Posts Tagged ‘cancer’

Plant derivative could help refine cancer treatment

Schwartz Posted in Chinese Medicine, Herbs, Oncology,Tags: , , , , , , , ,
13 November 2010
0

Plant Derivative

AUGUSTA, Ga. – Medical College of Georgia researchers are seeking to refine cancer treatment with an anti-inflammatory plant derivative long used in Chinese medicine.

Celastrol, derived from trees and shrubs called celastracaea, has been used for centuries in China to treat symptoms such as fever, chills, joint pain and inflammation. The MCG researchers think it may also play a role in cancer treatment by inactivating a protein required for cancer growth.

That protein, P23, is one of many proteins helping the heat shock protein 90. Scientists are just beginning to realize the potential of controlling inflammation-related diseases, including cancer, by inhibiting HSP90.

“Cancer cells need HSP90 more than normal cells because cancer cells have thousands of mutations,” said Dr. Ahmed Chadli, biochemist in the MCG Center for Molecular Chaperones/Radiobiology and Cancer Virology. “They need chaperones all the time to keep their mutated proteins active. By taking heat shock proteins away from cells, the stabilization is taken away and cell death occurs.”

But most HSP90 inhibitors lack selectivity, disabling the functions of all proteins activated by HSP90 rather than only the ones implicated in a specific tumor. Those proteins vary from one tumor to another.

Dr. Chadli and colleagues at the Mayo Clinic believe celastrol holds the key to specificity, targeting the HSP90-activated protein required for folding steroid receptors.

“The celastrol induces the protein to form fibrils and clusters it together, which inactivates it,” said Dr. Chadli, whose research was published in the January edition of The Journal of Biological Chemistry. “When they are clustered, they’re not available for other functions that help cancer grow.”

The research was funded by a seed grant from the MCG Cardiovascular Discovery Institute and a Scientist Development Grant from The American Heart Association.

Dr. Chadli envisions future studies on cancer patients using even more potent derivatives of celastrol.

“They can hopefully be used in combination with other therapeutic agents to reduce the probability of cancer resistance,” he said.

Source: Eurekalert

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New insights into mushroom-derived drug promising for cancer treatment

Schwartz Posted in Herbs, Oncology,Tags: , , , , , , ,
10 November 2010
0

A promising cancer drug, first discovered in a mushroom commonly used in Chinese medicine, could be made more effective thanks to researchers who have discovered how the drug works. The research is funded by the Biotechnology and Biological Sciences Research Council and was carried out at The University of Nottingham.

In research to be published in the Journal of Biological Chemistry, Dr Cornelia de Moor of The University of Nottingham and her team have investigated a drug called cordycepin, which was originally extracted from a rare kind of wild mushroom called cordyceps and is now prepared from a cultivated form.

Dr de Moor said: “Our discovery will open up the possibility of investigating the range of different cancers that could be treated with cordycepin. We have also developed a very effective method that can be used to test new, more efficient or more stable versions of the drug in the Petri dish. This is a great advantage as it will allow us to rule out any non-runners before anyone considers testing them in animals.”

Cordyceps is a strange parasitic mushroom that grows on caterpillars (see image). Properties attributed to cordyceps mushroom in Chinese medicine made it interesting to investigate and it has been studied for some time. In fact, the first scientific publication on cordycepin was in 1950. The problem was that although cordycepin was a promising drug, it was quickly degraded in the body. It can now be given with another drug to help combat this, but the side effects of the second drug are a limit to its potential use.

Dr de Moor continued: “Because of technical obstacles and people moving on to other subjects, it’s taken a long time to figure out exactly how cordycepin works on cells. With this knowledge, it will be possible to predict what types of cancers might be sensitive and what other cancer drugs it may effectively combine with. It could also lay the groundwork for the design of new cancer drugs that work on the same principle.”

