Archive for April, 2011

Accessing Nuclear Receptors with ActiTarg-N

Last Updated on Monday, 25 April 2011 03:04 Written by Editor Monday, 25 April 2011 03:04

TimTec adds new targeted library to its ActiTarg Series. ActiTarg-N gathers 1040 nuclear receptors ligands analogs. Nuclear receptors are inside-cell proteins that regulate gene transcription and affect wide range of biological functions throughout organism normal and pathological development. These are the super-family of 48 structurally related transcription factors that can be regulated by small molecules. The search for the small molecule or its defining features is one of the priorities of contemporary life-science R&D.

TimTec uses “focused diversity” approach in designing the screening collection of nuclear receptor ligands analogs. Analogs compound pool started with about ninety “de-fragmented” known ligands. The following targets were primarily considered in the design: ER, estrogen receptor and estrogen related receptor; AR, androgen receptor; GRR, glucocorticoid receptor; RAR, retinoic acid receptor; THR, thyroid hormone receptor; VDR, vitamin D receptor; FXR, Farnesoid X Receptor; PPARa/y, Peroxisome proliferator-activated receptors; LXR, liver X receptor; CCR5, C-C chemokine receptor type 5; MRR, mineralocorticoid; PR, progesterone receptor; CAR, Constitutive androstane receptor.

TimTec stock was scanned to identify molecules with the same known ligands fragments, which re-assembled themselves in the new combinations of chemical possibilities. Additional computational manipulations drew in more compounds with overall structural similarity to known molecules. As a result ActiTarg-N presents desirable chemical diversity with the sharp focus on the target group.

Contact for more information and free consultation scheduling:

TimTec LLC
Harmony Business Park A-301
Newark DE 19711
Tel 302 292 8500
Fax 302 292 8520
info@timtec.net

Web: http://www.timtec.net/actitarg-n-nuclear-receptor-ligands.html

About TimTec

TimTec LLC is a privately held company located in Newark Delaware, USA. It was founded in 1995 and began its work in the areas of acquisition and distribution of synthetic organic and natural compounds, custom synthesis, and laboratory equipment to become a full service partner for drug discovery. TimTec has developed strong in-house expertise in the design of screening products to offer full line of libraries and compound sets of various specialization for different in capacity/size and purpose assays.

TimTec compound collections offer greater diversity since the company has balanced combination of in-house synthesis and outside sourcing. TimTec compounds are stored in dry form only and are freshly prepared in DMSO to orders. The company does compound management and custom formatting. Global customers include major pharmaceutical, biotech, agricultural, and educational organizations that use TimTec products and services for research and development programs.

http://www.timtec.net/

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Aviir opens new cardiac clinical lab in Irvine

Last Updated on Wednesday, 6 April 2011 09:56 Written by admin Wednesday, 6 April 2011 09:56

Aviir has launched a new clinical laboratory in Irvine in an effort to improve cardiovascular disease prevention and management of related conditions, including diabetes.

The 16,700-square-foot facility currently houses 22 employees, and the medical firm plans to grow that number to 115 over the next year. More than half of those staffers will be proficient in laboratory sciences and information technology. They will support Aviir’s work to provide physicians with the tools and information to reduce the chance of heart disease and lower medical costs, among other goals, according to the company.

“There is currently a significant yet unmet clinical need in the medical community for more effective ways to identify individuals at high risk of a heart attack who are missed by current evaluation methods,” said Douglas Harrington, M.D., CEO of Aviir. “Providing an accurate assessment of the patient’s overall heart health is the first step in prevention of cardiovascular disease.”

The new facility is Clinical Laboratory Improvement Amendments (CLIA) certified, and will provide a proprietary test that identifies high-risk patients by measuring rare blood markers of vascular inflammation later this year, as well as other cardiac lab and heart disease gene analyses. The space also offers risk assessment and therapeutic monitoring of insulin resistance, metabolic syndrome, peripheral arterial disease and stroke.

Founded in 2005, Aviir is a privately held company that develops and markets diagnostic and predictive cardiovascular tests.

“At Aviir, our ultimate goal is to help physicians identify those patients who are at serious risk of experiencing a heart attack but are completely unaware of their precarious condition,” said Harrington. “Armed with better information, physicians will be able to tailor more individualized treatment plans with the goals of improving patient therapeutic compliance, reducing their risk of heart attacks, and decreasing the overall cost of care.”

