Thursday, April 17, 2014

Cancer treatment revolution potential with new drug

A new study at the University of Warwick, published today in the journal Angewandte Chemie International Edition, has developed a new drug that can manipulate the body's natural signalling and energy systems, allowing the body to attack and shut down cancerous cells.

Called ZL105, the drug is a compound based on the precious metal iridium (organoiridium(III) complex [(η5-Cpxbiph)Ir(phpy)(Cl)]). The study has found ZL105 could potentially replace currently used anticancer drugs, which become less effective over time, cause a wide-range of side-effects and damage healthy cells as well as cancerous.

Commenting on the breakthrough, University of Warwick researcher and study co-author Dr Isolda Romero-Canelon said "The energy-producing machinery in cancer cells works to the limit as it attempts to keep up with quick proliferation and invasion. This makes cancer cells susceptible to minor changes in the cell 'power-house'. Our drug pushes cancer cells over the limit causing them to slow and shut down, whilst normal cells can cope with its effects."

Preliminary data indicate that the novel drug may be ten times more effective in treating ovarian, colon, melanoma, renal, and some breast cancers, according to data obtained by the US National Cancer Institute. The researchers now aim to expand the study to cancers that are inherently resistant to existing drugs and to those which have developed resistance after a first round of chemotherapy treatments.

Study co-author Professor Peter J. Sadler said "Existing cancer treatments often become less effective after the first course, as cancer cells learn how they are being attacked. The drug we have developed is a catalyst and is active at low doses. It can attack cancer cells in multiple ways at the same time, so the cancer is less able to adapt to the treatment. This means the new drugs could be much more effective than existing treatments."

"Platinum-based drugs are used in nearly 50% of all chemotherapeutic regimens, exert their activity by damaging DNA and cannot select between cancerous and non-cancerous cells, leading to a wide-range of side-effects from renal failure to neurotoxicity, ototoxicity, nausea and vomiting.

"In contrast, the new iridium-based drug is specifically designed not to attack DNA, but to have a novel mechanism of action, meaning that it could not only dramatically slow down and halt cancer growth, but also significantly reduce the side effects suffered by
patients" argues Professor Sadler.

This research could also lead to substantial improvements in cancer survival rates. "Current statistics indicate that one in every three people will develop some kind of cancer during their life time, moreover approximately one woman dies of ovarian cancer every two hours in the UK according to Cancer Research UK .It is clear that a new generation of drugs is necessary to save more lives and our research points to a highly effective way of defeating cancerous cells" said Dr Romero-Canelon.

Wednesday, April 16, 2014

Natural plant compounds may assist chemotherapy

Plant compounds present in carrots and  parsley  may  one   day support  more  effective

delivery  of  chemotherapy  treatments,  new  research  has  found. Specific plant compounds are able to inhibit transport mechanisms in the body that select what

compounds are absorbed into the body, and eventually into cells.  These same transport 
mechanisms are known to interfere with cancer chemotherapy treatment.





Tuesday, April 15, 2014

Adult cancer drugs show promise against an aggressive childhood brain tumor

Researchers relied on mice with group 3 medulloblastoma grown from patient tumors. The mice were developed in Roussel’s laboratory and are a powerful tool for testing the effectiveness of drugs against human tumors. Researchers used the mice to show that pemetrexed and gemcitabine worked against human group 3 tumors and that the drugs could be used in combination with existing chemotherapy agents to boost treatment effectiveness without undue risk. Cisplatin and cyclophosphamide were the other drugs used in this study.
“The finding provides a strong rationale for combination therapy with pemetrexed and gemcitabine for treatment of group 3 medulloblastoma,” Roussel said. Researchers found no evidence that mouse tumor cells develop resistance to the drugs.

Pemetrexed works by disrupting the ability of cancer cells to proliferate. Gemcitabine kills cells by triggering their suicide pathway. Researchers also found evidence the drugs work specifically against group 3 medulloblastoma. The drugs did not extend survival of mice with a different medulloblastoma subtype.
The study builds on previous St. Jude research that has helped to revolutionize understanding of the origins of medulloblastoma and laid the foundation for a new era of risk-based therapy. The goal is to maximize the likelihood of a cure and minimize long-term side effects. The approach combines clinical factors and the molecular markers associated with the different medulloblastoma subtypes to guide how radiation and chemotherapy are combined with surgery.

Monday, April 14, 2014

New combination drug therapy proves very effective in hepatitis C treatments

A new 12-week single tablet regimen of ledipasvir and sofosbuvir have proven to be highly effective in treating a broad range of patients with HCV genotype 1, a form of the virus found in up to 75 percent of infections, according to results unveiled today at the European Association for the Study of the Liver and published simultaneously online by the New England Journal of Medicine.




