Inflammatory Bowel Disease Clinical Trial
Official title:
The Effect of Cannabinoids on Cytokine Production of Colonic Tissue From IBD Patients
Chronic intestinal inflammation characterizes inflammatory bowel diseases (IBD), which
consist mainly of Crohn's disease and ulcerative colitis. The exact etiology is unknown for
both diseases and therapeutic attempts aimed at down-regulating intestinal inflammation use
both mediator-specific and nonspecific immune suppression. These attempts cause considerable
side effects. Also, IBD patients are different in their genetic background and pathology. It
was previously shown that products based on marijuana (Cannabis sativa) produce beneficial
effects for patients with IBD, and medical cannabis-based products were formerly proven to
have anti-inflammatory activity in laboratory experiments and in clinical tests. However, it
is unknown how C. sativa-based medical products exert their effect in IBD and additional
research and development should be done. One issue to be resolved in the process of
medicalization of C. sativa is the base for the differences in patient response to different
C. sativa lines, in order to fine-tune C. sativa -based treatment to IBD patients.
For this aim of fine-tuning C. sativa -based treatment to IBD patients, we characterized the
chemical composition of different C. sativa lines and their anti-inflammatory activities on
colon cells lines. Extracts of C. sativa lines were prepared using various methods and
cannabinoids and terpenoids profile was determined by chemical analysis. We found that
different compounds have different effects on inflamed colon cell lines, leading to changes
in interleukin secretion, inflammation markers and gene expression in the treated colon
cells. In addition, we have developed a unique system relevant for personalized medicine in
IBD. This system allows a patient-specific determination of the effect of C. sativa -based
treatment. Following, clinical tests will be conducted aiming to develop cannabis-based
products from different C. sativa lines, with anti-inflammatory activity that is effective
and optimized for the different IBD patients.
Title of the project:
Efficacy of cannabinoids in the treatment of inflammatory bowel disease
Question to be investigated:
The marijuana plant, Cannabis sativa has been used as a medicinal treatment for a variety of
diseases. Cannabinoids have been reported to alleviate neurological conditions including
MS-related symptoms such as spasticity, pain, tremor and bladder dysfunction . Other
neurological conditions, such as chronic intractable pain, dystonic movement disorders, and
Tourette's Syndrome were also reported to be alleviated by cannabis use . Cannabis has been
used to treat anorexia in AIDS and cancer patients. In gastroenterology, cannabis has been
used to treat anorexia, emesis, abdominal pain, gastroenteritis, diarrhea, intestinal
inflammation, and diabetic gastroparesis .
The cannabis plant contains over 60 different compounds which are collectively referred to
as cannabinoids . Of these, the two compounds delta 9-tetrahydrocannabinol (THC) and
Cannabidiol (CBD) seem to be the most active.
Cannabinoids have a profound anti-inflammatory effect, mainly through the CB2 receptor. Cell
mediated immunity was found to be impaired in chronic marijuana users . A potent
anti-inflammatory effect of cannabis was observed in rodents. Studying the functional roles
of the endocannabinoid system in immune modulation reveals that it is involved in almost all
major immune events. Cannabinoids shift the balance of pro-inflammatory cytokines and
anti-inflammatory cytokines towards the T-helper cell type 2 profiles (Th2 phenotype) and
suppress cell-mediated immunity, whereas humoral immunity may be enhanced. Cannabidiol was
shown to reduce inflammation in a mouse model of rheumatoid arthritis and type I diabetes
mellitus.
Therefore, cannabinoids can be used to treat various inflammatory conditions including
rheumatoid arthritis and asthma.
In the gut, Endocannabinoids are produced by both the serosal and mucosal component of the
human intestine, and studies on cell lines have shown that human intestinal epithelial cells
can produce endocannabinoids; additional sources of endocannabinoids in the gut include
human endothelial cells, platelets, resident macrophages and other immune cells such as
lymphocytes. CB1 and CB2 receptors are be upregulated in experimental models of inflammatory
bowel disease. In a mouse model of colitis, cannabinoids were found to ameliorate
inflammation, and in the human intestine, levels of Anandamide are increased during
inflammation. The inflamed small intestine also has significantly elevated activity of FAAH
as well as expression of CB1 cannabinoid receptors.