The team has observed two effects on the cells: at a low dose cordycepin inhibits the uncontrolled growth and division of the cells and at high doses it stops cells from sticking together, which also inhibits growth. Both of these effects probably have the same underlying mechanism, which is that cordycepin interferes with how cells make proteins. At low doses cordycepin interferes with the production of mRNA, the molecule that gives instructions on how to assemble a protein. And at higher doses it has a direct impact on the making of proteins.

Professor Janet Allen, BBSRC Director of Research said: “Research to understand the underlying bioscience of a problem is always important. This project shows that we can always return to asking questions about the fundamental biology of something in order to refine the solution or resolve unanswered questions. The knowledge generated by this research demonstrates the mechanisms of drug action and could have an impact on one of the most important challenges to health.”

Source: Eurekalert

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Searching herbs for cancer cures

Schwartz Posted in Chinese Medicine, Herbs,Tags: , , , , , , ,
07 November 2010
0

Curing cancer with natural products – a case for shamans and herb women? Not at all, for many chemotherapies to fight cancer applied in modern medicine are natural products or were developed on the basis of natural substances. Thus, taxanes used in prostate and breast cancer treatment are made from yew trees. The popular periwinkle plant, which grows along the ground of many front yards, is the source of vinca alkaloids that are effective, for example, against malignant lymphomas. The modern anti-cancer drugs topotecan and irinotecan are derived from a constituent of the Chinese Happy Tree.

Looking for new compounds, doctors and scientists are increasingly focusing on substances from plants used in traditional medicine. About three quarters of the natural pharmaceutical compounds commonly used today are derived from plants of the traditional medicine of the people in various parts of the world. The chances of finding new substances with interesting working profiles in traditional medicinal plants are better than in common-or-garden botany.

In his search for active ingredients, Professor Dr. Thomas Efferth of the DKFZ has been concentrating on herbal remedies from traditional Chinese medicine with particularly well documented application range. Working together with colleagues in Mainz and Düsseldorf, Germany, Graz, Austria and Kunming in China, he launched a systematic compound search in 76 Chinese medicinal plants that are believed to be effective against malignant tumors and other growths. First results of this study have now been published.

Extracts from 18 of the plants under investigation were found to substantially suppress the growth of a cancer cell line in the culture dish. “With this success rate of about 24 percent, we are way above the results that could be expected from searching through large chemical substance libraries,” Thomas Efferth explains.

The scientists proceeded to chemically separate, step by step, all active extracts, tracing the active component after each separation step by cell tests. The chemical structure of the compounds is analyzed using nuclear magnetic resonance and mass spectroscopy. “We are combining natural substance research with advanced analytical and molecular-biological methods”, Efferth explains. “Plant constituents that seem particularly promising are immediately subjected to further tests.” Such constituents include, for example, substances derived from the Rangoon Creeper, an ornamental plant with red flowers, or from Red-Root Sage. The latter contains three ingredients with powerful anti-tumor activity. The substances were found to suppress the growth of a specific tumor cell line that is particularly resistant to many commonly used cytotoxins due to overproduction of a transport protein in the cell wall. In contrast, a whole range of standard anti-cancer drugs fail to be effective against this cell.

„We can expect to find many interesting, yet unknown working mechanisms among the chemically highly diverse natural substances. Currently, we are aligning the effectiveness of the substances on 60 different cancer cell lines with the gene activity profiles of these cells. Thus, we can determine the exact gene products that are the cellular targets of our compounds. Thereby, it may be possible to discover whole new Achilles’ heels of the cancer cell,” said Efferth describing the next steps.

Source: Eurekalert

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Scientists develop new cancer-killing compound from salad plant

Schwartz Posted in Herbs, Oncology,Tags: , , , , , , ,
29 October 2010
0

Researchers at the University of Washington have updated a traditional Chinese medicine to create a compound that is more than 1,200 times more specific in killing certain kinds of cancer cells than currently available drugs, heralding the possibility of a more effective chemotherapy drug with minimal side effects.

The new compound puts a novel twist on the common anti-malarial drug artemisinin, which is derived from the sweet wormwood plant (Artemisia annua L). Sweet wormwood has been used in herbal Chinese medicine for at least 2,000 years, and is eaten in salads in some Asian countries.

