Genentech Announces Positive Results of Avastin Phase III Study in Women with Advanced Ovarian Cancer

Genentech announces positive results of Avastin Phase III study (GOG 218) in women with advanced ovarian cancer. The study showed that women who continued maintenance use of Avastin alone, after receiving Avastin in combination with chemotherapy, lived longer without the disease worsening compared to those who received chemotherapy alone. This is the first Phase III study of an anti-angiogenic therapy in advanced ovarian cancer to meet its primary endpoint.

Tumor angiogenesis is the proliferation of a network of blood vessels that penetrates into cancerous growths, supplying nutrients and oxygen and removing waste products. Tumor angiogenesis actually starts with cancerous tumor cells releasing molecules that send signals to surrounding normal host tissue. This signaling activates certain genes in the host tissue that, in turn, make proteins to encourage growth of new blood vessels. Photo credit: NCI

Genentech, Inc., a wholly owned member of the Roche Group , today announced that a Phase III study showed the combination of Avastin® (bevacizumab) and chemotherapy followed by maintenance use of Avastin alone increased the time women with previously untreated advanced ovarian cancer lived without the disease worsening (progression-free survival or PFS), compared to chemotherapy alone. A preliminary assessment of safety noted adverse events previously observed in pivotal trials of Avastin. Data from the study will be submitted for presentation at the American Society of Clinical Oncology (ASCO) annual meeting, June 4 – 8, 2010.

In the three-arm study, known as Gynecologic Oncology Group (GOG) 0218, women with newly diagnosed advanced ovarian cancer who already had surgery to remove as much of the tumor as possible were randomized to receive one of the following:

• Arm 1: Placebo in combination with carboplatin and paclitaxel chemotherapy followed by placebo alone, for a total of up to 15 months of therapy

• Arm 2: Avastin in combination with carboplatin and paclitaxel chemotherapy followed by placebo alone, for a total of up to 15 months of therapy

• Arm 3: Avastin in combination with carboplatin and paclitaxel chemotherapy followed by the maintenance use of Avastin alone, for a total of up to 15 months of therapy.

The study showed that women who continued maintenance use of Avastin alone, after receiving Avastin in combination with chemotherapy (Arm 3), lived longer without the disease worsening compared to those who received chemotherapy alone. Women who received Avastin in combination with chemotherapy, but did not continue maintenance use of Avastin alone (Arm 2), did not live longer without the disease worsening compared to chemotherapy alone.

“Additional medicines are urgently needed for women with newly diagnosed advanced ovarian cancer, as most women’s cancer will worsen after their initial treatment,” said Hal Barron, M.D., F.A.C.C., Executive Vice President, Global Development and Chief Medical Officer. “We are encouraged by the positive findings of this study, which highlight the importance of continuing maintenance Avastin after combining Avastin with chemotherapy in this setting. We will discuss these results with the U.S. Food and Drug Administration.”

Robert Allen Burger, MD, FACOG, FACS, Fox Chase Cancer Center, Philadelphia, Pennsylvania

“This is good news for women with ovarian, primary peritoneal or fallopian tube cancers,” said GOG 0218 study chair Robert Burger, M.D., Fox-Chase Cancer Center in Philadelphia. “This study showed that after initial surgery, the combination of Avastin and chemotherapy followed by extended treatment with Avastin improves progression-free survival in women with newly diagnosed advanced tumors.”

The trial is sponsored by the National Cancer Institute (NCI) under a Cooperative Research and Development Agreement between the NCI and Genentech, and is being conducted by a network of researchers led by the GOG.

Avastin is being studied worldwide in more than 450 clinical trials for multiple types of cancer, including approximately 25 ongoing clinical trials in the United States for women with various stages of ovarian cancer.

About Ovarian Cancer

According to the American Cancer Society, ovarian cancer is the fifth leading cause of cancer death among American women. In 2009 an estimated 21,500 women were diagnosed with ovarian cancer and approximately 14,500 died from the disease in the U.S. The disease causes more deaths than any other gynecologic cancer, and the American Cancer Society estimates that nearly 70 percent of women with advanced disease will die from it within five years.

Ovarian cancer is associated with high levels of vascular endothelial growth factor (VEGF), a protein associated with tumor growth and spread. Studies have shown a correlation between a high level of VEGF and a poorer prognosis in women with ovarian cancer. Currently, treatment options for women with this disease are limited to surgery and chemotherapy.

