The Identification Of Genes Involved In Mammalian Craniofacial Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$408,055.00
Summary
Birth defects arising from abnormal development of the embryo are a major cause of infant mortality and childhood disabilities. On average 3-4% of liveborn babies have a major congenital abnormality, and of the 15-20% of pregnancies which spontaneously abort, many are due to chromosomal or other developmental anomalies. A common feature of many developmental disorders is dysmorphology of the face, suggesting that genes important in patterning the face are also important in the development of oth ....Birth defects arising from abnormal development of the embryo are a major cause of infant mortality and childhood disabilities. On average 3-4% of liveborn babies have a major congenital abnormality, and of the 15-20% of pregnancies which spontaneously abort, many are due to chromosomal or other developmental anomalies. A common feature of many developmental disorders is dysmorphology of the face, suggesting that genes important in patterning the face are also important in the development of other organ systems. During development of the embryo many of the features of the face derive from a series of swellings termed the pharyngeal arches. The complex processes which determine how the face develops are in a large part controlled by the co-ordinated expression of a large number of genes in the first two of the five pharyngeal arch pairs. While we know some of the genes involved in these processes, the precise mechanisms of craniofacial development are relatively poorly understood. In this project we propose a large scale approach to identifying genes involved in development of the mammalian face and to further delineating their role in development and human disease. This approach takes advantage of state of the art genomic technologies available at the IMB and through existing collaborations overseas. In collaboration with Dr Bento Soares (University of Iowa) we have constructed a library containing all of the genes which are expressed in the first two pairs of pharyngeal arches in the developing mouse embryo. Using an approach designed to eliminate all those genes which are expressed in all or most tissues of the body and play a general role in the body's metabolism, we will select for those genes which play a specific and important role in embryonic development. We will then isolate the human counterparts of these genes and more thoroughly investigate their role in embryonic development and disease.Read moreRead less
Control Of Blood Vessel Development By SOX Transcription Factors
Funder
National Health and Medical Research Council
Funding Amount
$495,750.00
Summary
Cardiovascular disease is Australia s greatest health problem, with an estimated 3 million Australians suffering a spectrum of conditions from hypertension through to heart failure. Improper development of blood vessels in the embryo can compromise survival of the embryo, and predispose patients to vascular disease after birth. The growth of new blood vessels (angiogenesis) is also an important factor in the ability of solid tumours to grow during the progression of cancer. It is therefore of fu ....Cardiovascular disease is Australia s greatest health problem, with an estimated 3 million Australians suffering a spectrum of conditions from hypertension through to heart failure. Improper development of blood vessels in the embryo can compromise survival of the embryo, and predispose patients to vascular disease after birth. The growth of new blood vessels (angiogenesis) is also an important factor in the ability of solid tumours to grow during the progression of cancer. It is therefore of fundamental importance in the health sciences to gain an understanding of how blood vessels form and regenerate. We discovered a gene, Sox18, that appears to regulate blood vessel development by controlling the formation and-or properties of endothelial cells, which line the blood vessels and make them impermeable. Our research so far indicates that MICE WITH DEFECTS IN SOX18 DIE FROM VASCULAR DEFECTS, underlining the importance of this gene. THIS PROJECT IS CONCERNED WITH FINDING OUT HOW SOX18 WORKS - exactly what goes wrong in mice lacking this gene, whether Sox18 can influence endothelial cell behaviour in cell culture, how Sox18 comes to be active in endothelial cells, what genes are switched on by Sox18, and what genes Sox18 co-operates with in its role in endothelial cells. The answers to these questions will not only provide fundamental basic information about how blood vessels development is controlled, but also sow the seeds for possible future therapies in which blood vessel development could be stimulated (eg in wound healing) or suppressed (eg in tumour progression) by drug treatments.Read moreRead less
Functional Characterisation Of Long Spliced NcRNAs
Funder
National Health and Medical Research Council
Funding Amount
$649,230.00
Summary
Genome sequencing projects suggest we only have approximately thirty thousand coding genes which was previously considered to be far too few to provide the blueprint for generation of human complexity. More surprising was the discovery that 3-5% of the genome is transcribed but not translated into protein. The function of these non-coding RNAs is unknown but hotly debated. Is it junk? Or does it play a new key role in programming development? This grant will address this question directly.
The Role Of The Transcriptional Co-activator, Qkf, In Adult Neural Stem Cell Self-renewal And Multi-potency.
Funder
National Health and Medical Research Council
Funding Amount
$403,709.00
Summary
In recent years there has been considerable interest in stem cells because they have the potential to provide new therapeutic approaches to disease. Indeed, haematopoietic stem cells are already used in treatments for leukaemia. Many organs in adult humans contain stem cells, including the brain. In order to develop safe, and effective, stem cell-based treatments for human diseases it is necessary to determine how proliferation and differentiation are regulated in adult stem cells.
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.