The scientists attached a chemical homing device to artemisinin that targets the drug selectively to cancer cells, sparing healthy cells. The results were published online Oct. 5 in the journal Cancer Letters.

“The compound is like a special agent planting a bomb inside the cell,” said Tomikazu Sasaki, chemistry professor at UW and senior author of the study.

In the study, the UW researchers tested their artemisinin-based compound on human leukemia cells. It was highly selective at killing the cancer cells. The researchers also have preliminary results showing that the compound is similarly selective and effective for human breast and prostate cancer cells, and that it effectively and safely kills breast cancer in rats, Sasaki said.

Cancer drug designers are faced with the unique challenge that cancer cells develop from our own normal cells, meaning that most ways to poison cancer cells also kill healthy cells. Most available chemotherapies are very toxic, destroying one normal cell for every five to 10 cancer cells killed, Sasaki said. This is why chemotherapy’s side effects are so devastating, he said.

“Side effects are a major limitation to current chemotherapies,” Sasaki said. “Some patients even die from them.”

The compound Sasaki and his colleagues developed kills 12,000 cancer cells for every healthy cell, meaning it could be turned into a drug with minimal side effects. A cancer drug with low side effects would be more effective than currently available drugs, since it could be safely taken in higher amounts.

The artemisinin compound takes advantage of cancer cell’s high iron levels. Artemisinin is highly toxic in the presence of iron, but harmless otherwise. Cancer cells need a lot of iron to maintain the rapid division necessary for tumor growth.

Since too much free-floating iron is toxic, when cells need iron they construct a special protein signal on their surfaces. The body’s machinery then delivers iron, shielded with a protein package, to these signals proteins. The cell then swallows this bundle of iron and proteins.

Artemisinin alone is fairly effective at killing cancer cells. It kills approximately 100 cancer cells for every healthy cell, about ten times better than current chemotherapies. To improve those odds, the researchers added a small chemical tag to artemisinin that sticks to the “iron needed here” protein signal. The cancer cell, unaware of the toxic compound lurking on its surface, waits for the protein machinery to deliver iron molecules and engulfs everything – iron, proteins and toxic compound.

Once inside the cell, the iron reacts with artemisinin to release poisonous molecules called free radicals. When enough of these free radicals accumulate, the cell dies.

“The compound is like a little bomb-carrying monkey riding on the back of a Trojan horse,” said Henry Lai, UW bioengineering professor and co-author of the study.

The compound is so selective for cancer cells partly due to their rapid multiplication, which requires high amounts of iron, and partly because cancer cells are not as good as healthy cells at cleaning up free-floating iron.

“Cancer cells get sloppy at maintaining free iron, so they are more sensitive to artemisinin,” Sasaki said.

Cancer cells are already under significant stress from their high iron contents and other imbalances, Sasaki said. Artemisinin tips them over the edge. The compound’s modus operandi also means it should be general for almost any cancer, the researchers said.

“Most currently available drugs are targeted to specific cancers,” Lai said. “This compound works on a general property of cancer cells, their high iron content.”

The compound is currently being licensed by the University of Washington to Artemisia Biomedical Inc., a company Lai, Sasaki and Narendra Singh, UW associate professor of bioengineering, founded in Newcastle, Wash. for development and commercialization. Human trials are at least several years away. Artemisinin is readily available, Sasaki said, and he hopes their compound can eventually be cheaply manufactured to help cancer patients in developing countries.

Source: Eurekalert

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Ancient Chinese folk remedy packs anti-cancer punch

Schwartz Posted in Chinese Medicine, Herbs,Tags: , , , , , , ,
23 October 2010
0

A group of promising cancer-fighting compounds derived from a substance used in ancient Chinese medicine will be developed for potential use in humans, the University of Washington announced today.

The UW TechTransfer Office has signed a licensing agreement with Chongqing Holley Holdings, a Chinese company, and Holley Pharmaceuticals, its U.S. subsidiary.