About the GOG 0218 Study

GOG 0218 is an international, multicenter, randomized, double-blind, placebo-controlled Phase III study in 1,873 women with previously untreated advanced epithelial ovarian, primary peritoneal or fallopian tube carcinoma. The study evaluates Avastin (5 cycles) in combination with carboplatin and paclitaxel chemotherapy (6 cycles) compared to carboplatin and paclitaxel chemotherapy alone (6 cycles). The trial is also designed to assess the maintenance use of Avastin alone following the initial combined regimen of Avastin and chemotherapy (for a total of up to 15 months of therapy), compared to carboplatin and paclitaxel chemotherapy alone (6 cycles).

The primary endpoint of the study is PFS as assessed by trial investigators. Secondary and exploratory endpoints of the study include overall survival, PFS by independent review, objective response rate, safety, quality of life measures and analysis of patient tumor and blood samples.

Detailed safety assessments are ongoing. A preliminary assessment of safety performed by the GOG identified Avastin-related serious adverse events noted in previous pivotal studies, including fatal neutropenic infection and gastrointestinal perforation. The full study results, including safety information, will be presented at a future medical meeting.

About Avastin

Avastin is a solution for intravenous infusion and is a biologic antibody designed to specifically bind to a protein called VEGF. VEGF plays an important role throughout the lifecycle of the tumor to develop and maintain blood vessels, a process known as angiogenesis. Avastin interferes with the tumor blood supply by directly binding to the VEGF protein to prevent interactions with receptors on blood vessel cells. Avastin does not bind to receptors on normal or cancer cells. The tumor blood supply is thought to be critical to a tumor’s ability to grow and spread in the body (metastasize). For more information about angiogenesis, visit http://www.gene.com.

Boxed WARNINGS and Additional Important Safety Information

People treated with Avastin may experience side effects. In clinical trials, some people treated with Avastin experienced serious and sometimes fatal side effects, including:

Gastrointestinal (GI) perforation: Treatment with Avastin can result in the development of a potentially serious side effect called GI perforation, which is the development of a hole in the stomach, small intestine or large intestine. In clinical trials, this side effect occurred in more people who received Avastin than in the comparison group (0.3 percent to 2.4 percent). In some cases, GI perforation resulted in fatality.

Surgery and wound healing problems: Treatment with Avastin can lead to slow or incomplete wound healing (for example, when a surgical incision has trouble healing or staying closed). In some cases, this event resulted in fatality. Surgery and wound healing problems occurred more often in people who received Avastin than in the comparison group. Avastin therapy should not be started for at least 28 days after surgery and until the surgical wound is fully healed. The length of time between stopping Avastin and having voluntary surgery without the risk of having surgery and wound healing problems following surgery has not been determined.

Severe bleeding: Treatment with Avastin can result in serious bleeding, including coughing up blood, bleeding in the stomach, vomiting of blood, bleeding in the brain, nosebleeds and vaginal bleeding. These events occurred up to five times more often in people who received Avastin. Across cancer types, 1.2 percent to 4.6 percent of people who received Avastin experienced severe to fatal bleeding. People who have recently coughed up blood (greater than or equal to a half teaspoon of red blood) or have serious bleeding should not receive Avastin.

In clinical trials for different cancer types, there were additional serious and sometimes fatal side effects that occurred in more people who received Avastin than in those in the comparison group. The formation of an abnormal passage from parts of the body to another part (non-GI fistula formation) was seen in 0.3 percent or less of people. Severe to life-threatening stroke or heart problems were seen in 2.4 percent of people. Too much protein in the urine, which led to kidney problems, was seen in less than 1 percent of people. Additional serious side effects that occurred in more people who received Avastin than those in the comparison group included severe to life-threatening high blood pressure, which was seen in 5 percent to 18 percent of people, and nervous system and vision disturbances (reversible posterior leukoencephalopathy syndrome), which was seen in less than 0.1 percent of people. Infusion reactions with the first dose of Avastin were uncommon and occurred in less than 3 percent of people and severe reactions occurred in 0.2 percent of people.

Common side effects that occurred in more than 10 percent of people who received Avastin for different cancer types, and at least twice the rate of the comparison group, were nosebleeds, headache, high blood pressure, inflammation of the nose, too much protein in the urine, taste change, dry skin, rectal bleeding, tear production disorder, back pain and inflammation of the skin (exfoliative dermatitis). Across all trials, treatment with Avastin was permanently stopped in 8.4 percent to 21 percent of people because of side effects.

