Structural Investigations Of The Bax And Bak Cell Death Apparatus
Funder
National Health and Medical Research Council
Funding Amount
$275,509.00
Summary
Programmed cell death is a process by which the body keeps rogue cells in check. Cancer cells adapt to avoid this process and thus evade this important defence mechanism. This project seeks to understand the machinery that controls programmed cell death at the molecular level. It will provide the atomic details of how this machinery is regulated and how it functions to induce cell death. These insights will provide new avenues for targeting this machinery for a new generation of cancer therapeut ....Programmed cell death is a process by which the body keeps rogue cells in check. Cancer cells adapt to avoid this process and thus evade this important defence mechanism. This project seeks to understand the machinery that controls programmed cell death at the molecular level. It will provide the atomic details of how this machinery is regulated and how it functions to induce cell death. These insights will provide new avenues for targeting this machinery for a new generation of cancer therapeutics.Read moreRead less
Understanding How Bcl-2 Proteins Form The Apoptotic Pores That Kill Cells
Funder
National Health and Medical Research Council
Funding Amount
$893,614.00
Summary
Programmed cell death termed apoptosis is a process our bodies use to remove cells that are a threat to our health, e.g. cancer cells. The proteins that regulate cell death are attractive targets for therapeutics that have become resistant to this defence mechanism. This study will reveal how proteins from the Bcl-2 family regulate cell death at the molecular level. Understanding this process will inform the development of drugs aimed at regulating cell death in cancer and other diseases.
Detailed images of protein molecules underpin our understanding of biological function and our attempts to find new medicines to counter biological malfunction. Proteins belonging to the so-called Bcl-2 family determine whether a cell lives or dies and, because failure to die on cue is a hallmark of many cancers, high resolution images of these molecules will reveal new targets for cancer therapies.