Science News
from research organizations

Enhancing Chemotherapy's Efficacy: New Agent Has Synergistic Effect With Standard Drugs

Date:
April 16, 2007
Source:
Fox Chase Cancer Center
Summary:
Integrating the use of drugs targeted to specific cancer proteins into current chemotherapy regimens to improve the efficacy of systemic treatment is an important clinical goal. A new chemical agent, MCP110, has been found to have a synergistic effect both in vitro and in vivo when used with current chemotherapy drugs such as taxanes (Taxol and Taxotere) and vinca-alkaloid compounds such as vincristine.
Share:
FULL STORY

A new protein-targeted drug inhibited growth of human lung and colon cancer cells. Integrating the use of drugs targeted to specific cancer proteins into current chemotherapy regimens to improve the efficacy of systemic treatment is an important clinical goal at Fox Chase Cancer Center. Fox Chase research has found that a new chemical agent, MCP110, has a synergistic effect both in vitro and in vivo when used with current chemotherapy drugs such as taxanes (Taxol and Taxotere) and vinca-alkaloid compounds such as vincristine.

This synergistic effect--in which the effect of two agents is greater than the sum of their individual effects--appeared when using the combination of MCP110 and Taxol on laboratory cell cultures of human Kaposi's sarcoma and mouse models carrying human lung and colon cancer cells.

"Together, these findings indicate that MCP compounds have potential to be effective in combination with other anticancer agents," the authors concluded.

Vladimir Khazak, Ph.D., now director of biology at NexusPharma, Inc., in Langhorne, Pa., and formerly a postdoctoral associate in the Fox Chase laboratory of molecular biologist Erica A. Golemis, Ph.D., presented the research in an AACR poster session. The work also appears in the March 1 issue of the AACR journal Molecular Cancer Therapeutics ("In vitro and in vivo synergy of MCP compounds with mitogen-activated protein kinase pathway--and microtubule-targeting inhibitors").

The work builds on prior findings published by the team in the Proceedings of the National Academy of Sciences, which first identified MCP compounds, and demonstrated that MCP compounds have the ability to inhibit the growth of cultured cancer cells that depend on interactions of the Ras and Raf oncogenes--growth-promoting genes that can transform cells to cancerous ones if the oncogene is activated inappropriately.

The growth signals sent by these oncogenes use a well-traveled enzyme pathway called MAPK (mitogen-activated protein kinase). This pathway is responsible for cell response to various growth factors and is involved in the action of many cancer-causing genes.

A number of new cancer drugs in development such as MCP110 target this pathway to inhibit one or more steps in the growth signaling process. However, many established cancer chemotherapy drugs are cytotoxic--cell-killing--drugs that work in different ways, such as damaging their DNA or attacking the cells' architecture. Several widely used drugs, including paclitaxel (Taxol), docetaxel (Taxotere) and long-time standby vincristine, take the latter approach, targeting important cell components called microtubules.

"Very few clinical agents are as successful by themselves as they are in combination," Golemis pointed out. "Combination chemotherapies may use two drugs that either have the same target or two different targets. Another approach--the one we've taken here--is to combine a pathway-targeted drug with conventional chemotherapy.

"We've found that MCP110 synergizes both with other small molecules targeting the MAPK pathway and with multiple cytotoxic drugs. These studies predict that MCP110 is a potentially useful treatment agent for combination chemotherapy." In addition to Khazak and Golemis, co-authors include Fox Chase visiting scientist Natalia Skobeleva, Ph.D., of St. Petersburg Polytechnical Institute in St. Petersburg, Russia, NexusPharma chemistry director Sanjay Menon, Ph.D.(formerly associated with NexusPharma and now at Boehringer Ingelheim Pharmaceuticals, Inc.,), and NexusPharma executive director Lutz Weber, Ph.D.

NexusPharma, Inc., has entered into general agreements and has licensed intellectual property from Fox Chase that are providing the basis for its protein interaction technology and enabling the discovery and development of novel therapies by modulating protein-protein interactions with small molecules to advance the treatment of cancer through approaches based on non-cytotoxic mechanisms. In addition, the company has entered into a collaborative research agreement with Fox Chase enabling access to its renowned scientific expertise and first-rate research facilities.

A grant from the Ben Franklin Technology Partners of Pennsylvania supports this research along with the cancer-center support grant from the National Institutes of Health and an appropriation from the Commonwealth of Pennsylvania to Fox Chase Cancer Center. 


Story Source:

Materials provided by Fox Chase Cancer Center. Note: Content may be edited for style and length.


Cite This Page:

Fox Chase Cancer Center. "Enhancing Chemotherapy's Efficacy: New Agent Has Synergistic Effect With Standard Drugs." ScienceDaily. ScienceDaily, 16 April 2007. <www.sciencedaily.com/releases/2007/04/070415160214.htm>.
Fox Chase Cancer Center. (2007, April 16). Enhancing Chemotherapy's Efficacy: New Agent Has Synergistic Effect With Standard Drugs. ScienceDaily. Retrieved May 23, 2017 from www.sciencedaily.com/releases/2007/04/070415160214.htm
Fox Chase Cancer Center. "Enhancing Chemotherapy's Efficacy: New Agent Has Synergistic Effect With Standard Drugs." ScienceDaily. www.sciencedaily.com/releases/2007/04/070415160214.htm (accessed May 23, 2017).

RELATED STORIES