 |
|
NIH researchers identify key factor that stimulates brain cancer cells to spread
August 19, 2009Researchers funded by the National Institutes of Health have found that the activity of a protein in brain cells helps stimulate the spread of an aggressive brain cancer called glioblastoma multiforme (GBM). In a move toward therapy, the researchers showed that a small designer protein can block this activity and reduce the spreading of GBM cells grown in the laboratory.
GBM is the most lethal form of brain cancer, with about half of patients expected to die within a year of diagnosis. GBM is named for the fact that the cancerous cells have properties of support cells in the brain called glial cells. Rather than simply growing in a single tumor mass, GBM cells tend to migrate throughout the brain, making it difficult to remove them surgically. As the cells spread and multiply, they also tend to become resistant to radiation and chemotherapy.
"Interventions to control the spreading of glioblastoma multiforme have the potential to slow the clinical course of the disease and improve overall survival rates," says Jane Fountain, Ph.D., a program director at NIH's National Institute of Neurological Disorders and Stroke (NINDS). NINDS funded the new study through an initiative that encourages research on why brain tumor cells are so highly invasive and how to therapeutically target these cells.
The study's senior author is Susann Brady-Kalnay, Ph.D., a neuroscientist at Case Western Reserve University in Cleveland and an expert on the development of the retina. For years, she has studied how cells migrate to their proper places in the developing retina. In particular, she studied how this process is regulated by cell adhesion molecules - proteins at a cell's surface that can keep the cell stuck to its surroundings, or help the cell move. She has shown that a cell adhesion molecule called PTPmu is required for retinal cell migration. Investigating the role of PTPmu in GBM dispersal was a logical extension, she says.
"We know that cell adhesion is important for development, and that there are many parallels between what happens during development and what happens in cancer," says Dr. Brady-Kalnay. For instance, she notes there is some evidence that cancer cells have turned back the developmental clock and reverted to an embryonic stem cell-like state.
In their new study published in Cancer Research, Dr. Brady-Kalnay and her team report that in GBM cancer cells, the PTPmu protein is cut into fragments, a process known as proteolysis. One might expect that the loss of intact PTPmu would simply cause the cells to detach from their surroundings. However, the fragments also appear to act as signals that stimulate the cells to move and to thrive outside of their normal surroundings.
The researchers found the PTPmu fragments in GBM tumors that had been surgically removed from patients and in GBM cells grown in the laboratory. Next, they examined how these fragments affected the migration of GBM cells in a petri dish. They observed that adding more of the intact protein to the cells or treating the cells with a chemical inhibitor of proteolysis reduced the cells' ability to migrate.
Finally, they showed that it is possible to suppress the effect of the fragments, even without restoring the intact PTPmu protein. This last experiment built upon a collaboration between Dr. Brady-Kalnay and Frank Longo, M.D., chair of the neurology department at Stanford University School of Medicine. The two researchers had previously designed a very small protein, or peptide, capable of attaching to PTPmu and blocking its effects on retinal cell migration. Here, Dr. Brady-Kalnay and her team tested this peptide in GBM cells, and found that it blocked their ability to migrate, too.
The peptide cannot currently be used to treat GBM, because it would be broken down rapidly if it was injected directly into the body. The researchers hope to develop injectable compounds that mimic the peptide, and to test those compounds in animal models of GBM.
NIH/National Institute of Neurological Disorders and Stroke
The study's senior author is Susann Brady-Kalnay, Ph.D., a neuroscientist at Case Western Reserve University in Cleveland and an expert on the development of the retina. For years, she has studied how cells migrate to their proper places in the developing retina. In particular, she studied how this process is regulated by cell adhesion molecules - proteins at a cell's surface that can keep the cell stuck to its surroundings, or help the cell move. She has shown that a cell adhesion molecule called PTPmu is required for retinal cell migration. Investigating the role of PTPmu in GBM dispersal was a logical extension, she says.
"We know that cell adhesion is important for development, and that there are many parallels between what happens during development and what happens in cancer," says Dr. Brady-Kalnay. For instance, she notes there is some evidence that cancer cells have turned back the developmental clock and reverted to an embryonic stem cell-like state.
In their new study published in Cancer Research, Dr. Brady-Kalnay and her team report that in GBM cancer cells, the PTPmu protein is cut into fragments, a process known as proteolysis. One might expect that the loss of intact PTPmu would simply cause the cells to detach from their surroundings. However, the fragments also appear to act as signals that stimulate the cells to move and to thrive outside of their normal surroundings.
