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Serendipity versus planning-cancer drugs of the future?
March 27, 2006Delegates at the European Breast Cancer Conference (EBCC-5) were given two examples of promising new drugs to watch in the future-raloxifene and lapatinib.
New anticancer drugs are usually developed specially for the job, but occasionally they are borrowed from another field of medicine, and applied speculatively in cancer. Tamoxifen was designed as an anti-oestrogen, based on the observation that at least a third of breast cancers depend on female sex hormones such as oestrogen for survival. Tamoxifen has shown to be an exceptionally effective molecule in cancer treatment; It was never planned to be a preventive agent, but so it has proved to be! It is now licensed to be used to prevent breast cancer in certain women at high risk of the disease.
Contrast this with raloxifene, a drug first developed to treat osteoporosis in women. A selective benzothiophene oestrogen receptor modulator (SERM), raloxifene binds to oestrogen receptors as a mixed oestrogen and anti-oestrogen effect. It functions as an oestrogen sometimes (in bones and on lipid metabolism) and as an anti-oestrogen in other target tissues (endometrium and breast). So, it has the potential for producing some of oestrogen's beneficial effects without producing its adverse effects. In a trial of its use in osteoporosis, it appeared to have another completely different effect, namely prevention of new hormone dependant breast cancers.
Results from the MORE (The Multiple Outcomes of Raloxifene Evaluation) study of 7,705 women that were randomised to raloxifene or placebo demonstrated that among postmenopausal women with osteoporosis, the risk of invasive breast cancer was decreased by 76% during three years of treatment with raloxifene.
Stronger evidence on the safety and efficacy of raloxifene is awaited from the STAR Trial. This trial includes almost 20,000 postmenopausal women in the US who are at increased risk of breast cancer to determine whether raloxifene is as effective in reducing the chance of developing breast cancer as tamoxifen. Women taking raloxifene demonstrated some side effects and in clinical trials have about three times the chance of developing a deep vein thrombosis or pulmonary embolism as women on a placebo, however there is less risk of cancer of the uterus (a serious side effect of tamoxifen).
An example of a molecule causing much interest in breast cancer treatment is lapatinib, which administered orally. It was designed to hit a subset of the popular Epidermal Growth Factor Receptors (EGFR), which are targeted by other successful agents such as trastuzamab (Herceptin), cetuximab (Erbitux) and gefitinib (Iressa). The first two are monoclonal antibodies, against ErbB2 and ErbB1 respectively, the third is a 'designer' drug. Trials of the combination of antibodies have been promising, so the development of lapatinib to block both receptors via their tyrosine kinase portions is giving rise to optimism. It is a small molecule, like gefitinib, and may have pharmacological advantages over the antibody formulations, such as penetrating the blood-brain barrier.
Early clinical trials with lapatinib suggest that it may hit cancer cells, resistant to other commonly used breast cancer drugs, and to the other EGFR targeting agents, including trastuzamab. Its activity as a single agent is modest, but combination trials already underway are looking promising enough to start randomised comparative large scale investigation. Side effects reported so far suggest a good safety profile, though skin rash, lung and heart effects seen with other members of the drug class will be monitored carefully in the next generation of trials. And, following the example of tamoxifen, it is being tested as a chemo-preventive too.
Dr F. Cardoso from the Jules Bordet Institute, Brussels, who is involved in the drug research comments, "Raloxifene and lapatinib are exciting new drugs which will be of interest in prevention and treatment of breast cancer patients in the future."
Federation of European Cancer Societies
Results from the MORE (The Multiple Outcomes of Raloxifene Evaluation) study of 7,705 women that were randomised to raloxifene or placebo demonstrated that among postmenopausal women with osteoporosis, the risk of invasive breast cancer was decreased by 76% during three years of treatment with raloxifene.
Stronger evidence on the safety and efficacy of raloxifene is awaited from the STAR Trial. This trial includes almost 20,000 postmenopausal women in the US who are at increased risk of breast cancer to determine whether raloxifene is as effective in reducing the chance of developing breast cancer as tamoxifen. Women taking raloxifene demonstrated some side effects and in clinical trials have about three times the chance of developing a deep vein thrombosis or pulmonary embolism as women on a placebo, however there is less risk of cancer of the uterus (a serious side effect of tamoxifen).