Avastin may impair fertility. Patients who are pregnant or thinking of becoming pregnant should talk with their doctor about the potential risk of loss of the pregnancy or the potential risk of Avastin to the fetus during and following Avastin therapy, and the need to continue an effective birth control method for at least six months following the last dose of Avastin.

For full Prescribing Information and Boxed WARNINGS on Avastin please visit http://www.avastin.com.

About Genentech

Founded more than 30 years ago, Genentech is a leading biotechnology company that discovers, develops, manufactures and commercializes medicines to treat patients with serious or life-threatening medical conditions. The company, a wholly owned member of the Roche Group, has headquarters in South San Francisco, California. For additional information about the company, please visit http://www.gene.com.

About The Gynecologic Oncology Group (GOG)

The Gynecologic Oncology Group is a non-profit organization of more than 300 member institutions with the purpose of promoting excellence in the quality and integrity of clinical and basic scientific research in the field of Gynecologic malignancies. The Group is committed to maintaining the highest standards in the clinical trial development, execution, analysis and distribution of results. Continuous evaluation of our processes is utilized in order to constantly improve the quality of patient care.

GOG receives support from the National Cancer Institute (NCI) of the National Institutes for Health (NIH).

Sources:

• Genentech Announces Positive Results of Avastin Phase III Study in Women with Advanced Ovarian Cancer, Press Release, Genentech, Inc., February 24, 2010.

• A Phase III Trial of Carboplatin and Paclitaxel Plus Placebo Versus Carboplatin and Paclitaxel Plus Concurrent Bevacizumab (NSC # 704865, IND #7921) Followed By Placebo, Versus Carboplatin and Paclitaxel Plus Concurrent and Extended Bevacizumab, in Women With Newly Diagnosed, Previously Untreated, Suboptimal Advanced Stage Epithelial Ovarian, Primary Peritoneal Cancer, or Fallopian Tube Cancer, Gynecologic Oncology Group ( Philip J. DiSaia ) CDR0000455114, GOG-0218,  ClinicalTrials.gov (NCT00262847)[study is ongoing, but not recruiting participants].

Libby’s H*O*P*E* to Present At NOCC 6th Annual Women’s Health Expo (REJUVENATE Finding Balance)

On March 20, 2010, the National Ovarian Cancer Coalition (Maryland Chapter) will hold its 6th Annual Women’s Health Expo entitled, REJUVENATE Finding Balance (NOCC Rejuvenate), at the Sheraton Annapolis Hotel. … On behalf of Libby’s H*O*P*E*™, I will conduct a seminar as part of Session II entitled, A Patient Advocate’s Perspective on the Importance of Ovarian Cancer Awareness and Related On-line Resources.

On March 20, 2010, the National Ovarian Cancer Coalition (Maryland Chapter) will hold its 6th Annual Women’s Health Expo entitled, REJUVENATE Finding Balance (NOCC Rejuvenate), at the Sheraton Annapolis Hotel. NOCC Rejuvenate is sponsored by the National Breast & Ovarian Cancer Connection and Cancer Treatment Centers of America.  Additional funding was also provided through a grant from the Maryland Attorney General Settlement.

NOCC Rejuvenate is designed to appeal to all women who want to rejuvenate their mind, body and spirit. The event is divided into three sessions. Each session offers seven to eight different seminars for attendees. The seminars address a variety of topics including make-up and skin care, going green, photography, plastic surgery, decorating, fashion, finance, retirement solutions, nutrition, fitness, and holistic approaches to wellness. A list of all event seminars is provided below.

Informative seminars about ovarian and breast cancer are offered as part of each session. Knowing the signs and symptoms of ovarian cancer, the screening guidelines for breast cancer, and the basics about hereditary breast and ovarian cancer, could save your life or the life of someone you love.  On behalf of Libby’s H*O*P*E*™, I will conduct a seminar as part of Session II entitled, A Patient Advocate’s Perspective on the Importance of Ovarian Cancer Awareness and Related On-line Resources.  My presentation will address the genesis of the Libby’s H*O*P*E*™ website; highlight critical ovarian cancer awareness information; summarize available online ovarian cancer and cancer-related resources; describe stories of hope involving ovarian cancer survivors and their families; and explain how each individual can make a difference in the fight against ovarian cancer.

NOCC Rejuvenate also targets cancer survivors. The devastating effects of these diseases can rob women of hope and peace. This event will offer an opportunity for survivors to reinvent their self-image and gain more knowledge, offering a sense of hope and a chance to connect with other survivors.