Source: http://www.ocmetro.com/t-aviir_cardiac_clinical_lab_irvine_04052011.aspx

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Soy food safe for breast cancer

Last Updated on Wednesday, 6 April 2011 09:46 Written by admin Wednesday, 6 April 2011 09:46

A new study has revealed that soy food consumption does not increase the risk of cancer recurrence or death among survivors of breast cancer.

Researchers investigated the association between soy food intake and breast cancer outcomes among survivors, using data from a multi-institution collaborative study, the After Breast Cancer Pooling Project.

“There has been widespread concern about the safety of soy food for women with breast cancer,” said lead researcher Xiao Ou Shu, professor of medicine at Vanderbilt Epidemiology Center, Vanderbilt University Medical Center.

“Soy foods contain large amounts of isoflavones that are known to bind to estrogen receptors and have both estrogen-like and anti-estrogenic effects.”

“There are concerns that isoflavones may increase the risk of cancer recurrence among breast cancer patients because they have low estrogen levels due to cancer treatment.

“We’re particularly concerned that isoflavones may compromise the effect of tamoxifen on breast cancer treatment because both tamoxifen and isoflavones bind to estrogen receptors,” he said.

Together study included 18,312 women between the ages of 20 and 83 years who had invasive primary breast cancer.

Soy isoflavones intake was assessed for 16,048 of these women on average of 13 months after breast cancer diagnosis using food frequency questionnaires for a group of soy isoflavones in three cohorts and on tofu and soy milk consumption in one cohort.

Breast cancer outcomes were assessed, on average, nine years after cancer diagnosis.

Outcomes among the survivors who consumed the highest amounts of soy isoflavones (more than 23 mg per day) were compared with the outcomes of those whose intake was lowest (0.48 mg per day or lower).

Women in the highest intake category of more than 23 mg per day had a 9 per cent reduced risk of mortality and a 15 per cent reduced risk for recurrence, compared to those who had the lowest intake level.

“Our results indicate it may be beneficial for women to include soy food as part of a healthy diet, even if they have had breast cancer,” said Shu.

The study was presented at the AACR 102nd Annual Meeting 2011, held April 2-6.

Source: http://timesofindia.indiatimes.com/life-style/health-fitness/health/Soy-food-safe-for-breast-cancer/articleshow/7884289.cms

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UPDATE 1-US panel says Optimer’s antibiotic effective

Last Updated on Tuesday, 5 April 2011 02:51 Written by admin Tuesday, 5 April 2011 02:51

Optimer Pharmaceuticals Inc’s (OPTR.O) experimental antibiotic is safe and effective in treating a bacterial infection that causes diarrhea, a U.S. advisory panel said on Tuesday.

The advisory panel of 13 independent experts voted unanimously that the drug was effective but said there were concerns regarding the drug’s use in pregnant women and children.

However, the panel was divided on whether the oral drug, fidaxomicin, was also effective in lowering the risks of recurrence of infection-related diarrhea.

Last week, the U.S. Food and Drug Administration staff said the drug was effective in fighting an infection that causes a life-threatening diarrhea. [ID:nN01111028]

The FDA is expected to give its decision on the drug by May 30. A positive vote by the panel does not guarantee an approval, but the agency usually follows panel recommendations.

The drug aims to treat diarrhea caused by C. difficile infection (CDI,) a serious illness caused by infection of the lining of the colon. It afflicts more than 700,000 people each year in the United States, according to the company.

Late-stage trials of the drug had shown that it was as effective as the only FDA-approved drug for treating CDI — ViroPharma Inc’s (VPHM.O) Vancocin.

Optimer has a deal with Japan’s Astellas Pharma Inc (4503.T) on the drug. Astellas holds the rights to develop and sell the drug in Europe and parts of the Middle East and Africa.

Trading in the company’s shares was halted pending news of the panel’s decision.

Source: http://www.reuters.com/article/2011/04/05/optimerpharma-idUSN0515361620110405

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Higher bleeding risk seen in J&J, Bayer clot drug

Last Updated on Tuesday, 5 April 2011 02:44 Written by admin Tuesday, 5 April 2011 02:44

A blood clot preventer from Johnson & Johnson and Bayer caused a surprisingly high rate of bleeding in a trial of patients with acute illnesses, representing a significant setback for the drugmakers.

Bayer AG shares fell 3.6 percent in Frankfurt on Tuesday. J&J slid 0.6 percent on the New York Stock Exchange.

Industry analysts had predicted the trial of the drug rivaroxaban, if successful, would create a potential $2.8 billion annual market among the study’s population of patients who are susceptible to blood clots while hospitalized for illnesses such as cancer and pneumonia.