Between 94 percent and 99 percent of patients were cured of hepatitis C and results were similar in patients who have never been treated and for those who had previously been treated with a combination of peginterferon and ribavirin, the current course that carries sometimes significant side effects.
“Eliminating interferon and ribavirin from treatment regimens is expected to reduce the incidence and severity of adverse events, to simplify the treatment of patients with HCV infection and to provide an option for patients who are ineligible for the current interferon-based treatments,” said Nezam Afdhal, MD, the senior author of the studies, Director of the Liver Center at Beth Israel Deaconess Medical Center and a Professor of Medicine at Harvard Medical School.
Hepatitis C is an infectious disease primarily affecting the liver and which can lead to scarring and cirrhosis and is transmitted primarily through blood transfusions (prior to 1991), intravenous drug use, poorly sterilized medical equipment and sexual transmission.. After exposure 80 percent of patients develop a chronic hepatitis which can lead to cirrhosis, liver failure and liver cancer and hepatitis C is the most common cause for liver transplantation in the US.
Prior treatments have been with interferon which is an injectable cytokine released in response to viral infections. Interferon is combined with other antiviral agents and needs to be used for up to 48 weeks to cure hepatitis C. but is associated with number of side effects, including influenza-like symptoms depression and anemia. Many patients are ineligible for these interferon-based therapies.
“The real advances seen in the Ion trials is that the sofosbuvir-ledipasvir combination tablet enables us to treat almost all genotype 1 patients with a short duration of 8-12 weeks of treatment expanding the treatment pool and increasing the overall cure rate,” said Afdhal.

Friday, April 11, 2014

Statins could ease coughing in lung disease patients, study finds -- ScienceDaily

In continuation of my update on Statins


Common cholesterol-lowering drugs could provide relief to patients suffering from a chronic lung disease, a study has shown. The drugs -- known as statins -- were found to help alleviate the chronic coughing associated with the disease for some patients.

Friday, April 4, 2014

Researchers develop new eco repellent that stops mosquitoes from attacking humans



In the battle against malaria researchers at the University of Neuchâtel (Switzerland) have developed a new eco repellent that stops mosquitoes from attacking humans. A new mixture of extracted essential oils seems to be as effective in keeping off mosquitoes as common repellents like Deet for example. The advantage of the new substance: it is fully biodegradable and therefore comes also with fewer side effects.

The Swiss scientists who were conducting their studies within the European research project “ENAROMaTIC” are convinced that their discovery is just the beginning of a new wave of breakthroughs in this field. In the future, natural extracts of essential oils could play an important role in limiting the number of victims caused by disease-carrying insect vectors.



Thursday, April 3, 2014

Research produces strong evidence for new class of antidepressant drugs | The University of Manchester

Galanin is a neuropeptide (a small protein) that was discovered and investigated over 30 years ago by various groups including the Swedish scientist Tomas Hokfelt. He is one of the senior authors of the paper published in the journal PNAS.
Professor Hokfelt and others made the fundamental discovery that neurones can release peptides alongside their classical transmitters and that galanin and noradrenaline are one such pair. Both have long been implicated in pain and stress and therefore depression but in the past it had been difficult to study peptides in humans.
The new research by scientists from Sweden, Hungary and the UK demonstrates that galanin is an important stress mechanism in the human brain that influences how sensitive or resilient people are to psychosocial stress.
Lead author Gabriella Juhasz, who is a Research Fellow at the University of Manchester and the Semmelweis University in Budapest, said: “Our research shows that some versions of the gene coding for galanin protect against the risk of depression and anxiety but only in people who have experienced early life neglect or trauma, or recent adverse events.
“Furthermore, the three genes for the three receptors through which galanin acts also influence the risk of depression in people experiencing early or recent life adversity. Crucially, all the galanin related genes are widely separated on different chromosomes and the odds are stacked against four random genes acting in the same way by chance.”
Results from the research indicate that although the results are statistically reliable, galanin effects modify the substantial effects of stress by only a few percent. Indeed the moderate overall genetic influence (about 35%) on depression is likely to be mediated by many small genetic effects interacting with each other and with psychosocial factors converging on stress mechanism in brain.
Co-author Professor Bill Deakin, from the University of Manchester, said: “The findings provide a strong reason to develop drugs that modify galanin functioning as a new class of antidepressant drug. And new drugs are badly needed as almost all commonly prescribed antidepressants act on serotonin and they are often not very effective.
“Our research confirms what previous reports have shown about the variation in the serotonin ‘transporter’ gene and how it influences the risk of depression. We found that the galanin effects are substantially greater than the effects of serotonin.”

Research produces strong evidence for new class of antidepressant drugs | The University of Manchester

Tuesday, April 1, 2014

Researchers develop potentially safer and more cost-effective therapeutics against West Nile virus

An international research group led by Arizona State University professor Qiang "Shawn" Chen has developed a new generation of potentially safer and more cost-effective therapeutics against West Nile virus and other pathogens.

The therapeutics, known as monoclonal antibodies (MAbs), and their derivatives were shown to neutralize and protect mice against a lethal dose challenge of West Nile virus - even as late as four days after the initial infection.

"The overarching goal of our research is to create an innovative, yet sustainable and accessible low-cost solution to combat the global threat of West Nile virus," said Chen, a researcher at Arizona State University's Biodesign Institute.

West Nile virus is spread by infected mosquitoes, and targets the central nervous system. It can be a serious, life-altering and even fatal disease, and currently, there is no cure or drug treatment against West Nile virus, which has been widely spread across the U.S., Canada, Latin America and the Caribbean.

"The goal of this latest research was twofold," said Chen. "First, we wanted to show proof-of-concept, demonstrating that tobacco plants can be used to manufacture large and complex MAb-based therapeutics. Second, we've wanted to improve the delivery of the therapeutic into the brain to combat West Nile virus at the place where it does the greatest harm."


Nasal spray delivers new type of depression treatment -- ScienceDaily