An exhibitor’s area will be offered at the event. This area will include informational tables as well as vendor tables that have been specifically chosen to meet the overarching vision of the event. At the completion of the three event sessions, a nutritious lunch will be served while information is provided on the signs and symptoms of ovarian and breast cancer.

NOCC 6th Annual Women's Health Expo

What:  National Ovarian Cancer Coalition 6th Annual Women’s Health Expo entitled, REJUVENTE Finding Balance (click here to view event brochure, including mail-in registration)

When: Saturday, March 20, 2010 (8:00 A.M. – 3:00 P.M.)

Where: Sheraton Annapolis Hotel, 173 Jennifer Road, Annapolis, Maryland 21401 (driving instructions).

Register: To register online click here.

Contact: Nancy Long (NOCC Maryland Chapter Co-President) at 443-433-2597, or email (click here).

Keynote Speaker:  Yarrow, The Energy Whisperer

Session I Presentations (9:30 A.M. – 10:30 A.M.)

• Treating Cancer By Alternative Medicine
• The Survivors’ Connection
• The Skinny on Fat – Cancer Prevention Naturally
• Interior Design in Difficult Times – Cost Saving Design Solutions
• Relaxation & Healing
• Identifying & Solving the Challenges of Baby Boomer Women
• Cancer and The Healing Power of Forgiveness
  
• Belly Dancing

Session II Presentations (10:45-11:45)

• Dr. Zandra Cheng, Breast Surgeon at Anne Arundel Medical Center
• Hereditary Syndromes That Include Ovarian and Breast Cancers
  
• Facial & Body Rejuvenation
• A Patient Advocate’s Perspective On the Importance of Ovarian Cancer Awareness & Related On-line Resources (Paul Cacciatore, Founder, Libby’s H*O*P*E*™)
• Designing Green Interiors
• Creating Better Images with the Camera You Own
• Some Expert Fashion Tips
• Yoga:  A Balanced Life
• Relaxation & Healing

Session III Presentations (12:00 P.M. – 1:00 P.M.)

• New Advances in Ovarian Cancer (William McGuire, M.D., Medical Director of The Harry & Jeanette Weinberg Cancer Institute at Franklin Square Hospital)
• What is My Daughter’s Chance of Getting My Cancer?
• Planning for your Retirement Lifestyle:  The New Retirement
• Super Health Begins with Super-food Nutrition
• Around the World to Your Backyard
• Balancing Your Life Wheel
• Get Fit & Healthy with the Simple Rules of the Big 3
• Relaxation & Healing
  

About the National Ovarian Cancer Coalition

The mission of the NOCC is to raise awareness and increase education about ovarian cancer. NOCC is committed to improving the survival rate and quality of life for women with ovarian cancer. Through national programs and local Chapter initiatives, the NOCC’s goal is to make more people aware of the early symptoms of ovarian cancer. In addition, the NOCC provides information to assist the newly diagnosed patient, to provide hope to survivors, and to support caregivers. NOCC programs are possible only with the help of its volunteers; committed men and women dedicated to the mission of the NOCC in communities across the country.  For more information go to http://www.ovarian.org/.

About the National Breast & Ovarian Cancer Connection

The mission of the NBOCC is to raise awareness and educate the general public about the link between breast and ovarian cancer. The organization is dedicated to teaching all women about their inherent risks and how to improve their chances of survival through early detection and research developments.  For more information go to http://www.nbocc.org/.

Abbott Labs Seeks FDA 510(k) Clearance For New Automated Ovarian Cancer Detection Test

A new diagnostic tool physicians can use to monitor patients for the most common form of ovarian cancer may soon be available in the United States.

Abbott Laboratories’ ARCHITECT HE4 assay uses a simple blood test to help in monitoring for the recurrence or progression of epithelial ovarian cancer. If approved by the FDA, this important immunoassay would be the first automated HE4 test available in the United States.

A new diagnostic tool physicians can use to monitor patients for the most common form of ovarian cancer may soon be available in the United States.  Abbott Laboratories’ (Abbott’s) ARCHITECT [Human Epididymal Protein 4] HE4 assay uses a simple blood test to help in monitoring for the recurrence or progression of epithelial ovarian cancer. If approved by the U.S. Food & Drug Administration (FDA), this important immunoassay would be the first automated HE4 test available in the United States.

The 2003 Hellstrom et al. study of known ovarian cancer biomarkers found that HE4, which has been detected in high levels in the blood of some ovarian cancer patients, shows the highest sensitivity and specificity of any other marker and is considered the best single marker for stage 1 of the disease.