“This will surely impact the chances of admission of the drug and is a serious disappointment,” said Markus Huber, a senior trader at ETX Capital, adding that it could have financial repercussions for Bayer.

A lead investigator for earlier North American trials of rivaroxaban in patients getting knee replacements also took a pessimistic view of the new data.

“The data today would not be approvable …. Why approve something with no overall benefit” for patients like those in the trial, said Alexander Turpie, professor of medicine at McMaster University in Hamilton, Ontario.

Turpie and industry analysts said the results do not preclude other big opportunities for the drug, which is already sold in Europe by Bayer under the brand name Xarelto to prevent blood clots in patients undergoing hip and knee surgery.

The drugmakers are developing the pill to prevent stroke in patients with an irregular heartbeat called atrial fibrillation. Analysts see that market having the potential for $3 billion in annual sales.

“There is disappointment given the recent (Bayer) share price rally and expectations that this was going to start off a positive run of news flow,” said Emmanuel Papadakis at Collins Stewart in London. “But this is a small subset of Xarelto’s total market opportunities.”

Development of new blood clot preventers has been one of the hottest areas in cardiology. Several pharmaceutical companies are vying to come up with a drug of choice to displace decades-old warfarin and other medicines.

Potential rivals to rivaroxaban include apixaban by Pfizer Inc and Bristol-Myers Squibb, edoxaban from Japan’s Daiichi Sankyo and Pradaxa, already being sold by privately held Boehringer Ingelheim.

BLEEDING RISK

The 8,101-patient study released on Tuesday compared the bleeding risk and effectiveness of rivaroxaban with that of the standard injectable treatment enoxaparin in patients hospitalized for acute medical conditions, including heart failure, infectious disease and breathing difficulty.

Injections of enoxaparin, sold by Sanofi-Aventis under the brand name Lovenox, are typically given in the hospital, with treatment lasting no more than two weeks.

After 10 days of treatment in the study, rivaroxaban and enoxaparin were deemed equally effective in preventing dangerous blood clots in the extremities and in the lungs.

But patients taking the J&J drug had a significantly higher rate of bleeding at both 10 and 35 days, which researchers said was a surprising finding that negated the value of the drug for this patient population.

“We did not see a consistently positive benefit-risk balance with rivaroxaban use,” said lead researcher Alexander Cohen of King’s College Hospital in London.

Some 2.8 percent of patients taking rivaroxaban had clinically relevant bleeding at 10 days, compared with 1.2 percent of those receiving enoxaparin — a difference that was highly statistically significant.

At 35 days, 4.1 percent of the rivaroxaban group experienced bleeding, compared with 1.7 percent taking enoxaparin.

Peter DiBattiste, vice president of cardiovascular development for J&J, said the company will conduct additional analyses to see if rivaroxaban can be used more selectively in patients hospitalized with acute medical illness.

He noted the J&J/Bayer drug had similar bleeding risk to enoxaparin in a group of earlier studies involving patients undergoing orthopedic surgery.

Source: http://www.reuters.com/article/2011/04/05/us-heart-rivaroxaban-idUSTRE7343CV20110405

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Michigan develops its first disease specific embryonic stemcell lines

Last Updated on Monday, 4 April 2011 10:14 Written by admin Monday, 4 April 2011 10:14

Researchers at the University of Michigan have created the state’s first human embryonic stem cell lines that carry the genes responsible for inherited disease. The achievement will enable university scientists to study the onset and progression of genetic disorders and to search for new treatments.

With this accomplishment, the U-M joins a small handful of U.S. universities that are creating disease-specific human embryonic stem cell lines.

“All our efforts are finally starting to bear fruit,” says Gary Smith, co-director of the U-M Consortium for Stem Cell Therapies and leader of the cell-line derivation project. “Creating disease-specific human embryonic stem cell lines has been a central goal of the consortium since it was formed two years ago, and now we’ve passed that milestone.”

One of the lines carries the genetic defect that causes hemophilia B, a hereditary condition in which the blood does not clot properly. The other carries the gene responsible for Charcot-Marie-Tooth disease, a hereditary neurological disorder characterized by a slowly progressive degeneration of the muscles in the foot, lower leg and hand.

If embryos are created for reproductive purposes but are found to be unsuitable for that use because they carry disease, Michigan law allows those embryos to be donated for research instead of discarded. At that stage of development, the donated embryos consist of a cluster of cells about the size of the period at the end of this sentence.

“These are the first of many disease-specific human embryonic stem cell lines that researchers at the U-M Consortium for Stem Cell Therapies intend to develop,” says consortium co-director Sue O’Shea, a professor of cell and developmental biology at the Medical School.