An example of a molecule causing much interest in breast cancer treatment is lapatinib, which administered orally. It was designed to hit a subset of the popular Epidermal Growth Factor Receptors (EGFR), which are targeted by other successful agents such as trastuzamab (Herceptin), cetuximab (Erbitux) and gefitinib (Iressa). The first two are monoclonal antibodies, against ErbB2 and ErbB1 respectively, the third is a 'designer' drug. Trials of the combination of antibodies have been promising, so the development of lapatinib to block both receptors via their tyrosine kinase portions is giving rise to optimism. It is a small molecule, like gefitinib, and may have pharmacological advantages over the antibody formulations, such as penetrating the blood-brain barrier.
Early clinical trials with lapatinib suggest that it may hit cancer cells, resistant to other commonly used breast cancer drugs, and to the other EGFR targeting agents, including trastuzamab. Its activity as a single agent is modest, but combination trials already underway are looking promising enough to start randomised comparative large scale investigation. Side effects reported so far suggest a good safety profile, though skin rash, lung and heart effects seen with other members of the drug class will be monitored carefully in the next generation of trials. And, following the example of tamoxifen, it is being tested as a chemo-preventive too.
Dr F. Cardoso from the Jules Bordet Institute, Brussels, who is involved in the drug research comments, "Raloxifene and lapatinib are exciting new drugs which will be of interest in prevention and treatment of breast cancer patients in the future."
Federation of European Cancer Societies
Cancer Drugs Current Events and Cancer Drugs News RSSNew imagining technique could lead to better antibiotics and cancer drugs
A recently devised method of imaging the chemical communication and warfare between microorganisms could lead to new antibiotics, antifungal, antiviral and anti-cancer drugs, said a Texas AgriLife Research scientist.
Taking aim at mysterious DNA structures in the battle against cancer
Designers of anti-cancer drugs are aiming their arrows at mysterious chunks of the genetic material DNA that may play a key role in preventing the growth and spread of cancer cells, according to an article in the current issue of Chemical & Engineering News, ACS' weekly newsmagazine.
Duke develops nano-scale drug delivery for chemotherapy
Going smaller could bring better results, especially when it comes to cancer-fighting drugs.
Next-generation microcapsules deliver 'chemicals on demand'
Scientists in California are reporting development of a new generation of the microcapsules used in carbon-free copy paper, in which capsules burst and release ink with pressure from a pen.
Sensor biochips could aid in cancer diagnosis and treatment
It is very difficult to predict whether a cancer drug will help an individual patient: only around one third of drugs will work directly in a given patient.
Melanoma treatment options 1 step closer
A targeted chemotherapy for the treatment of skin cancer is one step closer, after a team of University of Alberta researchers successfully synthesized a natural substance that shows exceptional potential to specifically treat this often fatal disease.
Experts issue call to reconsider screening for breast cancer and prostate cancer
Twenty years of screening for breast and prostate cancer - the most diagnosed cancer for women and men - have not brought the anticipated decline in deaths from these diseases, argue experts from the University of California, San Francisco and the University of Texas Health Science Center at San Antonio in an opinion piece published in the "Journal of the American Medical Association."
Metals could forge new cancer drug
Drugs made using unusual metals could form an effective treatment against colon and ovarian cancer, including cancerous cells that have developed immunity to other drugs, according to research at the University of Warwick and the University of Leeds.
Studying cancer in pet dogs to find new treatments for human patients
A team of scientists at the National Cancer Institute (NCI) in Bethesda, USA, says that studying pet dogs with cancer could yield valuable information on how to diagnose and treat human cancers.
KEAP1 Keeps major cancer-promoting protein at bay
A tumor-suppressing protein snatches up an important cancer-promoting enzyme and tags it with molecules that condemn it to destruction, a research team led by scientists at The University of Texas M. D. Anderson Cancer Center reports this week in the journal Molecular Cell.
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