New Delhi, July 20 (IANS) US researchers have found during a study how cancer cells manage to evade despite treatment. Published in the Proceedings of the National Academy of Sciences, the study delves into the cellular processes that allow cancer cells to proliferate even when targeted by anticancer drugs.
Cancer cells exploit cell cycles to multiply rapidly, a process known as proliferation. Cancer drugs aim to halt this growth by initiating a complex sequence of genetic and cellular events. However, these treatments often yield mixed results.
The team led by Jean Cook of the Department of Biochemistry and Biophysics at University of North Carolina, Chapel Hill, identified a crucial enzyme that plays a key role in stopping cancer cell proliferation, particularly during treatment with anti-cancer drugs.
This enzyme’s function varies among individuals. The researchers also discovered mechanisms through which cancer cells evade therapies designed to inhibit them.
Cells regulate protein expression by turning genes “on” and “off”.
Some proteins ensure precise and effective cell division, akin to musicians in an orchestra guided by a conductor.
Cells can deactivate these regulatory proteins, allowing uncontrolled division and DNA replication.
To explore protein degradation’s role in halting cell growth, Cook and graduate student Brandon Mouery treated cultured human cells with palbociclib, a metastatic breast cancer drug.
Using microscopy, flow cytometry, and proteomics, they found that the enzyme APC/C, which targets proteins for degradation to regulate the cell cycle, enhances the effectiveness of palbociclib.
This finding suggests that APC/C levels in tumours could help predict patient responses to palbociclib and similar drugs.
Reduced APC/C activity might indicate poor treatment response or a higher relapse risk.
The researchers also observed that both cancerous and non-cancerous cells can bypass drug-induced proliferation arrest.
These escapee cells struggle to replicate DNA independently, likely delegating DNA replication to proteins that initiate cell division later in the cell cycle.
This indicates that cells can use alternate pathways for uncontrolled growth.
“Cell proliferation has been intensively studied for decades, yet we can still be surprised,” Cook noted. “Sometimes our textbook understanding is still quite incomplete, so we need to keep an open mind and continually challenge paradigms.”
These findings could lead to new interventions that induce long-lasting proliferation arrest by exploiting this escape mechanism and cancer-associated DNA replication errors, potentially forcing cancer cells into a “self-destructive” growth mode.
–IANS
ts/rvt/pgh
Disclaimer
The information contained in this website is for general information purposes only. The information is provided by TodayIndia.news and while we endeavour to keep the information up to date and correct, we make no representations or warranties of any kind, express or implied, about the completeness, accuracy, reliability, suitability or availability with respect to the website or the information, products, services, or related graphics contained on the website for any purpose. Any reliance you place on such information is therefore strictly at your own risk.
In no event will we be liable for any loss or damage including without limitation, indirect or consequential loss or damage, or any loss or damage whatsoever arising from loss of data or profits arising out of, or in connection with, the use of this website.
Through this website you are able to link to other websites which are not under the control of TodayIndia.news We have no control over the nature, content and availability of those sites. The inclusion of any links does not necessarily imply a recommendation or endorse the views expressed within them.
Every effort is made to keep the website up and running smoothly. However, TodayIndia.news takes no responsibility for, and will not be liable for, the website being temporarily unavailable due to technical issues beyond our control.
For any legal details or query please visit original source link given with news or click on Go to Source.
Our translation service aims to offer the most accurate translation possible and we rarely experience any issues with news post. However, as the translation is carried out by third part tool there is a possibility for error to cause the occasional inaccuracy. We therefore require you to accept this disclaimer before confirming any translation news with us.
If you are not willing to accept this disclaimer then we recommend reading news post in its original language.
