Functional Analysis Of The Roles Of The Serine Protease Kallikrein 7 And Its Variant Isoform In Serous Ovarian Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$509,017.00
Summary
Ovarian cancer is the leading cause of death from gynaecological cancers with 1,200 women in Australia diagnosed with the disease in 2004, and 852 patients dying of ovarian cancer. The mortality rate has improved little over the last two decades with one of the major reasons being that ovarian cancer is often diagnosed at a late stage when cancer cells have spread into the abdomen or metastasised to other sites. The kallikrein family of serine proteases or enzymes is emerging as very useful diag ....Ovarian cancer is the leading cause of death from gynaecological cancers with 1,200 women in Australia diagnosed with the disease in 2004, and 852 patients dying of ovarian cancer. The mortality rate has improved little over the last two decades with one of the major reasons being that ovarian cancer is often diagnosed at a late stage when cancer cells have spread into the abdomen or metastasised to other sites. The kallikrein family of serine proteases or enzymes is emerging as very useful diagnostic or prognostic biomarkers for ovarian cancer as they often have higher levels in ovarian cancer tissue compared to the normal ovary. One of these enzymes is kallikrein 7, which is also involved in shedding of skin cells. Because of its involvement in skin, we hypothesise it may be playing a similar role in ovarian cancer and helping the cancer cells to detach from the ovary so they are free to move around the body to other sites. There are two different forms of kallikrein 7, a long form and a shorter form which is lacking a part that is crucial to enzymatic activity. While low levels of the short form have been found in normal ovary, very high levels of both forms were seen in ovarian cancer, especially the serous subtype which is the most common and most aggressive form of ovarian cancer. The aim of this project is to determine the function(s) of both forms of kallikrein 7 in ovarian cancer and to identify other molecules-proteins they are involved with. These findings will tell us if kallikrein 7 is involved in the spreading of ovarian cancer cells or metastasis and will lead to a better understanding of the development and progression of ovarian cancer. The finding from this study may also lead to better therapeutic approaches (ie blocking the action of Kallikrein 7), and-or markers to monitor ovarian cancer progression.Read moreRead less
Characteristics Of Splice Variants Of The Skeletal Muscle Ryanodine Receptor: Implications For Myotonic Dystrophy
Funder
National Health and Medical Research Council
Funding Amount
$258,000.00
Summary
The project is to address some of the basic molecular changes that occur in skeletal muscle during development and in myotonic dystrophy. Myotonic dystrophy is a significant health issue since it is the most common adult muscular dystrophy, with an occurrence of ~1 in 7000. The results will provide much needed information about the membrane-associated molecular mechanisms that regulate muscle contraction and may provide a basis for drug design and treatment of myotonic dystrophy. Respiration and ....The project is to address some of the basic molecular changes that occur in skeletal muscle during development and in myotonic dystrophy. Myotonic dystrophy is a significant health issue since it is the most common adult muscular dystrophy, with an occurrence of ~1 in 7000. The results will provide much needed information about the membrane-associated molecular mechanisms that regulate muscle contraction and may provide a basis for drug design and treatment of myotonic dystrophy. Respiration and locomotion depend on the release of calcium ions from stores inside muscle cells. Ryanodine receptor calcium channels regulate calcium release from the stores. The essential nature of ryanodine receptors is underlined by death at or before birth when ryanodine receptor expression is defective. In addition genetic defects in the ryanodine receptor cause cardiac arrhythmias, malignant hyperthermia and central core disease. Ryanodine receptor function is compromised in heart failure and fatigue. The essential role of ryanodine receptors makes them a potential therapeutic target, but they are not used in this way because of our limited knowledge of the protein. Myotonic dystrophy is an autosomal dominant multi-system disorder, in which an expansion of non-coding DNA leads to changes in expression of several different proteins. Although the genetic basis of myotonic dystrophy is now reasonably well understood, the contribution of molecular changes in the affected proteins to the myopathy has not been investigated. Our group has recently discovered that the juvenile form of the ryanodine receptor protein is highly expressed in adults suffering from myotonic dystrophy. By discovering more about the properties of the juvenile isoform, we will understand more about the basic mechanisms of ryanodine receptor function in developing muscle and in myotonic dystrophy and be able to design drugs to specifically modify ryanodine receptor activity.Read moreRead less
Exploring Roles For MicroRNAs In Cancer Using Bioinformatics And Gene Expression Tools.
