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Chemotherapy causes delayed severe neural damage
April 22, 2008Cancer treatment with chemotherapeutic agents is often associated with delayed adverse neurological consequences - an occurrence often referred to as "chemobrain" - that may compromise the quality of life of a proportion of cancer survivors. Now, research published in the open access Journal of Biology demonstrates that treatment with a single chemotherapeutic agent, 5-fluorouracil (5-FU), by itself is sufficient to cause a syndrome of delayed degeneration in the central nervous system (CNS). 5-FU is a widely used chemotherapeutic agent that is employed, alone or in combination with other agents, in the treatment of cancers of the colon, rectum, breast, stomach, pancreas, ovaries and bladder.
Little is known about the side-effects of chemotherapy on the CNS, despite their obvious clinical importance. Until now researchers have not fully understood the underlying biology, including whether these effects require: exposure to multiple chemotherapeutic agents; chemotherapeutic agents plus the body's own response to cancer; blood-brain barrier damage; or inflammation. Clinicians have also lacked animal models to study this important problem.
Professor Mark Noble and colleagues of the University of Rochester Stem Cell and Regenerative Medicine Institute and the Harvard Medical School, Boston discovered that short-term systemic administration of 5-FU to mice caused both acute CNS damage and a syndrome of progressively worsening delayed damage. This damage was not self-repairing, and instead became worse over time. In addition, Noble and colleagues also demonstrated that treatment with chemotherapy also had delayed effects on the speed with which information is transferred from the ear to the brain.
Myelin sheaths are necessary for normal neuronal function. One key finding of the study was that clinically relevant concentrations of 5-FU were toxic not only for dividing cells of the CNS but also for the cells that produce the insulating myelin sheaths (non-dividing oligodendrocytes). The delayed damage the researchers measured was to the myelinated tracts of the CNS and associated with extensive myelin pathology. The findings regarding the speed of ear-to-brain information transfer may offer a non-invasive means of analyzing myelin damage associated with cancer treatment.
"Multiple clinical reports have identified neurotoxicity as a complication of treatment regimens in which chemotherapeutic agents such as 5-fluorouracil are components," says Noble. "As treatments with chemotherapeutic agents will clearly remain the standard of care for cancer patients for many years to come, the need to better understand such damage is great."
Professor Noble continues "These studies extend the field of stem cell medicine beyond the use of cell transplantation for tissue repair. It is our knowledge of stem cell biology that allows us to begin to understand some of the causes of this syndrome, as well as providing the means of preventing or repairing this damage."
This research provides the first demonstration that delayed CNS damage can be induced by a single chemotherapeutic agent and also generates the first animal model of such damage. These studies further demonstrate that this syndrome differs from that caused by irradiation and thus may represent a new class of delayed CNS degenerative damage.
BioMed Central
Myelin sheaths are necessary for normal neuronal function. One key finding of the study was that clinically relevant concentrations of 5-FU were toxic not only for dividing cells of the CNS but also for the cells that produce the insulating myelin sheaths (non-dividing oligodendrocytes). The delayed damage the researchers measured was to the myelinated tracts of the CNS and associated with extensive myelin pathology. The findings regarding the speed of ear-to-brain information transfer may offer a non-invasive means of analyzing myelin damage associated with cancer treatment.
"Multiple clinical reports have identified neurotoxicity as a complication of treatment regimens in which chemotherapeutic agents such as 5-fluorouracil are components," says Noble. "As treatments with chemotherapeutic agents will clearly remain the standard of care for cancer patients for many years to come, the need to better understand such damage is great."
Professor Noble continues "These studies extend the field of stem cell medicine beyond the use of cell transplantation for tissue repair. It is our knowledge of stem cell biology that allows us to begin to understand some of the causes of this syndrome, as well as providing the means of preventing or repairing this damage."
This research provides the first demonstration that delayed CNS damage can be induced by a single chemotherapeutic agent and also generates the first animal model of such damage. These studies further demonstrate that this syndrome differs from that caused by irradiation and thus may represent a new class of delayed CNS degenerative damage.
BioMed Central
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