Sorting Nexins And Their Role In Endosomal Trafficking
Funder
National Health and Medical Research Council
Funding Amount
$331,000.00
Summary
Cells are able to internalise molecules via membrane-bound vesicles, a process known as endocytosis. Endocytosis is fundamental for many cellular processes, including receptor signalling, uptake of many essential nutrients and the ability to mount an effective lymphocyte response to foreign antigens. Once internalised, cargo is then sorted to different intracellular destinations of the endosomal transport system. The ultimate destination depends on the particular cargo molecule. The importance o ....Cells are able to internalise molecules via membrane-bound vesicles, a process known as endocytosis. Endocytosis is fundamental for many cellular processes, including receptor signalling, uptake of many essential nutrients and the ability to mount an effective lymphocyte response to foreign antigens. Once internalised, cargo is then sorted to different intracellular destinations of the endosomal transport system. The ultimate destination depends on the particular cargo molecule. The importance of the endosomal transport system is also highlighted by the discovery that many human diseases, including various cancers, lysosomal storage diseases and hypercholesterolemia, are linked to defects in trafficking along the endocytic pathway. Furthermore, a number of viral pathogens, such as HIV, and toxins, such as shiga toxin, exploit the endosomal system to gain entry into a cell. Understanding the molecular details of the sorting events within the endosomal system is necessary to be able to consider therapeutic manipulation of the trafficking of specific cargo molecules. The study seeks to understand the molecular details of the endosomal sorting machinery, knowledge that will underpin future efforts to develop drugs to manipulate movement of proteins within the endosomal system. In the long term, this could allow for the manipulation of a variety of cellular functions including the inhibition of proliferative signals in tumour cells.Read moreRead less
Regulation Of Endosome Function By The AAA-ATPase Vps4
Funder
National Health and Medical Research Council
Funding Amount
$220,500.00
Summary
Cells respond to many signals from the environment. Some signals tell cells to grow and divide and other signals tell cells to rest. These signals are usually in balance in healthy cells. To prevent cells from growing and dividing in an uncontrolled manner and forming a cancer, there are mechanisms to turn off signals for growth. One mechanism is to destroy the proteins responsible for growth signalling. This involves flipping (by a process called multivesicular body, or MVB, sorting) the signal ....Cells respond to many signals from the environment. Some signals tell cells to grow and divide and other signals tell cells to rest. These signals are usually in balance in healthy cells. To prevent cells from growing and dividing in an uncontrolled manner and forming a cancer, there are mechanisms to turn off signals for growth. One mechanism is to destroy the proteins responsible for growth signalling. This involves flipping (by a process called multivesicular body, or MVB, sorting) the signalling protein from one side of the membrane where signalling occurs to the other side where signalling cannot occur and where the signalling protein can be degraded. Interestingly, it has recently been discovered that some viruses (including the AIDS virus) use the same MVB sorting mechanisms to escape from infected cells. Instead of undergoing MVB sorting into an internal compartment and getting degraded, however, the virus is able to use the same mechanism to flip out of the cell. How MVB sorting occurs is not known, but the mechanism has been conserved through evolution and even microbes like yeast can perform MVB sorting of proteins. We are investigating a component of the MVB sorting mechanism known as Vps4 which is present in both human cells and in yeast cells. Since the human Vps4 and yeast Vps4 seem to function in the same way, and since powerful molecular genetic approaches can be used in yeast to elucidate how proteins function (some of which are not possible with human cells), we are using yeast to investigate Vps4 function. Once we understand how the yeast Vps4 works, we will be able to test if human Vps4 works the same way. Understanding the MVB sorting mechanism will give us information on how cells prevent uncontrolled growth and division and may also help us find ways of preventing AIDS infection.Read moreRead less