Investigating The Role Of The Notch4 Receptor In Blood Vessel Formation And Remodelling In Mammals
Funder
National Health and Medical Research Council
Funding Amount
$653,086.00
Summary
We aim to understand how blood vessels form. This process is crucial for foetal development, and for injury repair in adults. When there is too much or too little blood vessel formation, diseases such as arthritis, blindness and osteoporosis can result. Also many tumours grow and spread by growing new blood vessels. We will study a signal that occurs between cells (Notch signalling) that is important in controlling the amount of blood vessel formation, by analysing in detail one component (Notch ....We aim to understand how blood vessels form. This process is crucial for foetal development, and for injury repair in adults. When there is too much or too little blood vessel formation, diseases such as arthritis, blindness and osteoporosis can result. Also many tumours grow and spread by growing new blood vessels. We will study a signal that occurs between cells (Notch signalling) that is important in controlling the amount of blood vessel formation, by analysing in detail one component (Notch4)Read moreRead less
Defects of the internal and external genitalia are among the most common birth defects in babies (1 in 4,000 births) yet the aetiology in many cases is unclear. We will compare and contrast the mouse with a unique animal model the tammar wallaby to investigate the control of ovarian differentiation during early fetal and postnatal life. The gonad is unusual in that two completely different organs arise from the same precursor tissues, so that errors in development lead to intersexual phenotypes. ....Defects of the internal and external genitalia are among the most common birth defects in babies (1 in 4,000 births) yet the aetiology in many cases is unclear. We will compare and contrast the mouse with a unique animal model the tammar wallaby to investigate the control of ovarian differentiation during early fetal and postnatal life. The gonad is unusual in that two completely different organs arise from the same precursor tissues, so that errors in development lead to intersexual phenotypes. Some intersexual conditions are the result of inappropriate exposure to hormones during fetal life, and others are due to spontaneous or inherited gene mutations. About 5-10% of ovarian cancer cases, that affect 1 in 8000 Australian women, are due to the inheritance of a faulty gene. We will use comparative analysis and an inducible sex reversal system to understand the way gene expression and hence tissue differentiation is altered between male and female during the formation of the ovary versus the testis. This will inform us about the causes and consequences of normal and abnormal sexual development, infertility and gonadal malignancies.Read moreRead less
The Role Of The MYST Family Lysine Acetyltransferase, Hbo1, In Development And In The Adult
Funder
National Health and Medical Research Council
Funding Amount
$403,368.00
Summary
This project will produce a detailed analysis of the function of Hbo1, a transcription factor, and determine its importance in regulating gene expression. All biological processes rely on accurate regulation of gene transcription and all diseases lead to changes in gene expression. This work will increase understanding of how gene expression is regulated and, ultimately, this knowledge will find wide application in the development of new treatment paradigms.
Body Segment Identity Specification By The Transcription Regulator, Moz
Funder
National Health and Medical Research Council
Funding Amount
$366,301.00
Summary
One in 28 newborns have birth defects. Cleft palate and aortic arch defects are among the most common, always requiring surgery and often causing lethality. We propose to study a protein, Moz, which is essential for palate and aortic arch development. Moz (Monocytic leukaemia zinc finger protein) was first identified in human chromosomal abnormalities causing particularly aggressive forms of childhood and adult leukaemia. We have shown previously that Moz is essential for the formation of blood ....One in 28 newborns have birth defects. Cleft palate and aortic arch defects are among the most common, always requiring surgery and often causing lethality. We propose to study a protein, Moz, which is essential for palate and aortic arch development. Moz (Monocytic leukaemia zinc finger protein) was first identified in human chromosomal abnormalities causing particularly aggressive forms of childhood and adult leukaemia. We have shown previously that Moz is essential for the formation of blood stem cells. Moz can regulate the activity of genes, but which genes it regulates in vivo is unknown. In the absence of Moz, mice are born with a cleft palate, lack the thymus, where immune cells are instructed, and fail to form the lung blood circulation, so that they are unable to supply their blood with oxygen after birth. Moz deficiency also causes defects of the vertebrate column, such that individual vertebrae acquire the appearance of their neighbours. These symptoms are typical for a general defect in positional information of individual body segments with respect to their location along the body axis. We will investigate the molecular mechanisms that require Moz in patterning of the body axis. This project will characterize a genetic mechanism that is crucial for normal development of the palate, the aorta and the vertebrate column.Read moreRead less
The Role Of Scube Genes In Hedgehog Signal Transduction
Funder
National Health and Medical Research Council
Funding Amount
$496,446.00
Summary
Cancer often results form the miss-regulation and-or mutation of genes that control tissue formation in the developing embryo. Particular sets of genes combine to form a signal transduction pathway that coordinates the cell's response to its environment during the course of normal fetal growth. One such pathway is called the Hedgehog signal transduction pathway which has been shown to coordinated cell division and patterning within malignant and normal tissues. Genes encoding components of this ....Cancer often results form the miss-regulation and-or mutation of genes that control tissue formation in the developing embryo. Particular sets of genes combine to form a signal transduction pathway that coordinates the cell's response to its environment during the course of normal fetal growth. One such pathway is called the Hedgehog signal transduction pathway which has been shown to coordinated cell division and patterning within malignant and normal tissues. Genes encoding components of this pathway are mutated in the most common forms of human cancers. Understanding how this pathway is regulated is critical to designing strategies to treat the onset and progression of these cancers. The studies outlined in this grant plan to study a new component of this pathway that we have identified in our laboratory, in an easy to study vertebrate model, the zebrafish embryo. We plan to study how this class of proteins, termed scube proteins, acts to control activation of the pathway. We hope this will lead to a fuller understanding of this process, and at the same time help understand the nature of the end result of the patterning process within the muscle cells that we are studyingRead moreRead less