The Role Of Rnd Genes During Cortical Neurogenesis And Cell Migration
Funder
National Health and Medical Research Council
Funding Amount
$410,384.00
Summary
In order for the brain to function properly, tens of billions of neurons within it first have to be born, then find their proper location before connecting with other neurons in a highly ordered fashion. Failure of these key processes heavily impacts on subsequent brain function, and have been shown to underlie several disorders including epilepsy. This study will investigate how members of the Rnd gene family control cell production and positioning within the developing brain.
Much of our current knowledge on development of external genitalia (ExG), the penis and clitoris, comes from 20 &70 year-old studies (1); but with significant developments in contemporary imaging and new mouse models, we have new data. The overall goal of this project is to prove the hypothesis that penile and clitoral development is estrogen- (and androgen-) dependent and, to show that the administration of exogenous endocrine disrupting chemicals that alter the balance between estrogen and and ....Much of our current knowledge on development of external genitalia (ExG), the penis and clitoris, comes from 20 &70 year-old studies (1); but with significant developments in contemporary imaging and new mouse models, we have new data. The overall goal of this project is to prove the hypothesis that penile and clitoral development is estrogen- (and androgen-) dependent and, to show that the administration of exogenous endocrine disrupting chemicals that alter the balance between estrogen and androgen will disrupt ExG development.Read moreRead less
The Role Of The Suppressors Of Cytokine Signalling 6 And 7 In Cerebral Cortex Development
Funder
National Health and Medical Research Council
Funding Amount
$377,189.00
Summary
Defects in neuronal cell migration during embryonic development lead to mental retardation and epilepsy. Although neuronal migration is essential for the development of normal intelligence, we know relatively little about the molecular mechanisms that regulate this process. We have identified two proteins, Socs6 and Socs7, which are essential for neuronal migration and normal cerebral cortex development. We propose to fully investigate the function of Socs6 and Socs7 during cortex development.
The Role Of The Ras Signalling Molecule, C3G, In The Interaction Of Neural Precursor Cells And Their Environment
Funder
National Health and Medical Research Council
Funding Amount
$319,446.00
Summary
Developmental brain disorders affect 1-3% of the population. The mental retardation disease spectrum includes neuronal migration disorders and neural precursor proliferation disorders. We propose to study a molecular mechanism regulating neuronal migration, survival and proliferation. We have identified a protein, C3G, which is essential for three aspects of nervous system development: (A) C3G limits neural precursor cell proliferation. (B) C3G is essential for neuronal survival. (C) C3G is cruc ....Developmental brain disorders affect 1-3% of the population. The mental retardation disease spectrum includes neuronal migration disorders and neural precursor proliferation disorders. We propose to study a molecular mechanism regulating neuronal migration, survival and proliferation. We have identified a protein, C3G, which is essential for three aspects of nervous system development: (A) C3G limits neural precursor cell proliferation. (B) C3G is essential for neuronal survival. (C) C3G is crucial for neuronal migration. C3G acts in a cascade of proteins, known as the Ras signalling pathway, which transmits signals from the extracellular environment into the cell nucleus to elicit appropriate responses of the cell to cues from the outside. We will identify proteins that, together with C3G, affect the important processes of neural precursor proliferation, and neuron survival and migration. This project will fully characterise a key regulatory mechanism of cellular processes crucial to the development of normal intelligence.Read moreRead less
Discovering Molecules And Mechanisms Regulating Dendrite Formation
Funder
National Health and Medical Research Council
Funding Amount
$517,989.00
Summary
Dendrites are neuronal projections necessary to receive stimuli from other neurons or the external environment. Abnormalities in dendrite development associate with mental retardation and other human conditions such as Down syndrome, Rett syndrome and Fragile-X syndrome. The studies presented in this proposal, using the powerful genetic and molecular tools available for the nematode C. elegans, will provide new insight into the cellular and molecular mechanisms regulating dendrite development.