In the months and years ahead, donated embryos will be used to create cell lines that carry the genes responsible for myotonic dystrophy, Huntington’s disease, Rett syndrome, spinal muscular atrophy and Tay-Sachs disease, for example.

“This announcement puts the University of Michigan at the very forefront of stem cell research,” says Dr. Eva Feldman, director of the U-M’s A. Alfred Taubman Medical Research Institute.

“We will be one of the few institutions in the country to be creating embryonic stem cell lines targeted at understanding and treating specific inherited diseases,” Feldman says. “These stem cell lines hold so much promise for medical science, and for this reason, they will be of tremendous interest to researchers around the world.”

The consortium will distribute samples of the new lines to researchers across campus and to collaborators statewide. In addition, U-M researchers intend to submit the lines to the U.S. National Institutes of Health for inclusion in the national registry of human embryonic stem cell lines that are eligible for federal research funding.

The two new U-M lines would be the only lines on the federal registry to carry the genes for hemophilia B and Charcot-Marie-Tooth disease. Currently there are three disease-specific lines on the federal registry, which contains 91 human embryonic stem cell lines.

These are the second and third human embryonic stem cell lines created by U-M consortium researchers. The first line was announced in October and was derived from a genetically normal 5-day-old embryo created for reproductive purposes but no longer needed for that use and donated to the university.

The creation of all three lines was made possible by Michigan voters’ November 2008 approval of Proposal 2, a state constitutional amendment permitting scientists here to derive human embryonic stem cell lines using surplus embryos from fertility clinics.

The amendment also made possible an unusual collaboration that has blossomed between the university and a company that describes itself as “the leading global provider” of pre-implantation genetic diagnosis (PGD) tests, Genesis Genetics of Detroit. PGD is a testing method used to identify days-old embryos carrying the genetic mutations responsible for inherited diseases.

Genesis Genetics performs nearly 4,000 PGD tests annually at its Detroit facility. Under the arrangement between the company and the university, patients with embryos that test positive for a genetic disease now have the option of donating those embryos to the Consortium for Stem Cell Therapies if they have decided not to use them for reproductive purposes and the embryos would be discarded otherwise.

The agreement was worked out between U-M’s Smith and Dr. Mark Hughes, founder and president of Genesis Genetics and a pioneer in the field of pre-implantation genetic diagnosis.

“This is an example of two Michigan leaders — U-M and Genesis Genetics — joining forces to advance medicine by thinking outside the box,” says Smith, a professor of obstetrics and gynecology at the Medical School.

“This is an innovative collaboration and one that did not happen overnight,” Smith says. “This is an arrangement that’s been worked on for more than two years.”

During a PGD test, a single cell is removed from an eight-celled embryo. The other seven cells continue to multiply and on the fifth day form a cluster of roughly 100 cells known as a blastocyst.

The U-M consortium received the first disease-affected blastocysts through Genesis Genetics in November and began trying to establish a human embryonic stem cell line — a collection of millions of genetically identical cells generated from a single embryo.

“These are very precious cells, and it would be unconscionable not to take advantage of such an opportunity for medical science and the cure of disease,” Hughes says.

Genesis Genetics has a similar arrangement with Stanford University. Until the Michigan constitutional amendment passed in November 2008, Hughes says, he “hadn’t even imagined that I could work with a top-flight institution right down the road, like the University of Michigan, because the state didn’t allow such work.”

Once the two new lines were established, various tests were performed to confirm that the cells displayed traits of normal embryonic stem cells. Conducting those tests is called characterizing an embryonic stem cell line. The characterization tests were completed this month.

Hemophilia B, also known as Christmas Disease, is the less common form of the disorder and is caused by the lack of clotting Factor IX. Charcot-Marie-Tooth disease is one of the most common inherited neurological disorders, affecting one in 2,500 people in the United States. People with CMT usually begin to experience symptoms in adolescence or early adulthood.

“The creation of these cell lines will provide a new tool that will help the international scientific community improve the treatment of these diseases,” says Sean Morrison, director of the U-M Center for Stem Cell Biology.

The U-M cell-line derivation project was approved by the university’s Human Pluripotent Stem Cell Research Oversight Committee and the Medical School’s Institutional Review Board. Both committees are composed of physicians, scientists, ethicists, attorneys and community members who concluded that the project would be conducted ethically, legally and to the benefit of patients.

“This scientific breakthrough demonstrates the wisdom of the voters of Michigan, who realized the importance of stem cell research for the health and well-being of the state,” says A. Alfred Taubman, founder and chair of the A. Alfred Taubman Medical Research Institute.