The researchers found the PTPmu fragments in GBM tumors that had been surgically removed from patients and in GBM cells grown in the laboratory. Next, they examined how these fragments affected the migration of GBM cells in a petri dish. They observed that adding more of the intact protein to the cells or treating the cells with a chemical inhibitor of proteolysis reduced the cells' ability to migrate.
Finally, they showed that it is possible to suppress the effect of the fragments, even without restoring the intact PTPmu protein. This last experiment built upon a collaboration between Dr. Brady-Kalnay and Frank Longo, M.D., chair of the neurology department at Stanford University School of Medicine. The two researchers had previously designed a very small protein, or peptide, capable of attaching to PTPmu and blocking its effects on retinal cell migration. Here, Dr. Brady-Kalnay and her team tested this peptide in GBM cells, and found that it blocked their ability to migrate, too.
The peptide cannot currently be used to treat GBM, because it would be broken down rapidly if it was injected directly into the body. The researchers hope to develop injectable compounds that mimic the peptide, and to test those compounds in animal models of GBM.
NIH/National Institute of Neurological Disorders and Stroke
Brain Cancer Current Events and Brain Cancer News RSSMagnetic nanoparticles to simultaneously diagnose, monitor and treat
Whether it's magnetic nanoparticles (mNPs) giving an army of 'therapeutically armed' white blood cells direction to invade a deadly tumour's territory, or the use of mNPs to target specific nerve channels and induce nerve-led behaviour (such as the life-dependant thumping of our hearts), mNPs have come a long way in the past decade.
Angiochem crosses BBB, shows safety, efficacy in phase 1/2 brain cancer studies
Angiochem, Inc. a clinical-stage biotechnology company developing drugs that are uniquely capable of crossing the blood-brain barrier to treat brain diseases, announced today that its lead drug candidate, ANG1005, has demonstrated a favorable safety and efficacy profile in more than 100 patients with brain cancer from two separate Phase 1 /2 clinical studies in patients with progressive gliomas, including recurrent glioblastoma, and in patients with progressive brain metastases.
Toward a nanomedicine for brain cancer
In an advance toward better treatments for the most serious form of brain cancer, scientists in Illinois are reporting development of the first nanoparticles that seek out and destroy brain cancer cells without damaging nearby healthy cells.
UM scientists pinpoint critical molecule to celiac disease, possibly other autoimmune disorders
It was nine years ago that University of Maryland School of Medicine researchers discovered that a mysterious human protein called zonulin played a critical role in celiac disease and other autoimmune disorders, such as multiple sclerosis and diabetes.
Experts warn over health check brain scans
A new study has voiced concern about the growing market for brain screening tests, which people can buy as part of a general health MOT.
Avastin dramatically improves response, survival in deadly recurrrent glioblastomas
The targeted therapy Avastin, alone and in combination with the chemotherapy drug CPT-11, significantly increased response rates, progression-free survival times and survival rates in patients with a deadly form of brain cancer that had recurred.
Computational Process Zeroes in on Top Genetic Cancer Suspects
Johns Hopkins engineers have devised innovative computer software that can sift through hundreds of genetic mutations and highlight the DNA changes that are most likely to promote cancer.
NIH study reveals new genetic culprit in deadly skin cancer
Drawing on the power of DNA sequencing, National Institutes of Health researchers have identified a new group of genetic mutations involved in the deadliest form of skin cancer, melanoma.
Anti-psychotic drugs could help fight cancer
The observation that people taking medication for schizophrenia have lower cancer rates than other people has prompted new research revealing that anti-psychotic drugs could help treat some major cancers.
STAT3 Gene Regulates Cancer Stem Cells in Brain Cancer
In a study published online in advance of print in Stem Cells, Tufts researchers report that the STAT3 gene regulates cancer stem cells in brain cancer. Cancer stem cells have many characteristics of stem cells and are thought to be the cells that drive tumor formation.