The compounds, all developed through the research of UW scientists Henry Lai and Narendra Singh of the Department of Bioengineering and Tomikazu Sasaki of the Department of Chemistry, make use of a substance known as artemisinin, found in the wormwood plant and used throughout Asia since ancient times to treat malaria.

Although the compounds are promising, potential medical applications are still years away, officials say.

“We are very excited about the UW’s discovery and an opportunity to develop an artemisinin-based cancer drug,” Kevin Mak, chief scientist at Holley, said. “The technology is very promising, but it’s in its early stages. Further research and clinical trials are needed.”

The company, located in Chongqing, China, has been in the artemisinin business for more than 30 years, and is a world leader in farming, extracting and manufacturing artemisinin, its derivatives and artemisinin-based anti-malaria drugs, officials say.

Lai said he became interested in artemisinin about 10 years ago. The chemical helps control malaria because it reacts with the high iron concentrations found in the single-cell malaria parasite. When artemisinin comes into contact with iron, a chemical reaction ensues, spawning charged atoms that chemists call “free radicals.” The free radicals attack the cell membrane and other molecules, breaking it apart and killing the parasite.

Lai said he began to wonder if the process might work with cancer, too.

“Cancer cells need a lot of iron to replicate DNA when they divide,” Lai explained. “As a result, cancer cells have much higher iron concentrations than normal cells. When we began to understand how artemisinin worked, I started wondering if we could use that knowledge to target cancer cells.”

Perhaps the most promising of the methods licensed involves the use of transferrin, to which the researchers bind artemisinin at the molecular level. Transferrin is an iron-carrying protein found in blood, and is transported into cells via transferrin receptors on a cell’s surface.

Iron-hungry cancer cells typically have significantly more transferrin receptors on their surface than normal cells, which allows them to take in more of the iron-carrying protein. That, according to Lai, is what seems to make the compound so effective.

“We call it a Trojan horse because a cancer cell recognizes transferrin as a natural, harmless protein and picks up the tagged compound without knowing that a bomb – artemisinin – is hidden inside.”

Once inside the cancer cell, the iron is released and reacts with the artemisinin. That makes the compound both highly toxic and, because of cancer’s rapacious need for iron, highly selective. Surrounding, healthy cells are essentially undamaged.

“Our research in the lab indicated that the artemisinin-tagged transferrin was 34,000 times more effective in selecting and killing the cancer cells than normal cells,” Lai said. “Artemisinin alone is 100 times more effective, so we’ve greatly enhanced the selectivity.”

Source: Eurekalert

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Toad Venom for Cancer Treatment

Schwartz Posted in Chinese Medicine,Tags: , , , , , , ,
20 October 2010
0

HOUSTON – Huachansu, a Chinese medicine that comes from the dried venom secreted by the skin glands of toads, has tolerable toxicity levels, even at doses eight times those normally administered, and may slow disease progression in some cancer patients, say researchers from The University of Texas M. D. Anderson Cancer Center.

The results from the Phase I clinical study, a collaborative research project between M. D. Anderson and Fudan University Cancer Hospital in Shanghai, are reported in the online Early View feature of the journal Cancer. The study marks the first time a formal clinical trial has examined the relationship between huachansu dose and toxicity, although the drug is common in China and approved by the Chinese Food and Drug Administration.

Huachansu is widely used to treat patients with liver, lung, colon and pancreatic cancer at oncology clinics in China. Chinese clinical trials conducted since the 1970s have demonstrated the anti-cancer properties of huachansu, citing total response rates of 10 percent and 16 percent observed in patients with advanced hepatocellular carcinoma and lung cancer, respectively1,2.

“Studying traditional Chinese medicine such as huachansu is new to American research institutions, which have been skeptical and slow to adopt these complementary treatments. However, it is important to understand its potential role in treating cancer,” says Lorenzo Cohen, Ph.D., one of the paper’s authors and director of the Integrative Medicine Program at M. D. Anderson. “We wanted to apply a Western medicine-based approach to explore the role of the toad venom compound in cancer patients and test if it is possible to deliver a more potent dose without raising toxicities or side effects.”

