adults. 2019
- The effects of a muscarinic receptor 1 gene variant on executive and non-executive cognition in schizophrenia spectrum disorders. 2019
- ADGRV1 is implicated in myoclonic epilepsy. 2018
- An intronic mutation in Chd7 creates a cryptic splice site, causing aberrant splicing in a mouse model of CHARGE syndrome. 2018
- Cross-sectional epidemiology of hearing loss in Australian children aged 11-12 years old and 25-year secular trends. 2018
- CUGC for pontocerebellar hypoplasia type 9 and spastic paraplegia-63. 2018
- DCC Is Required for the Development of Nociceptive Topognosis in Mice and Humans. 2018
- DCC mutation update: Congenital mirror movements, isolated agenesis of the corpus callosum, and developmental split brain syndrome. 2018
- DEPDC5 and NPRL3 modulate cell size, filopodial outgrowth, and localization of mTOR in neural progenitor cells and neurons. 2018
- Do schizotypy dimensions reflect the symptoms of schizophrenia? 2018
- Functional analysis of a hypomorphic allele shows that MMP14 catalytic activity is the prime determinant of the Winchester syndrome phenotype. 2018
- Generation and characterisation of a parkin-Pacrg knockout mouse line and a Pacrg knockout mouse line. 2018
- Generation of RAB39B knockout isogenic human embryonic stem cell lines to model RAB39B-mediated Parkinson's disease. 2018
- Human sex reversal is caused by duplication or deletion of core enhancers upstream of SOX9. 2018
- Polymyxin B causes DNA damage in HK-2 cells and mice. 2018
- Recent advances in the detection of repeat expansions with short-read next-generation sequencing. 2018
- Somatic GNAQ mutation in the forme fruste of Sturge-Weber syndrome. 2018
- Teaching NeuroImages: Imaging features of DCC-mediated mirror movements and isolated agenesis of the corpus callosum. 2018
- The early in-vivo effects of a single anti-emetic dose of dexamethasone on innate immune cell gene expression and activation in healthy volunteers. 2018
- Working Memory and Attention Influence Antisaccade Error Rate in Schizophrenia. 2018
- A novel AMPD2 mutation outside the AMP deaminase domain causes pontocerebellar hypoplasia type 9. 2017
- A protocol for whole-exome sequencing in newborns with congenital deafness: a prospective population-based cohort. 2017
- Diagnostic and cost utility of whole exome sequencing in peripheral neuropathy. 2017
- Epigenetic interplay at the β-globin locus. 2017
- MCM3AP in recessive Charcot-Marie-Tooth neuropathy and mild intellectual disability. 2017
- Mutations in DCC cause isolated agenesis of the corpus callosum with incomplete penetrance. 2017
- Neuropathology of childhood-onset basal ganglia degeneration caused by mutation ofVAC14. 2017
- Targeted sequencing identifies 91 neurodevelopmental-disorder risk genes with autism and developmental-disability biases. 2017
- TRAK2, a novel regulator of ABCA1 expression, cholesterol efflux and HDL biogenesis. 2017
- ALPK3-deficient cardiomyocytes generated from patient-derived induced pluripotent stem cells and mutant human embryonic stem cells display abnormal calcium handling and establish that ALPK3 deficiency underlies familial cardiomyopathy. 2016
- Compound heterozygous FXN mutations and clinical outcome in Friedreich ataxia. 2016
- Familial cortical dysplasia caused by mutation in the mTOR regulator NPRL3. 2016
- Heterozygous mutations in HSD17B4 cause juvenile peroxisomal D-bifunctional protein deficiency. 2016
- Loss of function of SLC25A46 causes lethal congenital pontocerebellar hypoplasia. 2016
- Metalloprotease SPRTN/DVC1 Orchestrates Replication-Coupled DNA-Protein Crosslink Repair. 2016
- Rasmussen encephalitis tissue transfer program. 2016
- An open-label trial in Friedreich ataxia suggests clinical benefit with high-dose resveratrol, without effect on frataxin levels. 2015
- ARID1B-mediated disorders: Mutations and possible mechanisms. 2015