The exact cellular targets implicated in the reduction of inflammation by cannabinoids are
unknown. In a model of bronchopulmonary inflammation in mice administration of anandamide
decreased TNF alpha levels in bronchoalveolar lavage fluid. Delta 9-tetrahydrocannabinol
(THC) inhibits synthesis of IL-12, IL-2, IL-6, INF gamma, and T cell proliferation.
Many patients with IBD report that smoking marihuana ameliorated their symptoms, but there
are no clinical studies investigating that observation. We have recently published the first
reported observation of use of medical cannabis in Crohn's disease. In our study, of 30
patients, 21 improved significantly after treatment with cannabis. The average Harvey
Bradshaw index improved from 14 ± 6.7 to 7 ± 4.7 (P < 0.001). Number of bowel movements was
reduced from an average of eight a day to five a day and the need for other medication,
particularly steroids, was significantly reduced. In view of those results we conducted a
double blind placebo controlled trial in 20 active Crohn's disease patients. Patients with a
Crohn's Disease Activity Index (CDAI)>200 who did not respond to steroids,
immunosuppressants or anti-TNF were randomized to receive 2 cigarettes of cannabis or
placebo daily. Each cigarette contained 0.5 g of cannabis, corresponding to 11.5mg
Tetrahydrocannabinol (THC). The placebo contained cannabis leaves from which THC was
extracted. During treatment the CDAI changed in the cannabis group from 358 ± 99 to 139±111
(p<0.05) and in the placebo group from 373 ± 94 to 306±143 (p=Non significant). Five
patients in the cannabis group and one in the placebo group went into complete remission
(CDAI <100). Three steroid dependent patients in the cannabis group stopped steroids during
the study. Patients reported improved appetite and sleep, with no serious side effects.
These preliminary data indicate that cannabinoids have a great potential in the treatment of
Crohn's disease, but further investigation of their influence, mode of action, active and
non active cannabinoids and alternative routs of application is clearly needed. Most
important is the question whether the improvement observed with cannabis consumption is only
symptomatic or whether there is a real improvement in inflammation.
The aim of the proposed study is to evaluate inflammation and cytokine levels in explants of
colonic tissue from IBD patients with and without cannabidiol.
Materials and methods:
Study population: Patients with either Crohn's disease or ulcerative colitis scheduled for
colonoscopy as deemed necessary by their physician will be eligible for the study. After
obtaining informed consent, biopsies from inflamed and normal tissue will be taken and
processed in a tissue culture media as described further. There will be 6 biopsies from each
site.
Methods:
Explants will be cultured in groups of three with the villus surface up on microporous
membranes (0.45-_m pore size) contained in Millicell-HA tissue culture inserts (Millipore).
The inserts will be placed inside 6-well plastic tissue culture dishes (Costar 3506) along
with 1.5 ml of tissue culture medium. Tissue culture medium will be Dulbecco's modified
Eagle's medium supplemented with 10% heat-inactivated fetal calf serum, penicillin
(100units/ml), streptomycin (100 μg/ml), leupeptin (50 μg/ml), PMSF (1 mM), soybean trypsin
inhibitor (50 μg/ml), and dexamethasone (200 μg/ml). Cultures will be incubated at 37°C
incubator and gassed hourly with95% oxygen 5% carbon dioxide. Six biopsies from each site
will be obtained. Three biopsies will serve as a control and three will be cultured with the
addition of Cannabidiol (1 μg/ml). After 24 hours tissue viability will be assessed by
addition of Alamar to one of each 3 samples. Change of color from purple to pink indicates
viable tissue. The supernatant from the other 4 biopsies will be collected and frozen at
-20°C. The biopsies will than be placed in formalin for pathology inspection.
The supernatant from controlled and cannabis treated samples will be analyzed for the
presence and level of TNF alpha, Interferon gamma,IL-23, IL-12, IL-2, IL-10, IL-17 and IL-6.
;
Allocation: Non-Randomized, Endpoint Classification: Pharmacodynamics Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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