Identification of transcription start sites and preferential expression of select CB2 transcripts in mouse and human B lymphocytes.

Marijuana cannabinoids, the endocannabinoids, and cannabinoid cell receptors have been shown to play important roles in immune regulation particularly as potent modulators of anti-inflammatory cytokines. The predominant cannabinoid receptor involved in this immune regulation is cannabinoid receptor 2 (CB(2)), which is predominantly expressed in B lymphocytes. However, the promoter region and mechanisms of CB(2) gene regulation are unknown in this immune cell type. Utilizing a combination of bioinformatics, 5' rapid amplification of cDNA ends (5' RACE), real-time reverse transcription-polymerase chain reaction, DNA sequencing, and luciferase reporter assays, we show that human B cells express one CB(2) transcript while mouse B cells express three CB(2) transcripts, with specific transcript selection occurring during B cell activation by lipopolysaccharide. Alignment of our sequenced RACE products to either the mouse or human genome, along with the GenBank submitted mRNA sequences, revealed that the transcripts we isolated contained previously unidentified transcriptional start sites (TSS). In addition, expression construct testing of the genomic region containing the TSSs of the mouse CB(2) exon 1 transcripts showed an eightfold increase of promoter activity over baseline. These data show for the first time that human B cells use only one TSS for CB(2) while mouse B cells use multiple TSSs and that the mouse TSSs are in a genomic area with promoter activity, thus suggesting the location of the gene promoter region. Defining these TSSs also provides clues to the various gene regulatory factors involved in the expression of CB(2) during B cell activation.

Cannabinoid receptor 2 (CB2) mediates immunoglobulin class switching from IgM to IgE in cultures of murine-purified B lymphocytes.

Marijuana cannabinoid treatment increases Th2 activity, and previous reports showed that B cells express the highest level of CB(2) mRNA relative to other immune cells, suggesting that cannabinoids play a critical role in B cell activation and maturation. We previously reported evidence of Th2 biasing and class switching in cannabinoid-treated and antigen-challenged mice. We now explore the possibility that cannabinoids directly influence B cell antibody class switching. Mouse splenic B cells were purified by negative selection and cultured with IL4 and anti-CD40 in the presence or absence of the nonselective cannabinoid agonist, CP55940, or the CB(1) selective cannabinoid agonist, methanandamide, and analyzed at different days by flow cytometry for surface expression of either IgM or IgE. Cells treated with CP55940 showed an increase in expression of IgE by day 5 in culture; methanandamide had no effect. CP55940 also induced an increase in secreted IgE in culture supernatants as analyzed by ELISA. In addition, CB(2) receptors were increased on B cells after stimulation with IL-4 and anti-CD40, and the class switching effect of CP55940 was attenuated by the CB(2) antagonist, SR144528. These results suggest that cannabinoids bias toward Th2-type immunity by directly inducing B cell class switching from IgM to IgE through a mechanism involving CB(2) receptors.

Cannabinoid receptors and T helper cells.

We have reported that injection of marijuana cannabinoids, such as Delta(9)-tetrahydrocannabinol (THC), into mice, followed by infection with Legionella pneumophila (Lp), suppresses the development of cell-mediated immunity T helper 1 (Th1) activity. These effects are accompanied by suppression of interleukin (IL)-12 and interferon (IFN) gamma production and enhancement of IL-4 production suggesting THC-induced T helper cell biasing. In the current report, other T helper cell biasing mechanisms were studied. Mice were injected with THC followed 18 h later by a challenge infection with Lp. Two-hour post-infection, spleens were removed and analyzed for mRNA to either IL-12Rbeta2 or GATA3 gene products. The results showed that THC suppressed IL-12Rbeta2 but increased GATA3. Receptor antagonists for CB1 (SR141716A, SR1) and CB2 (SR144528, SR2) were also injected to analyze the involvement of cannabinoid receptors. It was determined that SR1 attenuated the THC suppression of IL-12Rbeta2, while SR2 attenuated the increase in GATA3 mRNA. These results suggest that THC suppresses Th1 biasing activity such as IL-12Rbeta2 by a CB1 mediated mechanism and enhances the Th2 biasing activity, GATA3, by a CB2 mechanism. This dichotomy of receptor involvement might result from differential expression and/or signaling function of CB1 and CB2 on Th1 and Th2 cells.

The cannabinoid system and immune modulation.

Studies on the effects of marijuana smoking have evolved into the discovery and description of the endocannabinoid system. To date, this system is composed of two receptors, CB1 and CB2, and endogenous ligands including anandamide, 2-arachidonoyl glycerol, and others. CB1 receptors and ligands are found in the brain as well as immune and other peripheral tissues. Conversely, CB2 receptors and ligands are found primarily in the periphery, especially in immune cells. Cannabinoid receptors are G protein-coupled receptors, and they have been linked to signaling pathways and gene activities in common with this receptor family. In addition, cannabinoids have been shown to modulate a variety of immune cell functions in humans and animals and more recently, have been shown to modulate T helper cell development, chemotaxis, and tumor development. Many of these drug effects occur through cannabinoid receptor signaling mechanisms and the modulation of cytokines and other gene products. It appears the immunocannabinoid system is involved in regulating the brain-immune axis and might be exploited in future therapies for chronic diseases and immune deficiency.

Altered cannabinoid receptor mRNA expression in peripheral blood mononuclear cells from marijuana smokers.

We studied, using RT-PCR, the relative expression of cannabinoid receptor (CBR) mRNA in peripheral blood mononuclear cells (PBMC) from different donor groups. Cells from normal donors expressed a CB2 mRNA level threefold higher than CB1 across all age, gender or ethnicity groups, and amplicons were of the same size in all donors. However, cells from marijuana users expressed higher levels of CBR mRNA, but with a preserved CB1/CB2 ratio of 1:3. CBR gene products were also studied following short-term mitogen activation in vitro. CB1 expression decreased following mitogen stimulation when compared to the time-matched medium only cells while the expression of CB2 mRNA remained unchanged. These studies suggest that marijuana smoking and immune activation can alter the basal levels of CB1 and CB2 in PBMCs.