- Complete callosal agenesis, pontocerebellar hypoplasia, and axonal neuropathy due to AMPD2 loss. 2015
- Familial cortical dysplasia type IIA caused by a germline mutation in DEPDC5. 2015
- Hemispheric cortical dysplasia secondary to a mosaic somatic mutation in MTOR. 2015
- Beyond loss of frataxin: the complex molecular pathology of Friedreich ataxia. 2014
- Cell and gene therapy for Friedreich ataxia: progress to date. 2014
- Expanding the phenotypic spectrum of ARID1B-mediated disorders and identification of altered cell-cycle dynamics due to ARID1B haploinsufficiency. 2014
- HFE p.C282Y heterozygosity is associated with earlier disease onset in Friedreich ataxia. 2014
- Identification of a novel RNF213 variant in a family with heterogeneous intracerebral vasculopathy. 2014
- Mutations in RAB39B Cause X-Linked Intellectual Disability and Early-Onset Parkinson Disease with a-Synuclein Pathology. 2014
- Mutations in SPRTN cause early onset hepatocellular carcinoma, genomic instability and progeroid features. 2014
- Refining analyses of copy number variation identifies specific genes associated with developmental delay. 2014
- Mutations in DARS Cause Hypomyelination with Brain Stem and Spinal Cord Involvement and Leg Spasticity. 2013
- Mutations in SH3PXD2B cause Borrone dermato-cardio-skeletal syndrome. 2013
- The genetics of cardiomyopathy, new technologies and the path to personalised medicine 2013
- ironXS: high-school screening for hereditary haemochromatosis is acceptable and feasible. 2012
- Parkin Co-Regulated Gene is involved in aggresome formation and autophagy in response to proteasomal impairment. 2012
- The COMT Val158 allele is associated with impaired delayed-match-to-sample performance in ADHD. 2012
- De novo 325 kb microdeletion in chromosome band 10q25.3 including ATRNL1 in a boy with cognitive impairment, autism and dysmorphic features. 2011
- Human and Mouse Mutations in WDR35 Cause Short-Rib Polydactyly Syndromes Due to Abnormal Ciliogenesis 2011
- Long Range Regulation of Human FXN Gene Expression 2011
- Reducing the exome search space for Mendelian diseases using genetic linkage analysis of exome genotypes 2011
- Translation initiator EIF4G1 mutations in familial parkinson disease 2011
- NHMRC Project grant 1098255, 2016-2020, Understanding the Neurobiology of Autism Spectrum Disorder (CIs: Scheffer, Lockhart, Delatycki, Wilson, Fanjul, Stanley)
- NHMRC Project grant 1102207, 2016-2018, A randomised placebo-controlled crossover trial of micronised resveratrol as a treatment for Friedreich ataxia (CIs: Delatycki, Yiu, Corben, Cranswick, Lockhart, Wilmot, Lamont, O’Sullivan)
- NHMRC Project grant 1059666, 2014-2016, Determining the genetic control of Corpus Callosum development (CIs: Lockhart, Leventer, Amor, Delatycki)
- Brain Foundation Australia grant, 2016, Using brain tissue to find the causes of epilepsy (CIs: Leventer, Lockhart)
- Campbell Edwards Trust, 2015-2016, Understanding brain malformations in childhood (CIs: Leventer, Lockhart)
- NHMRC Project grant 1041860, 2013-2015, Functional characterisation of a new gene for Parkinson's disease (CIs: Lockhart, Mellick, Amor, Delatycki)
- NHMRC Project grant 1044175, 2013-2015, Genetics of Autism (CIs: Scheffer, Lockhart, Delatycki, Wilson)
- NHMRC Project grant 1046206, 2013-2015, Functional analysis of protein turnover pathways (CIs: Lockhart, Farrer)
- APA Postgraduate scholarship, 2013-2015 (Marsh)
- Associate Professor Melanie Bahlo, Walter Eliza Hall Institute
- Professor Matthew Farrer, University of British Columbia
- Professor Glenda Halliday, Neuroscience Research Australia
- Associate Professor George Mellick, Griffith University
- Professor Linda Richards, Queensland Brain Institute
- Professor Stephen Robertson, University of Otago
- Professor Ingrid Scheffer, Melbourne Brain Centre