The clinical trial was conducted at the Fudan University Cancer Hospital while M. D. Anderson provided training and ongoing consultation. The institutions collaboratively designed the trial that was approved by both institutional review boards. M. D. Anderson and Fudan University Cancer Hospital signed a sister institution agreement in 2003, creating a framework for research, educational and clinical collaboration.

The typical dose of huachansu used in China is approximately 15 milliliters of drug per meter squared of body mass (mL/m2). In the study, 15 patients with stage III or IV hepatocellular (liver) carcinoma, nonsmall cell lung cancer or pancreatic cancer received one of five dose levels ranging from 10 mL/ m2 up to 90 mL/m2 from January 2005 through July 2006. The treatment was repeated daily for 14 days followed by seven days off (one cycle). After two cycles, most patients received other treatments. Quality control methods were put in place to ensure huachansu of a uniform and consistent lot.

While the dose was up to eight times higher than conventional doses used in China, researchers observed only low toxicities or side effects. Eleven (73 percent) patients had no toxicities greater than the lowest grade measured. Importantly, no significant cardiac toxicity was observed and no significant changes in cancer-related symptoms occurred. Of the 15 patients who completed the treatment, six hepatocellular carcinoma patients (40 percent) had stable disease for a median of six months. One patient had a 20 percent reduction in tumor mass that lasted for more than 11 months.

“Even though we saw no complete or partial response (reduction of disease by 30 percent or more) it is encouraging that the cancer did not progress in a large set of the hepatocellular carcinoma patients,” says Zhiqiang Meng, principal investigator on the trial and an associate professor and deputy chair of the Department of Integrative Oncology at Fudan University Cancer Hospital, “Previous observations from studies conducted in China have shown that huachansu can inhibit tumor cell growth and improve immunologic function3. These findings, coupled with that knowledge, demonstrate the need for further clinical trials of this promising agent.”

A Phase II clinical trial comparing the effects of huachansu combined with gemcitabine (Gemzar®) to gemcitabine and placebo for patients with advanced pancreatic cancer is under way at the Fudan University Cancer Hospital in collaboration with M. D. Anderson.

Source: Eurekalert

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Vanderbilt-Ingram Cancer Center researchers find
ginseng may improve breast cancer outcomes

Schwartz Posted in Acupuncture, Herbs, Oncology,Tags: , , , , , , ,
17 October 2010
5

Ginseng, one of the most widely used herbs in traditional Chinese medicine, may improve survival and quality of life after a diagnosis of breast cancer, according to a recent study by Vanderbilt-Ingram Cancer Center researchers.

The large epidemiological study, led by Xiao-Ou Shu, M.D., Ph.D., was published online recently in the American Journal of Epidemiology.

Ginseng is a slow-growing perennial herb whose roots have been used in traditional Chinese medicine for more than 2,000 years. The two main classes of ginseng – red and white – have different biological effects, according to traditional Chinese medicine theory. White, or unprocessed, ginseng is used over long periods to promote general health, vitality and longevity. Red, or processed, ginseng provides a much stronger effect and is used for short periods to aid in disease recovery.

Both varieties of ginseng contain more than 30 chemicals, called ginsenosides, which have anti-tumor effects in cell culture and animal studies, suggesting that the herbs may provide specific benefits to cancer patients. In fact, ginseng use has been increasing among cancer patients in recent years, particularly in women diagnosed with breast cancer.

However, despite the encouraging laboratory findings, scientific analysis of ginseng’s health benefits in patient populations has been lacking. “There is a lot of skepticism about herbal medicine,” said Shu. “That is why we are taking the observational approach at this time to see whether there is any efficacy. If so, we can go to the next phase. … and eventually go to clinical trials.”

