Marijuana and its receptor protein in brain control epilepsy
VCU study is first to test anticonvulsant potential of marijuana and brain recurrent seizures
Robert J. DeLorenzo
VCU Department of Neurology
(804) 828-8969
rdeloren@hsc.vcu.edu
9/30/2003
RICHMOND,
Va. – Ingredients in marijuana and the
cannabinoid receptor protein produced naturally in the body to regulate
the central nervous system and other bodily functions play a critical role in
controlling spontaneous seizures in epilepsy, according to a new study by
researchers at Virginia Commonwealth University.
The
study, the first to look at marijuana and the brain's cannabinoid system in
live animals with spontaneous, recurrent seizures, suggests new avenues that
researchers can explore in their search for more-effective drugs to treat
epileptic patients who don't respond to today's anticonvulsant medications
or surgery.
The
results appear in the Oct. 1 issue of the Journal of Pharmacology and
Experimental Therapeutics.
"Although
marijuana is illegal in the United States, individuals both here and abroad
report that marijuana has been therapeutic for them in the treatment of a
variety of ailments, including epilepsy," says Dr. Robert J. DeLorenzo,
professor of neurology in the VCU School of Medicine.
"But
the psychoactive side effects of marijuana make its use impractical in the
treatment of epilepsy," said DeLorenzo, who was the lead author on the
article. "If we can understand how marijuana works to end seizures, we may be
able to develop novel drugs that might do a better job of treating epileptic
seizures."
Epilepsy
is one of the most common neurological conditions, characterized by
spontaneously recurrent seizures. Approximately 1 percent of Americans have
epilepsy, and 30 percent of those patients are resistant to conventional
anticonvulsant drug treatments. Cannabinoids have been used as a natural remedy
for seizures for thousands of years, and studies since at least 1974 have found
that the primary psychoactive compound in marijuana displays anticonvulsant
properties.
DeLorenzo
and his colleagues in the VCU Department of Neurology and the Department of
Pharmacology and Toxicology have been studying the therapeutic effects of
marijuana on epilepsy and other illnesses for more than a decade. They were the
first three years ago to show that cannabinoids work at controlling seizures by
activating a protein known as the CB1 receptor that is found in the
memory-related area of the brain, the nervous system and other tissues and
organs in the body. Research has shown that the CB1 receptor is
responsible for the psychoactive effects of marijuana. It also is responsible
for controlling excitability and regulating relaxation.
The
current study was designed to evaluate the role of the CB1 receptor
and function of the body's cannabinoid system in regulating seizures.
The
team injected chronically epileptic rats with different combinations of six
drugs: 1) an extract of marijuana, 2) two synthetic drugs that include the key
psychoactive ingredients in marijuana, 3) the common anticonvulsant drugs
Phenobarbital and phenytoin and 4) a drug to block the activation of the CB1
receptor by cannabinoids in the brain. The marijuana extract and synthetic
marijuana drugs completely eliminated the rats' seizures, which averaged three
over a 10-hour period. The Phenobarbital and phenytoin failed to completely
eliminate the seizures. Injection of the CB1 antagonist significantly
increased the both the duration and frequency of seizures, in some cases to a
level consistent with a severe, prolonged form of epilepsy known as status
epilepticus.
"This
study indicates that cannabinoids may offer unique advantages in
treating
seizures compared with currently prescribed anticonvulsants," DeLorenzo
said. "It shows not only the anticonvulsant activity of exogenously
applied
cannabinoids but also suggests that the brain's cannabinoid system
works to
limit seizure duration by activating the CB1 receptor. Understanding
the factors that contribute to seizure initiation and termination has important
implications for our ability to treat epilepsy and for the potential development
of novel anticonvulsant agents."
DeLorenzo's
team is now assessing the dosage requirements and evaluating the long-term
effects of using cannabinoids for epilepsy in animals.
- About VCU and the VCU Medical Center
Virginia Commonwealth University is a major, urban public research university with national and international rankings in sponsored research. Located in downtown Richmond, VCU enrolls more than 31,000 students in 223 degree and certificate programs in the arts, sciences and humanities. Sixty-eight of the programs are unique in Virginia, many of them crossing the disciplines of VCU’s 13 schools and one college. MCV Hospitals and the health sciences schools of Virginia Commonwealth University comprise the VCU Medical Center, one of the nation’s leading academic medical centers. For more, see www.vcu.edu.