Funder
National Health and Medical Research Council
Funding Amount
$292,639.00
Summary
microRNAs are newly discovered chemicals that were the subject of the 2006 Nobel Prize in Medicine. These chemicals decrease the amount of specific molecular ‘targets’ in cells, and play an important role in cancer. Currently we do not understand how these chemicals choose their targets, and we propose to use a computer-based approach to discover how they affect genes in cancer. This will improve our understanding of cancer and thereby lead to the discovery of novel anti-cancer therapies.
Functional Evaluation Of BRCA1 & BRCA2 Unclassified Sequence Variants And Identification Of Critical Pathogenic Domains.
Funder
National Health and Medical Research Council
Funding Amount
$331,312.00
Summary
The major genes that predispose to hereditary breast cancer are called BRCA1 and BRCA2. Most mutations in these genes cause the protein product to be truncated and inactive. However there are many families in which such truncating mutations are not found, but instead there are sequence changes that slightly alter the protein product. It is often difficult to predict whether these sequence variants are likely to cause hereditary breast cancer simply by looking at the position and nature of the se ....The major genes that predispose to hereditary breast cancer are called BRCA1 and BRCA2. Most mutations in these genes cause the protein product to be truncated and inactive. However there are many families in which such truncating mutations are not found, but instead there are sequence changes that slightly alter the protein product. It is often difficult to predict whether these sequence variants are likely to cause hereditary breast cancer simply by looking at the position and nature of the sequence change. Consequently, it is not possible to offer informative genetic counselling to these women or their at-risk family members. Assessment of the potential pathogenicity and functional significance of these unclassified sequence variants will be directly useful with regard to the clinical management of these women and their families, and will develop our current understanding of how different domains of these genes contribute to their role as cancer susceptibility genes.Read moreRead less
The human hepatitis B virus (HBV) is a member of the hepadnavirus family that includes a number of other very similar host-specific viruses. Acute HBV infection can produce extreme variation in disease, ranging from asymptomatic infection, to acute transient hepatitis with jaundice, or fulminant hepatitis leading to liver failure (Hollinger, 1996). The identification of viral genes that affect the severity of disease is a major current goal in medical virology. For example, there is considerable ....The human hepatitis B virus (HBV) is a member of the hepadnavirus family that includes a number of other very similar host-specific viruses. Acute HBV infection can produce extreme variation in disease, ranging from asymptomatic infection, to acute transient hepatitis with jaundice, or fulminant hepatitis leading to liver failure (Hollinger, 1996). The identification of viral genes that affect the severity of disease is a major current goal in medical virology. For example, there is considerable interest in identifying the genes of the influenza genome responsible for high mortality outbreaks; with the human immunodeficiency virus, the virus that causes AIDS, variants deleted in the nef gene region cause a less rapidly progressing infection and have attracted attention as a possible prototype for an attenuated vaccine. We propose to investigate how the different genes of hepadnaviruses affect the course of infection and type of disease produced. Studies will be performed in ducks infected with the duck hepatitis B virus (DHBV) as these animals provide the only model system available in Australia. We will study both experimentally and naturally derived DHBV variants to explore the effects of genetic changes on the outcome of infection. This will enhance our understanding of this virus family and will provide models for comparison with HBV infection. This knowledge may then contribute to our ability to manage and control HBV disease in humans.Read moreRead less
Evaluation Of Unclassified Variants Of BRCA1 And BRCA2 Using A Multifactorial Approach
Funder
National Health and Medical Research Council
Funding Amount
$456,495.00
Summary
The major genes that predispose to hereditary breast cancer are called BRCA1 and BRCA2. Most mutations in these genes cause the protein product to be truncated and inactive. However there are many families in which such truncating mutations are not found, but instead there are sequence changes that may slightly alter the protein product. It is often difficult to predict whether these sequence variants are likely to cause hereditary breast cancer simply by looking at the position and nature of th ....The major genes that predispose to hereditary breast cancer are called BRCA1 and BRCA2. Most mutations in these genes cause the protein product to be truncated and inactive. However there are many families in which such truncating mutations are not found, but instead there are sequence changes that may slightly alter the protein product. It is often difficult to predict whether these sequence variants are likely to cause hereditary breast cancer simply by looking at the position and nature of the sequence change. Consequently, it is not possible to offer informative genetic counselling to these women or their at-risk family members. Assessment of the potential pathogenicity and functional significance of these unclassified sequence variants will be directly useful with regard to the clinical management of these women and their families, and will develop our current understanding of how different domains of these genes contribute to their role as cancer susceptibility genes. In addition, some of our experiments to classify variants may be useful as a screening tool to identify carriers of mutations, and so prioritize them for mutation screening.Read moreRead less