Shu and colleagues assessed the effects of ginseng use in breast cancer survivors as part of a large epidemiological study, the Shanghai Breast Cancer Study, which has followed 1,455 breast cancer patients in Shanghai since 1996. For the current study, Shu and colleagues evaluated breast cancer patients for ginseng use both before and after their diagnosis of breast cancer. All patients who used ginseng had received at least one type of conventional cancer therapy (e.g., surgery, chemotherapy and/or radiotherapy).

Information on ginseng use prior to cancer diagnosis, which was available for every subject, was used to determine whether prior ginseng use predicted survival. At follow up – about three to four years after diagnosis – the researchers asked about ginseng use since diagnosis. That information, which was available only for survivors, was used to look at quality of life measurements – i.e., physical, psychological, social and material well-being.

Before diagnosis, about a quarter of patients (27.4 percent) reported using ginseng regularly. After diagnosis, that percentage jumped to 62.8 percent, the researchers found. They also found significant improvements in both survival and quality of life measures in patients who used ginseng. “When patients used ginseng prior to diagnosis, they tended to have higher survival,” Shu explained. “Ginseng use after cancer diagnosis was related to improved quality of life.”

The findings suggest that ginseng may provide tangible benefits to breast cancer survivors, but there are limitations to the study. The varieties and the methods of ginseng use and the use of other complementary and alternative therapies could not be fully accounted for in the analysis. Also, the quality of life measures exclusively relied on patient self-reporting.

Although side effects of ginseng use were not recorded in this study, Shu warned that the seemingly innocuous root can create problems when improperly used and should be taken with caution. “It’s not a ‘drug’ in terms of being managed by the FDA, but it was used as a drug in traditional Chinese medicine,” she said. “Any drug may have some side effects and may interact with other drugs. So, discuss with your primary care doctor before you decide to take ginseng roots or products.”

Shu hopes to confirm and expand the current findings through continued collection of data in this patient population, from another ongoing study of 4,000 breast cancer patients, and eventually, in randomized clinical trials. Scientific study of complementary and alternative medicines is tricky though, said Shu. “Chinese traditional medicine is very individualized. It gives you different drugs based on your symptoms and your overall health. There is much to be learnt.”

Source: Eurekalert

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Compound from Chinese medicine shows promise in head and neck cancer

Schwartz Posted in Chinese Medicine, Oncology,Tags: , , , , , , ,
10 October 2010
1

ANN ARBOR, Mich. — A compound derived from cottonseed could help improve the effectiveness of chemotherapy at treating head and neck cancer, researchers at the University of Michigan Comprehensive Cancer Center have found.

The findings, which appear in the July issue of the journal Molecular Cancer Therapeutics, could lead to a treatment that provides an effective option to surgically removing the cancer, helping patients preserve vital organs involved in speech and swallowing.

While new treatments in head and neck cancer have allowed some patients to undergo chemotherapy and radiation therapy instead of surgery, this form of cancer is often resistant to chemotherapy. When the cancer does not respond to these powerful drugs, patients must resort to surgery.

“Patients really benefit long-term by avoiding surgery because the side effects of surgery for head and neck cancer can be particularly difficult for patients. It affects how you talk, how you swallow and how you breathe,” says study author Carol Bradford, M.D., professor of otolaryngology at the U-M Medical School and co-director of the Head and Neck Oncology Program at the U-M Comprehensive Cancer Center.

The compound, (-)-gossypol, works to regulate a protein called Bcl-xL that’s overexpressed in cancer cells and makes these cells survive when they shouldn’t. Shaomeng Wang, Ph.D., co-director of the Molecular Therapeutics Program at the U-M Comprehensive Cancer Center, discovered (-)-gossypol, a compound derived from a component of Chinese medicine.

Gossypol comes from cottonseed and was once used in China as a male contraceptive. More recently, it’s been tested as a cancer treatment. Wang found the negative isomer of gossypol binds at a site to block the active Bcl-xL protein. A prior study conducted by researchers in the U-M Head and Neck Oncology Program showed Bcl-xL protein is often highly expressed in head and neck cancers.