More Brain Cancer Current Events and Brain Cancer News Articles
 |
Living with a Brain Tumor: Dr. Peter Black's Guide to Taking Control of Your Treatment by Peter Black (Author) Each year, 100,000 people in the United States are diagnosed with a brain tumor. With his new book, Dr. Peter Black fills a gap in the lay readership, providing an accessible medical resource for adult patients and their families. Dr. Black, who has operated on more than 3,000 patients with brain tumors, is uniquely qualified to discuss both clinical treatment of and research into brain tumors. This invaluable resource tells patients everything they need to know to understand and address their diagnosis, in a four-part structure: • “What is a Brain Tumor?" provides straightforward information about how brain tumors are diagnosed, the different types of tumors and how they develop, and where to go for treatment. • “Coping with Shock” addresses the emotional... |
 |
Silver Swarovski Crystals Ribbon Pin Brooch: Brain Cancer & Brain Disorder or Disability Awareness by PSDZ This Silver Ribbon Pin symbolizes the fight against: Brain Cancer & Brain Disorders or Disabilities. Dozens of sparkling, Swarovski Crystals have been hand set in this piece and skilled artisans have finished it in a glossy, Silver Enamel. A meaningful and beautiful brooch. Height: 1.75 Inch Width: .75 Inch Each of these items has been hand enameled by skilled artisans, and set with genuine, Swarovski Crystals. The pins frame is crafted from fine pewter. Our Collection adds the definitive touch to any gift-giving occasion. Also, this collection has been issued in limited editions and each piece will become a valuable keepsake to its owner, for years to come. Please see other items in this collection in our Amazon Store: PSDZ. Jewelry Boxes, Business Card Holders, Music... |
 |
Brain Cancer, Kids Light T-Shirt by CafePress |
 |
Curveball: When Life Throws You a Brain Tumor by Liz Holzemer (Author) Life seemed idyllic for thirty-two-year-old Liz Holzemer. Wife of Major League Baseball pitcher Mark Holzemer, Liz was enjoying a successful career as a journalist when an MRI revealed a baseball-size brain tumor she soon found out was called meningioma. Told with clarity and unwavering humor, this book is an inspirational and informative account of one woman’s battle for her life. It shows how she emerged from this frightening diagnosis and two brain surgeries retaining her remarkable spirit of survival and renewed sense of purpose and hope. With practical information about meningioma and brain surgery, Curveball is a manual for people who face life-altering challenges and is also proof that one need not fight such battles alone. |
 |
The NewsHour Reports on Brain Research, Treatment and Disease Starring: Betty Ann Bowser; Dr. Mickey Collins; Dr. Mark Lovell; Susan Dentzer; Dr. Michael Simberkoff; Paul Allen Also With: MacNeil / Lehrer Productions (Producer) The NewsHour reports on brain research and treatments for brain injury and disease. Included are segments featuring research on diagnosing and treating concussion; traumatic brain injury treatment of veterans; the development of a brain mapping tool; research on cell phone use and its effects on the brain and research that demonstrates the human body is able to produce new brain cells. This product is manufactured on demand using DVD-R recordable media. Amazon.com's standard return policy will apply. |
 |
Cancer Be Gone Guided imagery CD taps into the immense power of the mind to enhance comfort, healing, an optimistic attitude and positive expectations. Metaphor of "cancer as weeds in a garden that are easily managed". |
 |
Sterling Silver Gray Enamel Awareness Ribbon Charm, 7/8 inch, Diabetes, Brain Cancer by Silver Messages--Free US Shipping Sterling Silver Gray Enamel Awareness Ribbon Charm, 7/8 inch, Diabetes, Brain Cancer |
 |
Brain Cancer Awareness Ribbon Mouse Pad by MyHeritageWear.com The Brain Cancer Ribbon proudly displayed on a mouse pad. There is no better way to achieve awareness for the meaning of the Brain Cancer Ribbon than to display it on your mouse pad for everyone to see. The mouse pad measures at 9.25 x 7.75, it is machine washable, and the colors will not fade or run. Start gaining awareness today by presenting your Brain Cancer Ribbon mouse pad at work or at home. It is certain to keep your mouse rolling in style all while gaining support and awareness! |
 |
Brain Cancer, Infant/Toddler T-Shirt by CafePress |
|
Hope Springs for Brain Cancer by Expressions from the Heart Designed with gift giving and memento keeping in mind, each mouth-blown, glass, heart-shaped ornament features a waffle-like texture into which 160 Swarovski crystals are set. The evocative line offers a fresh and very sentimental option for ornament lovers seeking an alternative to just another tree trimming collectible. Each spectacular piece is suspended from an elegant, bow-trimmed, ribbon and comes packaged, for giving and keeping, in a lovely, high-quality box. Each design has its own special name, accompanied by an evocative story, presented on a story card within the gift box. |
| © 2009 BrightSurf.com |