THE ROLE OF UBIQUITIN LIGASE ADAPTOR PROTEIN NDFIP1 IN NEURONAL DEVELOPMENT
Funder
National Health and Medical Research Council
Funding Amount
$581,813.00
Summary
Many brain diseases are characterized by faulty connections between nerve cells (neurons), in some cases caused by the inability to remove unwanted proteins from the neuron. This function is carried out by the ubiquitin-proteasome system (UPS). We have evidence that a UPS protein called Ndfip1 is important for forming functional brain circuits. We aim to discover whether neuron growth, branching and connectivity is promoted by Ndfip1 targeting of PTEN (phosphatase with tensin homology) to the UP ....Many brain diseases are characterized by faulty connections between nerve cells (neurons), in some cases caused by the inability to remove unwanted proteins from the neuron. This function is carried out by the ubiquitin-proteasome system (UPS). We have evidence that a UPS protein called Ndfip1 is important for forming functional brain circuits. We aim to discover whether neuron growth, branching and connectivity is promoted by Ndfip1 targeting of PTEN (phosphatase with tensin homology) to the UPS.Read moreRead less
Early Detection Of Infants And Young Children With Autism
Funder
National Health and Medical Research Council
Funding Amount
$268,250.00
Summary
Autism is a severely handicapping condition adversely affecting social interaction, communication, behaviour, interests, and activities. Autism requires treatment at an early age (before 4 years). Despite finding that parents notice problems with their child's development within the first 2 years, on average diagnoses are made around 6 years of age. Treatment for autism should begin as early as possible to improve outcome. Diagnosis requires specialist assessment and these services are limited. ....Autism is a severely handicapping condition adversely affecting social interaction, communication, behaviour, interests, and activities. Autism requires treatment at an early age (before 4 years). Despite finding that parents notice problems with their child's development within the first 2 years, on average diagnoses are made around 6 years of age. Treatment for autism should begin as early as possible to improve outcome. Diagnosis requires specialist assessment and these services are limited. Therefore it is not possible to undertake such assessments with all children who have developmental problems. This project therefore proposes to evaluate a method for screening large populations of children for autism, thus enabling timely and more appropriate referral to assessment services. Previous work by the investigators has developed a potential screening tool (DBC Early Screen) for autism in young children under 4 years with developmental delay that has high levels of accuracy in identifying those infants and children who are at risk of autism and require specialist assessment. This project proposes to undertake a community field trial to assess the accuracy and reliability of this early screen and to establish its suitability for wide use as a population screening tool. The preliminary testing of DBC Early Screen demonstrated that a community field trial was feasible. The results of this study will facilitate the referral of infants and young children to specialist autism assessment services, thus enabling the commencement of appropriate early intervention for children and their families from an early age.Read moreRead less
An Examination Of Motor Functioning In Autism And Asperger's Disorder: An Analysis Of Gait & Cortical Brain Activity.
Funder
National Health and Medical Research Council
Funding Amount
$120,220.00
Summary
Autism is a developmental disorder characterised by a triad of deficits: delayed and atypical language development, impaired development of social skills, and ritualistic and stereotypic behaviour. Although not part of the standard diagnosis, movement disorders and gait abnormalities have been clinically observed in autism similar to those seen in Parkinson's disease. In addition, individuals with Asperger's disorder may appear more clumsy, have a stiff or awkward way of walking, and exhibit poo ....Autism is a developmental disorder characterised by a triad of deficits: delayed and atypical language development, impaired development of social skills, and ritualistic and stereotypic behaviour. Although not part of the standard diagnosis, movement disorders and gait abnormalities have been clinically observed in autism similar to those seen in Parkinson's disease. In addition, individuals with Asperger's disorder may appear more clumsy, have a stiff or awkward way of walking, and exhibit poor coordination in posture and gesture. It has been suggested that there is disruption within the basal-ganglia-thalamocortical circuitry (the region connecting the frontal and sub-cortical structures), which may cause the motor dysfunction seen in autism and Asperger's disorder. Few studies have attempted to isolate particular stages of motor functioning which may account for the coordination and motor delay observed clinically in autism and Asperger's disorder. A recent study of ours found evidence to suggest that motor planning deficiencies may account for the 'clumsy' movement patterns frequently reported in the autism - Asperger's disorder literature. Therefore, the aim of this research is to provide a comprehensive neurobehavioural and neurophysiological analysis of motor functioning in young people with autism and Asperger's disorder to further examine the exact stages of motor processing which are deficient in these disorder groups. Recent retrospective studies have shown that even as infants children with autism exhibit clear features of motor disturbance, which, if detected and clearly defined, could advance early diagnosis. In addition to advancing the clinical definition of autism and Asperger's disorder, a careful examination of motor disturbance may also illuminate the neurobiological underpinnings of these disorders.Read moreRead less
Mechanisms Controlling Interneuron Migration And Layering In The Cortex
Funder
National Health and Medical Research Council
Funding Amount
$613,060.00
Summary
This work will increase our understanding of how the brain is assembled and what mechanisms control this process. Understanding this highly orchestrated string of events is vital as abnormal positioning and numbers of neurons are known pathologies in brains of patients with epilepsy and schizophrenia. Using state of the art equipment we can visualize neurons moving in brain slices in real-time and investigate environmental factors involved in this important process.
Ocular Motility In Autism And Asperger S Disorder: Dissociation Of Motor Deficits.
Funder
National Health and Medical Research Council
Funding Amount
$131,235.00
Summary
We will use ocular motor technology to investigate motor dysfunction in autism and Asperger's disorder, to advance our understanding of the neurobiological bases of these disorders. This will help clarify whether neural networks are differentially disrupted in these disorders, as our previous clinical research suggests. This dissociation and the subsequent development of an ocular motor clincal screen may improve diagnosis, and potentially treatment, of these devastating conditions.