Friday, March 29, 2024
News

Study finds details on molecular mechanism that prevents cancer

   SocialTwist Tell-a-Friend    Print this Page   COMMENT

Swindon | June 3, 2023 4:11:39 PM IST
Researchers have identified a key process in cell death that stops cancer from spreading through a distinct molecular mechanism of the early stages of the disease.

The study was published in 'Science Advances'.

Dr Luke Clifton at the STFC ISIS Neutron and Muon Source (ISIS) in Oxfordshire led the study, alongside co-lead Professor Gerhard Grobner at the University of Ume and partners at the European Spallation Source in Sweden. This is the most recent in a series of research collaborations by this team, looking into the cellular proteins that cause apoptosis.

Apoptosis is essential for human life, and its disruption can cause cancerous cells to grow and not respond to cancer treatment. In healthy cells, it is regulated by two proteins with opposing roles known as Bax and Bcl-2.

The soluble Bax protein is responsible for the clearance of old or diseased cells, and when activated, it perforates the cell's mitochondrial membrane to form pores that trigger programmed cell death. This can be offset by Bcl-2, which is embedded within the mitochondrial membrane, where it acts to prevent untimely cell death by capturing and sequestering Bax proteins.

In cancerous cells, the survival protein Bcl-2 is overproduced, leading to uninhibited cell proliferation. While this process has long since been understood to be important to the development of cancer, however, the precise role of Bax and the mitochondrial membrane in apoptosis has been unclear until now.

Dr Luke Clifton, STFC ISIS Neutron and Muon Source scientist and co-lead author, explained, "This work has both advanced our knowledge of fundamental mammalian cell processes and opened exciting possibilities for future research. Understanding what things look like when cells work properly is an important step to understanding what goes wrong in cancerous cells and so this could open doors to possible treatments."

The team used a technique known as neutron reflectometry (conducted using the advanced ISIS Surf and Offspec instruments) which enabled them to study how Bax interacts with lipids in the mitochondrial membrane. This was built on their previous studies of membrane-bound Bcl-2.

Using neutron reflectometry on SURF and OFFSPEC, they were able to study in real time the way that the protein interacts with lipids present in the mitochondrial membrane, during the initial stages of apoptosis. By employing deuterium-isotope labelling, they determined for the first time that when Bax creates pores, it extracts lipids from the mitochondrial membrane to form lipid-Bax clusters on the mitochondrial surface.

By using time-resolved neutron reflectometry in combination with surface infrared spectroscopy in the ISIS bio lab, they were able to see that this pore creation occurred in two stages. Initial fast adsorption of Bax onto the mitochondrial membrane surface was followed by a slower formation of membrane-destroying pores and Bax-lipid clusters, which occurred simultaneously. This slower perforation process occurred on timescales of several hours, comparable to cell death in vivo.

This is the first time that scientists have found direct evidence of the involvement of mitochondrial lipids during membrane perturbing in cell death initiated by Bax proteins.

Dr Luke Clifton added, "As far as we can tell, this mechanism by which Bax initiates cell death is previously unseen. Once we know more about the interplay between Bax and Bcl-2 and how it relates to this mechanism, we'll have a more complete picture of a process that is fundamental to human life. This work really shows the capabilities of neutron reflectometry in structural studies on membrane biochemistry."

The finding builds on previous studies by the team on the molecular mechanism of membrane-bound Bcl-2 to inform a more complete understanding of the early stages of apoptosis.

Professor Gerhard Grobner, University of Umea scientist and co-lead author said, "The unique findings here will not only have a significant impact in the field of apoptosis research but will also open gateways for exploring Bax and its relatives as interesting targets in cancer therapy such as by tuning up their cell-killing potential." (ANI)

 
  LATEST COMMENTS ()
POST YOUR COMMENT
Comments Not Available
 
POST YOUR COMMENT
 
 
TRENDING TOPICS
 
 
CITY NEWS
MORE CITIES
 
 
 
MORE HEALTH NEWS
Study finds how childhood sedentariness ...
Longer genes are associated with ageing...
Dr. Dangs Lab aims to revolutionise heal...
Researchers find ways to reduce side eff...
Study gives insight into role of specifi...
Collaborative study between bariatric, t...
More...
 
INDIA WORLD ASIA
'My father was being given slow poison; ...
Chennai: Three dead after false ceiling ...
Jailed gangster-turned-politician Mukhta...
Eknath Shinde's Shiv Sena releases first...
Uttar Pradesh: Security tightened in Ali...
'A closed chapter now...': BJP leader Di...
More...    
 
 Top Stories
Columbia expels Argentina's diploma... 
Bunker demand surges in Sri Lankan ... 
Allu Arjun unveils his wax statue a... 
Elena Rybakina fends off Victoria A... 
Danielle Collins downs Ekaterina Al... 
"Absolutely baseless": Former UP DG... 
Grigor Dimitrov ousts top-seeded Ca... 
Telangana: Fire breaks out at vehic...