According to the American Cancer Society, the five-year survival rate of ovarian cancer patients is 46 percent. However, when the disease is diagnosed and treated earlier, the survival rate increases to 93 percent. Less than 20 percent of all ovarian cancer is found in the early stage.

“The ability to monitor the recurrence or progression of ovarian cancer is a critical part of patient care. The ARCHITECT HE4 assay has the potential to be a powerful tool for both physicians and patients in the management of the disease,” said Michael Warmuth, Senior Vice President, Diagnostics, Abbott.

Abbott partnered with Fujirebio Diagnostics, Inc. in the development of the assay. The ARCHITECT HE4 assay is approved for use in Europe, as well as in other countries in Asia Pacific and Latin America. It is currently an investigational device in the United States.

About ARCHITECT HE4 Assay

The ARCHITECT HE4 assay is designed to be used as an aid in monitoring recurrence or progressive disease in patients with epithelial ovarian cancer, and must be used in conjunction with other clinical data. The ARCHITECT HE4 assay should not be used as a cancer screening test. In addition, certain types of cancer (e.g., mucinous or germ cell tumors) rarely express HE4, and the use of the ARCHITECT HE4 assay is not recommended for monitoring patients with those types of cancer.

About Ovarian Cancer

Ovarian cancer is the leading cause of death from gynecological cancers and the fifth-leading cause of cancer death in women. An estimated one in 71 women will develop ovarian cancer in their lifetimes. Women who are postmenopausal are at the greatest risk for ovarian cancer.

About Abbott Diagnostics

Abbott Diagnostics is a global leader in in vitro diagnostics (IVD) and offers a broad range of innovative instrument systems and tests for hospitals, reference labs, blood banks, physician offices and clinics. With more than 69,000 institutional customers in more than 100 countries, Abbott’s diagnostic products offer customers automation, convenience, cost effectiveness and flexibility. The history of Abbott Diagnostics is filled with examples of first-of-a-kind products and significant technological advancements, including the development of the very first diagnostic test to detect HIV.

About Abbott’s Diagnostics Businesses

Abbott is a global leader in in vitro diagnostics and offers a broad range of innovative instrument systems and tests for hospitals, reference labs, molecular labs, blood banks, physician offices and clinics. With more than 69,000 customers in more than 100 countries, Abbott’s diagnostic products offer customers automation, convenience, bedside testing, cost effectiveness and flexibility. Abbott has helped transform the practice of medical diagnosis from an art to a science through the company’s commitment to improving patient care and lowering costs.

About Abbott

Abbott (NYSE: ABT) is a global, broad-based health care company devoted to the discovery, development, manufacture and marketing of pharmaceuticals and medical products, including nutritionals, devices and diagnostics. The company employs more than 72,000 people and markets its products in more than 130 countries.

References:

• Abbott Submits New Automated Ovarian Cancer Test for U.S. Approval – Abbott’s ARCHITECT human epididymis protein 4 (HE4) assay submitted for 510(k) clearance, Press Release, Abbott Laboratories, February 8, 2010.

• Hellström I, Raycraft J, Hayden-Ledbetter M, et. al. The HE4 (WFDC2) protein is a biomarker for ovarian carcinoma. Cancer Res. 2003 Jul 1;63(13):3695-700. PubMed PMID: 12839961.

• What Are the Key Statistics About Ovarian Cancer? Detailed Guide: Ovarian Cancer, American Cancer Society, August 27, 2009.

• Abbott Receives European Regulatory Approval for New Ovarian Cancer Diagnostic Test – Abbott announces CE Mark (Conformité Européene) certification for the ARCHITECT human epididymis protein 4 (HE4) test, Press Release, Abbott Laboratories, January 14, 2010.

• Human Epididymal Protein 4 (HE4) Assay, Information Sheet, Abbott Laboratories. [Adobe Reader PDF doc.]

• FDA 510(k) Clearances – Overview, Device Approvals & Clearances, Products & Medical Procedures, Medical Devices, U.S. Food & Drug Administration, U.S. Department of Health & Human Services.

Additional Information:

Anderson GL, McIntosh M, Wu L, et. al. Assessing lead time of selected ovarian cancer biomarkers: a nested case-control study. J Natl Cancer Inst. 2010 Jan 6;102(1):26-38. Epub 2009 Dec 30. PubMed PMID: 20042715;PubMed Central PMCID: PMC2802285.