In this study, researchers developed head and neck cancer cell cultures resistant to the chemotherapy drug cisplatin, a platinum-based drug frequently used to treat this type of cancer. They found cisplatin killed cells with a mutant form of the protein p53, but cells with normal p53 and high levels of Bcl-xL were resistant. The researchers then treated these cisplatin-resistant cell lines with (-)-gossypol and found that (-)-gossypol induced the drug resistant tumor cells to undergo programmed cell death.

“These cisplatin resistant cells are exquisitely sensitive to (-)-gossypol. We can induce cell death in 70 percent to 90 percent of cells. This is a very impressive induction of cell death. It’s because we are targeting the pathways these cells need to survive,” says study author Thomas Carey, Ph.D., co-director of the Head and Neck Oncology Program at the U-M Comprehensive Cancer Center and a professor in the U-M School of Dentistry and the U-M Medical School.

To test the principle that Bcl-xL and non-mutant p53 determine resistance to cisplatin in head and neck cancer cells, lead study author Joshua Bauer, a U-M graduate student in pharmacology, overexpressed Bcl-xL in tumor cells with mutant or non-mutant p53. Only cells with non-mutant p53 and high Bcl-xL became resistant to cisplatin. Bauer then treated these cells with (-)-gossypol and induced cell death.

To further confirm the importance of Bcl-xL in cisplatin resistance, the researchers used a technique called inhibitory RNA to shut off expression of Bcl-xL in the drug-resistant cells. These cells became sensitive to cisplatin when Bcl-xL was turned off, confirming its role in drug resistance.

“We believe novel agents that target Bcl-xL can improve survival for our patients,” Carey says.

In a previous study published in November 2004 in Clinical Cancer Research, Bradford, Carey and their team treated cell cultures of head and neck squamous cell carcinoma with the (-)-gossypol compound and found it inhibited tumor cell growth. Additional testing in animals was also positive and showed (-)-gossypol did not harm surrounding healthy tissue.

Researchers hope to begin a clinical trial in head and neck cancer patients within a year, testing whether (-)-gossypol can be used along with chemotherapy to create a better response and avoid surgery.

More than 29,000 people will be diagnosed in 2005 with head and neck cancers, which include cancer of the tongue, mouth, throat and voice box.

University of Michigan holds a patent on the negative isomer, (-)-gossypol, and has licensed the technology to Ascenta Therapeutics of San Diego, Calif., for commercial development. Wang is one of three U-M Medical School faculty members who founded the company and has significant financial interest.

Source: Eurekalert

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A Chinese medicine compound has satisfactory anti-cancer effects on hepatocellular carcinoma

Schwartz Posted in Chinese Medicine, Gastrointestinal,Tags: , , , , , , , ,
08 October 2010
1

Traditional Chinese medicine is world renowned. It has supernatural effects on some diseases, but the reason is still unknown. One such article was recently reported in the November 7 issue of the World Journal of Gastroenterology dealing with the great significance of a Chinese medicinal compound, delisheng, for the therapy of HCC and its neoteric research method. The research team was led by Dr. Ke-Jun Nan from The First Affiliated Hospital of The School of Medicine of Xi’an Jiaotong University, China. This research will undoubtedly bring comfort to many researchers and patients.

HCC is a highly malignant tumor with a very high morbidity and mortality. Despite extensive efforts by many investigators, systemic chemotherapy for HCC has been quite ineffective. Delisheng is a Chinese medicinal compound and is often used in conjunction with chemotherapy for HCC, with satisfactory results. The researchers tried to establish the mechanisms for these effects of delisheng on HCC.

Three-dimensional cell culture has been widely used for studying the various molecular processes, because spheroids mimic solid tumors more closely than monolayers. Therefore, the use of three-dimensional culture provides a model for the development of anti-cancer drugs. In this study, cells were cultured with a liquid overlay technique. After the formation of multicellular spheroids, they used the model to perform their experiments.

