Ne. Kaminski, Inhibition of the cAMP signaling cascade via cannabinoid receptors: a putative mechanism of immune modulation by cannabinoid compounds, TOX LETT, 103, 1998, pp. 59-63
Immune modulation by cannabinoids has been widely established over the past
three decades. In spite of this, the mechanism bf action responsible for i
mmune modulation and other well described biological effects attributed to
cannabinoid compounds has been elusive. The identification and cloning of t
wo novel G protein coupled receptors, CB1 and CB2, both of which bind canna
bimimetic agents has served as the basis for a putative mechanism of action
. CB1, which is also referred to as the central cannabinoid receptor is the
primary form expressed within the central nervous system (CNS). Conversely
, the peripheral cannabinoid receptor, CB2, does not appear to be expressed
within the CNS but is the predominant form of the receptor expressed withi
n the immune system. Both CB1 and CB2 negatively regulate adenylate cyclase
activity through a pertussis toxin sensitive GTP-binding protein. Recent i
nvestigations addressing the mechanism by which cannabinoids disrupt leukoc
yte function have demonstrated that in the presence of cannabinoids the cAM
P signaling cascade is markedly inhibited as evidenced by decreased adenyla
te cyclase and protein kinase A activity and decreased DNA binding by cAMP
response element binding proteins. The focus of this discussion will be on
the effects cannabinoids elicit on events within the cAMP cascade and relat
ed signaling pathways critical to the regulation of cytokine genes. (C) 199
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