Andersen MR, Goff BA, Lowe KA, et. al. Use of a Symptom Index, CA125, and HE4 to predict ovarian cancer. Gynecol Oncol. 2009 Nov 27. [Epub ahead of print] PubMed PMID: 19945742.

Moore RG, McMeekin DS, Brown AK, et. al.  A novel multiple marker bioassay utilizing HE4 and CA125 for the prediction of ovarian cancer in patients with a pelvic mass. Gynecol Oncol. 2009 Jan;112(1):40-6. Epub 2008 Oct 12. PubMed PMID: 18851871.

Hellstrom I, Hellstrom KE. SMRP and HE4 as biomarkers for ovarian carcinoma when used alone and in combination with CA125 and/or each other. Adv Exp Med Biol. 2008;622:15-21. Review. PubMed PMID: 18546615.

Havrilesky LJ, Whitehead CM, Rubatt JM, et. al. Evaluation of biomarker panels for early stage ovarian cancer detection and monitoring for disease recurrence. Gynecol Oncol. 2008 Sep;110(3):374-82. Epub 2008 Jun 27. PubMed PMID: 18584856.

Moore RG, Brown AK, Miller MC, et. al. The use of multiple novel tumor biomarkers for the detection of ovarian carcinoma in patients with a pelvic mass. Gynecol Oncol. 2008 Feb;108(2):402-8. Epub 2007 Dec 3. PubMed PMID:  18061248.

Rosen DG, Wang L, Atkinson JN, et. al. Potential markers that complement expression of CA125 in epithelial ovarian cancer. Gynecol Oncol. 2005 Nov;99(2):267-77. Epub 2005 Aug 2.  PubMed PMID: 16061277.

Drapkin R, von Horsten HH, Lin Y, et. al. Human epididymis protein 4 (HE4) is a secreted glycoprotein that is overexpressed by serous and endometrioid ovarian carcinomas. Cancer Res. 2005 Mar 15;65(6):2162-9. PubMed PMID: 15781627.

Identifying & Overcoming Taxane Drug Resistance

Proteomics study reveals a protein that, when suppressed, makes cancers more susceptible to chemotherapy involving taxane drugs.

Taxanes, a group of cancer drugs that includes paclitaxel (Taxol®) and docetaxel (Taxotere®), have become front-line therapy for a variety of metastatic cancers. But as with many chemotherapy agents, resistance can develop, a frequent problem in breast, ovarian, prostate and other cancers. Now, cancer researchers at Children’s Hospital Boston report a protein previously unknown to be involved in taxane resistance and could potentially be targeted with drugs, making a cancer more susceptible to chemotherapy.

The researchers believe that this protein, prohibitin1, could also serve as a biomarker, allowing doctors to predict a patient’s response to chemotherapy with a simple blood test. The study was published online by the Proceedings of the National Academy of Sciences in its online early edition during the week of January 25.

Bruce Zetter, Ph.D., Charles Nowiszewski Professor of Cancer Biology, Vascular Biology Program, Department of General Surgery, Children's Hospital Boston

The study, led by Bruce Zetter, PhD, of Children’s Vascular Biology Program, used proteomics techniques to compare the proteins present in Taxol-susceptible versus Taxol-resistant human tumor cell lines. The researchers found that the resistant cell lines, but not the susceptible cell lines, had prohibitin1 on their surface. When they suppressed prohibitin1 with RNA interference techniques, the tumor cells became more susceptible to Taxol, both in cell culture and in live mice with implanted Taxol-resistant tumors.

Zetter’s lab is still investigating why having prohibitin1 on the cell surface makes a tumor cell resistant to taxanes. But in the meantime, he believes that not only could prohibitin1 be suppressed to overcome taxane resistance, but that it could also be exploited as a means of targeting chemotherapy selectively to resistant cancer cells.

“We are working to target various cancer drugs to taxane-resistant cells by attaching them to compounds that bind to prohibitin,” Zetter explains. One such compound is already known, and works well in animals to target other prohibitin-rich cells, but has yet to be tested in humans.

Suppressing prohibitin1 alone probably isn’t enough to make a cancer fully Taxol-susceptible, but could be combined with other strategies aimed at increasing taxane susceptibility, such as targeting another protein called GST Pi, the researchers say. Other mechanisms of resistance are known, but they so far haven’t been shown to present effective targets for therapy.

Zetter’s lab is also trying to develop prohibitin1 as a biomarker for taxane resistance that physicians could use in the clinic. Since it’s on the surface of the cell, Zetter believes prohibitin1 may circulate in the blood where it could easily be detected. His lab is in talks with several cancer centers to obtain serum samples from patients who did and didn’t respond to Taxol, so that prohibitin1 levels could be measured and compared.