One conclusion reported by the investigators is that three-dimensional cell culture is suitable for the study of a traditional Chinese medicinal compound, and this may help other researchers to find a better model for drug development. Another interesting conclusion is that delisheng had satisfactory anti-cancer effects on HCC, and these were associated with the up-regulation of endostatin. This was made possible by one of delisheng¡¯s components, ginseng, and this may provide a new method of therapy for HCC.

Thus three-dimensional cell culture has been widely used for studying the various molecular processes and the development of therapy in recent years; this is the first reported finding in which the model can be used for studying traditional Chinese medicine. Furthermore, the view that the satisfactory effects of delisheng were associated with the up-regulation of endostatin made possible by ginseng might inspire other researchers.

The results of this study suggest a promising future for many researchers and HCC patients. First, it provides a new model to study traditional Chinese medicine. Second, it introduces the Chinese medicinal compound delisheng and indicates its further applications.

Source: Eurekalert

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Ancient Chinese medicine may help chemotherapy patients

Schwartz Posted in Chinese Medicine, Gastrointestinal,Tags: , , , , , , , ,
05 October 2010
0

A centuries?old traditional Chinese medicine may reduce the intestinal side effects of chemotherapy in cancer patients by stimulating gut cell division and reducing inflammation, a new study in mice suggests.

The research will appear in the Wednesday, 18 August issue of Science Translational Medicine, which is published by AAAS, the nonprofit science society.

Peonies and a pretty purple flower called skullcap, together with licorice and fruit from a buckthorn tree form Huang Qin Tang (pronounced Hu-ang Chin Tong), an ancient herbal medicine used in China to treat intestinal disorders such as diarrhea, nausea and vomiting. Recently, a Western-style phase 1/2 trial confirmed that this drug reduces gut damage caused by chemotherapy in colon and rectal cancer patients.

In the new study, Yung- Chi Cheng, along with Wing Lam and colleagues from Yale University School of Medicine and a company called PhytoCeutica, Inc. use a carefully prepared, lab formulation of this medicine (called PHY906) and show that the healing effects of this blend of plants arise from its ability to target numerous biological processes in mice.

“The reductionist approach to treating multiple side effects triggered by cancer chemotherapy or complicated disease may not be sufficient. Rigorous studies of the biology of traditional herbal medicines, which target multiple sites with multiple chemicals, could lead to the development of future medicines,” said Cheng.

Dr. Cheng is a scientific founder of and has equity interest in PhytoCeutica, Inc., which develops traditional Chinese medicine into drugs for the treatment of cancer and that licenses PHY906 from Yale University. Additionally, two authors of this paper own stock in PhytoCeutica, Inc. Yale University holds a patent on the herbal composition PHY906 and its use in chemotherapy.

In the study, the researchers treated cancerous mice with chemotherapy, which shrank tumors but also caused massive destruction in the intestinal lining of the animals. After a few days of treatment with PHY906, the medicine restored the damaged intestinal linings in the mice. The team found that stem cell signaling molecules (known as Wnts) were present in higher than normal levels in the guts of the treated mice. Taking a closer look, the researchers discovered that PHY906 itself did not stimulate Wnt signaling, but that mixing PHY906 with a bacterial enzyme common in the gut triggered Wnt signaling, which drives the replacement of damaged intestinal stem cells with healthy ones.

In addition to replenishing healthy gut cells, the herbal medicine blocked the migration of inflammatory cells to the gut and reduced inflammation–effects that seem to be caused by multiple actions of PHY906. These results suggest that traditional Chinese medicine may be a model approach for drug developers, who are eagerly testing combinations of agents in the hope that they hope will work better than any one alone.

“We will continue to refine these processes to better study and understand the sophisticated nature of herbal medicines. Revisiting history may lead us to discovering future medicines,” said Cheng.

PHY906 is currently only available for patients enrolled in a clinical trial. The authors caution that many herbal products claiming to be Huang Qin Tang may contain harmful or ineffective substitutes and should be avoided.

Source: Eurekalert

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