Targeting To Mitochondria Of Tail-Anchored Proteins. Defining The Molecular Apparatus Of Targeting.
Funder
National Health and Medical Research Council
Funding Amount
$254,751.00
Summary
The cells of the body have an intricate and dynamic internal architecture, with the components (proteins, lipids, and nucleic acids) of the cell carefully arranged. It is widely viewed that just how each component finds its place in the cell, the cellular adressing system, is of critical importance. This was recognized this year by the award of the Nobel Prize in Medicine to Dr. Gunter Blobel for his work on the signals that direct different proteins to their correct destination. One such destin ....The cells of the body have an intricate and dynamic internal architecture, with the components (proteins, lipids, and nucleic acids) of the cell carefully arranged. It is widely viewed that just how each component finds its place in the cell, the cellular adressing system, is of critical importance. This was recognized this year by the award of the Nobel Prize in Medicine to Dr. Gunter Blobel for his work on the signals that direct different proteins to their correct destination. One such destination is the mitochnondria, the particles in the cell that produce chemical energy. The work in this proposal is designed to define precisely the molecular apparatus that targets a group of proteins to mitochondria. This group, proteins that are inserted into the mitochondria at one end of the protein, includes a variety of critical proteins, including those that determine the life or death of a cell. We will define both the address contained within those proteins, and the machinery on the mitochondria that recognizes that address, and ensures that those proteins will become part of the mitochondria. This research has two applications. By understanding the address, we will be able to decode the vast amount genomic data that is being produced, to predict exactly which proteins are delivered to mitochondria. Secondly, by understanding the targeting machinery, we may begin to design molecules that can inhibit its function, and thus manipulate the delivery of those proteins that affect cell life and death.Read moreRead less
Viral Interference With Apoptosis: Defining The Mechanisms And Effects On Viral Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$551,328.00
Summary
Apoptosis, or programmed cell death, is an orderly process whereby unwanted or damaged cells are removed from an organism. Deregulation of apoptosis has been implicated in the development of diseases such as cancer and autoimmunity. Therefore, a precise understanding of the mechanisms controlling the initiation of apoptosis has important clinical implications. In addition to removing unwanted cells, apoptosis functions as a defence mechanism to inhibit viral replication. Hence, in order to repli ....Apoptosis, or programmed cell death, is an orderly process whereby unwanted or damaged cells are removed from an organism. Deregulation of apoptosis has been implicated in the development of diseases such as cancer and autoimmunity. Therefore, a precise understanding of the mechanisms controlling the initiation of apoptosis has important clinical implications. In addition to removing unwanted cells, apoptosis functions as a defence mechanism to inhibit viral replication. Hence, in order to replicate efficiently viruses have evolved means to inhibit or interfere with apoptosis. The central aim of this work is to understand how two genes encoded by murine cytomegalovirus (MCMV) inhibit apoptosis and contribute to viral replication. MCMV is used as a model for human CMV (HCMV) infection. The majority of the human population is infected with HCMV which poses no risk to healthy individuals. However, reactivation of HCMV in people who are immunosuppressed such as transplant recipients or AIDS patiens is a significant cause of mortality. The MCMV infection model has provided important insights as to how the immune system controls infection and the mechanisms utilized by viruses to circumvent these processes. The proposed studies will improve our understanding of the processes that regulate viral replication. Understanding how viruses subvert host defence mechanisms will allow us to better understand their role in causing human disease, and thus, will provide key information for the design of improved anti-viral strategies. Importantly, the type of analyses proposed here will also contribute critical insights into the normal processes that control cell survival.Read moreRead less
In cancer cells the normal process of cell death (called apoptosis) is defective, helping abnormal cells to grow and multiply unchecked. The Bak protein is a member of the Bcl-2 family of apoptosis regulators, and plays a pivotal role in mediating cell death. By defining each step in Bak-mediated apoptosis, we aim to better understand how cancer cells accumulate, and how targeting the Bcl-2 family may lead to effective anti-cancer therapeutics.
Role Of Bak And Bax Membrane Anchors In Targeting And Apoptotic Pore Formation.
Funder
National Health and Medical Research Council
Funding Amount
$352,319.00
Summary
In cancer cells the normal process of cell death (called apoptosis) is defective, helping abnormal cells to grow and multiply unchecked. The Bak and Bax proteins are members of the Bcl-2 family of apoptosis regulators, and play a pivotal role in mediating cell death. By defining how these proteins form a pore in mitochondria, the point of no return in cell death, will help the development of novel anti-cancer agents that target the Bcl-2 family in general, and Bak and Bax in particular.
Deciphering Activation Of The Apoptotic Cell Death Program
Funder
National Health and Medical Research Council
Funding Amount
$577,109.00
Summary
Apoptosis is the cell death mechanism by which unwanted, damaged or excess cells are removed from the body. It is critical for normal development and immune system function, and is deregulated in a number of diseases including cancer, neurodegeneration and autoimmunity. We shall determine how apoptosis is controlled by a family of proteins called the Bcl-2 family, thereby providing insight for the development of novel therapies.
Alternative Mechanisms To Initiate Apoptotic Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$336,767.00
Summary
Cell death is essential for our well being. As insufficient cell deaths can lead to cancers, promoting cell killing is a promising new avenue for treating this disease. However, current approaches are not fully optimal because we do not completely understand how the switch for cell death is flipped on. Our project seeks to answer this important question and we anticipate that a better understanding of this basic process will enable improved treatment for diseases such as cancer.