Zetter notes that prohibitin1 could easily have been overlooked, and was found only because the team happened to look specifically at proteins in the cell membrane, rather than simply doing a whole-cell proteomic analysis.

“The interesting finding was that prohibitin was not just another over-expressed protein,” Zetter says. “It was up-regulated primarily on the cell surface. When we looked at the whole cell, the absolute amount of prohibitin wasn’t changed. Instead, prohibitin was moving from the inside of the cell to the cell surface. It had shifted from one location to another, and when it did, the tumor cells became resistant to taxanes. The fact that it moves to the cell surface also makes it easier to direct drugs to it.”

Children’s Hospital Boston has pending and issued international patents on this technology.  Nish Patel, PhD, was the study’s first author. The study was funded by a grant from the National Institutes of Health.

About Children’s Hospital Boston

Founded in 1869 as a 20-bed hospital for children, Children’s Hospital Boston today is one of the nation’s leading pediatric medical centers, the primary pediatric teaching hospital of Harvard Medical School, and the largest provider of health care to Massachusetts children. In addition to 396 pediatric and adolescent inpatient beds and more than 100 outpatient programs, Children’s houses the world’s largest research enterprise based at a pediatric medical center, where its discoveries benefit both children and adults. More than 500 scientists, including eight members of the National Academy of Sciences, 11 members of the Institute of Medicine and 13 members of the Howard Hughes Medical Institute comprise Children’s research community. For more information about the hospital visit: www.childrenshospital.org/newsroom.

Sources:

• Overcoming Taxane Resistance in Cancer – Proteomics study reveals a protein that, when suppressed, makes cancers more susceptible to chemotherapy, News Release, Children’s Hospital of Boston, January 25, 2010.

• Patel N, Chatterjee SK, Vrbanac V, et. al. Rescue of paclitaxel sensitivity by repression of Prohibitin1 in drug-resistant cancer cells. Proc Natl Acad Sci U S A. 2010 Jan 25. [Epub ahead of print, PMID: 20133800].

Disarming Specialized Stem Cells Might Combat Ovarian Cancer

Eliminating cancer stem cells (CSCs) within a tumor could hold the key to successful treatments for ovarian cancer, which has been notoriously difficult to detect and treat, according to new findings published this week in the journal Oncogene by Yale School of Medicine researchers.

Eliminating cancer stem cells (CSCs) within a tumor could hold the key to successful treatments for ovarian cancer, which has been notoriously difficult to detect and treat, according to new findings published this week in the journal Oncogene by Yale School of Medicine researchers.

“We found that stopping the expression of two genes—Lin28 and Oct4—reduces ovarian cancer cell growth and survival,” said Yingqun Huang, M.D., Ph.D., assistant professor in the Department of Obstetrics, Gynecology & Reproductive Sciences at Yale School of Medicine.

Ovarian cancer is challenging to treat because it tends to recur frequently and develop resistance to treatment. The poor outcome for women with ovarian cancer is associated with subtle and nonspecific symptoms—earning it the moniker the “disease that whispers.”

“This recurrence and drug resistance may be due to the presence of CSCs within the tumors that have the capacity to reproduce and to differentiate into non-CSC tumor cells that repopulate the tumor mass,” said Huang, who is a member of Yale Stem Cell Center and Yale Cancer Center. “Eliminating these CSCs may be key to successful treatments.”

While in the process of studying the functions of stem cell proteins in human embryonic stem cells, Huang and her colleagues unexpectedly discovered that a sub-population of ovarian cancer cells express stem cell proteins Lin28 and Oct4. They also found that the two proteins appear to act together in ovarian cancer tissue cells to produce more advanced tumors. Inhibiting their combined expression led to a significant decrease in the growth and survival of cancer cells. A larger-scale ovarian cancer study is currently underway to confirm the significance of the findings.

Genetic researchers prevent genes from functioning — a process commonly referred to as “knocking down” the gene — by inserting small interfering RNA (siRNA) molecules into the cells. Next, the research team will examine the effect of siRNA in ovarian cancer cells in the lab, and test the technique on mice. If successful, human clinical trials would follow. Treatment on cancer patients could occur within 10 years, Huang said.

“We hope we will soon be able to apply this new information to improve outcomes, perhaps by developing better diagnostic markers and treatment strategies that may be useful in customizing treatment for ovarian cancer patients,” said Huang.

