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From: "Peter Christiansen" <>
Date: Tue, 05 Mar 2002 17:03:44 -0600

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Protein May Be Target for New Cancer Drugs



The image shows a Garland cell which functions as a kidney cell in the fruit 
fly, Drosophila. The Hrs protein delivers receptors from endosomes (green) 
to lysosomes (red) where they are degraded. In the absence of Hrs, activated 
receptors for growth signals cannot be turned off -- a defect also seen in 
cancer cells.



January 25, 2002  During development of multicellular organisms, cells are 
bombarded by signals from their environment. The repertoire of receptors 
that cells display on their surfaces often determines whether or not 
individual cells respond to environmental cues.

Researchers have now found that a protein that oversees the transport of 
receptors from the surface to the interior of the cell also tags receptors 
for degradation. This finding is important because cells turn off their 
response to external growth signals by decreasing the number of receptors 
available to bind signals.

In an article published in the January 25, 2002, issue of Cell, Howard 
Hughes Medical Institute investigator Hugo J. Bellen and colleagues at 
Baylor College of Medicine report that the activity of the protein Hrs may 
regulate cell proliferation and could be an important new target for 
anticancer drugs.

A process called endocytosis regulates the cell-surface expression of many 
receptors. During endocytosis, a patch of the cell membrane containing the 
receptor is internalized by the cell and forms small vesicles that later 
fuse into a large vesicle called the endosome. From the endosome, growth 
factor receptors and other cargo may be recycled back to the cell surface, 
or they may sent to another compartment, called the lysosome, where they can 
be degraded.

According to Bellen, experiments in yeast by other researchers   including 
HHMI investigator Scott D. Emr at the University of California, San Diego   
suggested that Hrs might be involved in endocytosis, but its specific 
function remained unknown. Bellen s group analyzed mutant fly larvae that 
lacked functional Hrs in order to try to understand the protein s role in 
endocytosis during development.

Using electron microscopy, the researchers revealed how specific cells in 
the flies  stomachs absorbed a fluid tracer. The studies showed that the 
mutant flies had enlarged endosomes. They found that the abnormalities were 
due to defects in the endosome s ability to form  multi-vesicular bodies,  
specialized endosomes that contain vesicles inside them that carry cargo to 
the lysosome.

 What s exciting in this finding is that we now understand one reason why 
multi-vesicular bodies form,  said Bellen.  Our later studies showed that 
these bodies are needed to turn off signals from key receptors involved in 
cellular communication. 

The scientists demonstrated that epidermal growth factor receptor (EGFR) and 
Torso tyrosine kinase receptor remained switched on constantly in the mutant 
flies, because they depend on Hrs for inactivation. When they analyzed the 
Hrs protein, the scientists determined that it could bind specifically to a 
chemical tag that targets receptors to the lysosome for degradation.

A receptor may receive an external chemical signal such as a growth hormone 
at the cell surface, but that may not necessarily activate the cell s growth 
machinery, Bellen explained.  The signaling may not occur from most 
receptors at the cell membrane,  Bellen noted.  For example, signaling may 
occur in the cytoplasm after the receptor has been taken in by endocytosis. 
When Hrs attaches to the receptor and pushes it inside the vesicle, this 
process would end its access to the cytoplasm and thus its signaling. 

Receptors such as EGFR control cell proliferation, so their over-activity 
(caused by an absence of Hrs to guide them to the lysosome for degradation) 
might underlie many cancers, said Bellen. In fact, a protein called TSG101 
that is missing in some forms of cancer has also been shown to play a role 
in forming multi-vesicular bodies.

 We know that Hrs is involved in regulating key signaling proteins that have 
been implicated in numerous cancers because they control cell proliferation 
and cell differentiation,  he said.  Hrs should be studied in detail, not 
only to determine whether there are mutations in the protein that cause 
cancer, but also as a drug target. One could potentially use drugs to affect 
this protein s activity   either to eliminate it or overexpress it   to 
modify a signaling pathway. 


Image: Laboratory of Hugo J. Bellen/HHMI at Baylor College of Medicine



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