Novel Gateway For The Treatment Of Cancer Opened By Unsuccessful Anxiety Drug
Main Category: Cancer / OncologyAlso Included In: Anxiety / Stress; Biology / Biochemistry; IT / Internet / E-mail
Article Date: 06 Sep 2008 - 0:00 PDT
email to a friend 
printer friendly 
opinions
| Patient / Public: |  |
5 (2 votes) |
| Healthcare Prof: |  |
Cancer cells have multiple ways to avoid apoptosis, programmed cell death the means by which organisms deal with defective cells. One defense is to produce quantities of phosphatic acid, a phospholipid constituent of cellular membranes.
Unlike other phospholipids, phosphatidic acid also acts as a signaling molecule for cells promoting cellular growth and preventing apoptosis. Finnish and Danish researchers have now shown that phosphatidic acid may well be a target molecule for novel anti-cancer drugs.
Siramesine is a drug molecule developed and synthesized by Lundbeck A/S for the treatment of anxiety. Its development was discontinued due to unsatisfying efficacy in clinical trials in 2002. Later professor Marja Jäättelä and co-workers at the Danish cancer institute discovered that siramesine effectively inhibits the growth of both cultured cancer cells as well as solid tumors in mice. Siramesine is known to bind sigma-receptors, which physiological role remains unknown, on the cellular surface and this interaction was also believed to underlie its anti-tumor actions.
Researchers at the University of Helsinki, Finland, lead by Professor Paavo Kinnunen, studied the interaction of this drug with different phospholipids using biophysical methods and different model cellular membranes. In addition a computer simulation was performed as collaboration with MEMPHYS, Odense, Denmark, to further their understanding of this interaction.
"The key finding of our study was that siramesine avidly and specifically binds to phosphatidic acid", says MD Mikko Parry from Helsinki Biophysics & Biomembrane group at the Institute of Biomedicine, University of Helsinki.
"Importantly, this is the first time it's shown that a lipid second messenger can act as a drug target: it is a totally new mechanism of action and constitutes a novel paradigm for developing new, more effective anti-cancer drugs."
###
Source: Professor Paavo Kinnunen
University of Helsinki
Visit our cancer / oncology section for the latest news on this subject.
MLA
14 Feb. 2012. <http://www.medicalnewstoday.com/releases/120484.php>
APA
http://www.medicalnewstoday.com/releases/120484.php.
Please note: If no author information is provided, the source is cited instead.
|
Rate this article: (Hover over the stars then click to rate) |
Patient / Public: |
or |
Health Professional: |
Add Your Opinion
Please note that we publish your name, but we do not publish your email address. It is only used to let you know when your message is published. We do not use it for any other purpose. Please see our privacy policy for more information.
If you write about specific medications or operations, please do not name health care professionals by name.
All opinions are moderated before being included (to stop spam)
Contact Our News Editors
For any corrections of factual information, or to contact the editors please use our feedback form.
Please send any medical news or health news press releases to:
Note: Any medical information published on this website is not intended as a substitute for informed medical advice and you should not take any action before consulting with a health care professional. For more information, please read our terms and conditions.
Privacy Policy |
Terms and Conditions
MediLexicon International Ltd
Bexhill-on-Sea, United Kingdom
MediLexicon International Ltd © 2004-2012 All rights reserved.