The study was supported by Connecticut Innovations, the Fannie E. Rippel Foundation and the National Cancer Institute.

Other Yale authors on the study included Nita Maihle, Ph.D., and Shuping Peng.

Sources:

• Disarming Specialized Stem Cells Might Combat Deadly Ovarian Cancer, Health & Medicine, Yale Bulletin, Yale University, January 27, 2010.

• Yale Makes Possible Breakthrough in Ovarian Cancer Treatment, by Carolyn Freer, Health News, nbcconnecticut.com, February 1, 2010.

• Peng S, Maihle NJ, Huang Y. Pluripotency factors Lin28 and Oct4 identify a sub-population of stem cell-like cells in ovarian cancer. Oncogene. 2010 Jan 25. (Oncogene advance online publication, doi:10.1038/onc.2009.500. PMID: 20101213).

Removal of Ovarian Cancer Cells From Human Ascites Fluid Using Magnetic Nanoparticles

Scientists at Georgia Tech and the Ovarian Cancer Institute have further developed a potential new treatment against cancer that uses magnetic nanoparticles to attach to ovarian cancer cells, removing them from the body. The treatment, tested in mice in 2008, has now been tested using samples from human ovarian cancer patients. The results appear online in the journal Nanomedicine.

Nanoparticles, in brown, attach themselves to ovarian cancer cells, in violet, from the human abdominal cavity. (Credit: Ken Scarberry/Georgia Tech)

Scientists at Georgia Institute of Technology (Georgia Tech) and the Ovarian Cancer Institute have further developed a potential new treatment against cancer that uses magnetic nanoparticles to attach to ovarian cancer cells, removing them from the body. The treatment, tested in mice in 2008, has now been tested using samples from human ovarian cancer patients. The results appear online in the journal Nanomedicine.

John McDonald Ph.D., Professor & Associate Dean for Biology Program Development, Georgia Institute of Technology; Chief Research Scientist, Ovarian Cancer Institute (Credit: Georgia Tech)

“We are primarily interested in developing an effective method to reduce the spread of ovarian cancer cells to other organs ,” said John McDonald, professor at the the School of Biology at the Georgia Institute of Technology and chief research scientist at the Ovarian Cancer Institute.

The idea came to the research team from the work of Ken Scarberry, then a Ph.D. student at Georgia Tech. Scarberry originally conceived of the idea as a means of extracting viruses and virally infected cells. At his advisor’s suggestion Scarberry began looking at how the system could work with cancer cells.

He published his first paper on the subject in the Journal of the American Chemical Society in July 2008. In that paper he and McDonald showed that by giving the cancer cells of the mice a fluorescent green tag and staining the magnetic nanoparticles red, they were able to apply a magnet and move the green cancer cells to the abdominal region.

Recently, McDonald and Scarberry (currently a postdoctoral fellow in McDonald’s lab) have shown that the magnetic technique works with human ovarian cancer cells.

Ken Scarberry Ph.D., Postdoctoral Fellow, McDonald Laboratory, Georgia Institute of Technology (Credit: Robert Felt, Georgia Tech.)

“Often, the lethality of cancers is not attributed to the original tumor but to the establishment of distant tumors by cancer cells that exfoliate from the primary tumor,” said Scarberry. “Circulating tumor cells can implant at distant sites and give rise to secondary tumors. Our technique is designed to filter the peritoneal fluid or blood and remove these free floating cancer cells, which should increase longevity by preventing the continued metastatic spread of the cancer.”

In tests, they showed that their technique worked as well with capturing ovarian cancer cells from human patient samples as it did previously in mice. The next step is to test how well the technique can increase survivorship in live animal models. If that goes well, they will then test it with humans.

Sources:

• Magnetic Nanoparticles Show Promise For Combating Human Cancer, Press Release, Georgia Institute of Technology, February 1, 2010.

• Scarberry KE, Dickerson EB, Zhang ZJ, Benigno BB, McDonald JF. Selective removal of ovarian cancer cells from human ascites fluid using magnetic nanoparticles. Nanomedicine: Nanotechnology, Biology and Medicine – 07 December 2009 (10.1016/j.nano.2009.11.003).

• Scarberry KE, Dickerson EB, McDonald JF, Zhang ZJ.  Magnetic nanoparticle-peptide conjugates for in vitro and in vivo targeting and extraction of cancer cells. J Am Chem Soc. 2008 Aug 6;130(31):10258-62. Epub 2008 Jul 9. PMID: 18611005.