“We have become global leaders in the science of stem cells,” he says. “We are producing tools that can be of immeasurable aid to scientists studying such disorders as hemophilia and Huntington’s disease. And we are just beginning to scratch the surface of this new scientific frontier.”

Source: http://www.speroforum.com/a/51500/Michigan-develops-its-first-disease-specific-embryonic-stemcell-lines

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Five New Alzheimer’s Genes Double Total as Doctors Unravel Disease Cause

Last Updated on Monday, 4 April 2011 10:01 Written by admin Monday, 4 April 2011 10:01

Five new genes have been definitively linked to Alzheimer’s disease, doubling the total confirmed by scientists and opening new areas for research into an illness that affects 35 million people globally.

The genetic pathways were reported in two studies involving more than 50,000 people worldwide. Some of the connections found involve systems that control inflammation and cholesterol in the brain, while others affect how brain cells remove toxic proteins, the researchers wrote in reports published yesterday in the journal Nature Genetics.

The newest confirmed genes raise risks for Alzheimer’s by 15 percent or less, not strong enough to be used as a marker for the disease, researchers said. Their worth is in suggesting new areas of study that may one day help speed creation of therapies for a malady that progressively destroys brain cells and makes it difficult for people to think, remember and function.

“We are beginning to piece together the jigsaw and gain new understanding,” said lead researcher Julie Williams, a professor from Cardiff University’s Centre for Neuropsychiatric Genetics and Genomics in Wales. “We still have a long way to go, but the jigsaw is beginning to come together.”

Inflammation, cholesterol and the build-up of beta amyloid protein have long been thought to play a critical role in the degradation of nerve cells in the brain, the researchers said. If treatments can prevent the detrimental effects of the genes, doctors may be able to one day reduce the number of people with Alzheimer’s disease, Williams said.

Important Combinations

Researchers are trying to determine which gene variations, and which combinations, are most important. Identifying how genes work together may speed studies of experimental drugs, said David Bennett, director of the Alzheimer’s Disease Center at Rush University Medical Center in Chicago, in a statement.

“These findings add key information needed to understand the causes of Alzheimer’s disease and should help in discovering approaches to its treatment and prevention,” Bennett said.

The U.S. National Institute on Aging helped fund the studies, which used information gleaned from five different groups, including the Rush Religious Orders Study, to analyze the genetic makeup of more than 54,000 people.

Alzheimer’s is characterized by the formation of plaque in the brain from amyloid and tau proteins. Scientists don’t know why the proteins accumulate or become twisted, whether they cause the illness or if they are an end-product resulting from a different process altogether.

“We know from our studies there are going to be dozens of these genes that will be significant when the collective data is analyzed,” said Rudolph Tanzi, professor of neurology at Harvard Medical School in Boston, and an author of one paper.

Most Exciting

While the combined genes point at several pathways that may play a role in Alzheimer’s disease, Tanzi says he is most excited about CD33, a gene he discovered that is tied to the brain’s primitive innate immune system. In some cases, it might not be eliminating as much beta amyloid as it should. In others, it may be too active and trigger inflammation, he said in a telephone interview.

“Once we figure out what’s going on, CD33 will be a good target because it sits on the cell surface,” he said. “But it will be at least 10 years before we could turn these targets into drugs,” said Tanzi, who is also director of the genetics and aging research unit at Massachusetts General Hospital’s Institute for Neurodegenerative disease.

The number of Alzheimer’s sufferers is predicted to reach 115.4 million by 2050, according to a 2009 report from Alzheimer’s Disease International.

Inevitable Deterioration

No treatment is yet available to slow or stop deterioration of the brain in patients with Alzheimer’s. Drugs aiming to slow the symptoms include Namenda from New York-based Forest Laboratories Inc. (FRX), and Aricept from New York-based Pfizer Inc. (PFE) and Tokyo-based Eisai Co.

As much as 80 percent of a person’s chance of developing Alzheimer’s is inherited, doctors say. About 400 genes have been identified that scientists believe may play a role in the condition, named for the German doctor Alois Alzheimer who described it in 1906.

The greatest inherited risk comes from the APOE gene, discovered in 1993 by a team led by Allen Roses, now director of the Deane Drug Discovery Institute at Duke University Medical Center in Durham, North Carolina. A person who inherits that gene from one parent has a 400 percent increased risk of getting the disease.

Source: http://www.bloomberg.com/news/2011-04-04/five-new-alzheimer-s-genes-double-total-in-new-push-for-cure.html

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