The M5 muscarinic receptor is the most recent member of the muscarinic acetylcholine receptor family (M1-M5) to be cloned. At present, the physiological relevance of this receptor subtype remains unknown, primarily because of its low expression levels and the lack of M 5 receptor-selective ligands. To circumvent these difficulties, we used gene targeting technology to generate M 5 receptor-deficient mice (M5R ؊/؊ mice). M5R ؊/؊ mice did not differ from their wild-type littermates in various behavioral and pharmacologic tests. However, in vitro neurotransmitter release experiments showed that M 5 receptors play a role in facilitating muscarinic agonist-induced dopamine release in the striatum. Because M 5 receptor mRNA has been detected in several blood vessels, we also investigated whether the lack of M 5 receptors led to changes in vascular tone by using several in vivo and in vitro vascular preparations. Strikingly, acetylcholine, a powerful dilator of most vascular beds, virtually lost the ability to dilate cerebral arteries and arterioles in M5R ؊/؊ mice. This effect was specific for cerebral blood vessels, because acetylcholine-mediated dilation of extracerebral arteries remained fully intact in M5R ؊/؊ mice. Our findings provide direct evidence that M 5 muscarinic receptors are physiologically relevant. Because it has been suggested that impaired cholinergic dilation of cerebral blood vessels may play a role in the pathophysiology of Alzheimer's disease and focal cerebral ischemia, cerebrovascular M 5 receptors may represent an attractive therapeutic target. M olecular cloning studies have revealed the existence of five molecularly distinct muscarinic acetylcholine receptor subtypes (M 1 -M 5 ) (1, 2). During the past decade, considerable progress has been made in delineating the physiological roles of the M 1 -M 4 muscarinic receptors (3, 4). In contrast, the physiological relevance of the M 5 receptor subtype, which is the most recent member of the muscarinic receptor family to be cloned (5, 6), remains unknown at present (7,8). However, expression of the cloned M 5 muscarinic receptor gene in cultured mammalian cells has shown that the encoded receptor protein is functional and efficiently couples to G proteins of the G q family, similar to the M 1 and M 3 receptor subtypes (5-8).Immunoprecipitation and in situ mRNA hybridization studies have demonstrated the presence of M 5 receptor protein͞mRNA in different areas of the brain including hippocampus, hypothalamus, and distinct midbrain regions (substantia nigra pars compacta and ventral tegmental area) (9-11). However, M 5 receptors are expressed at very low levels, representing less than 2% of the total muscarinic receptor population (M 1 -M 5 ) expressed in the brain (9). Interestingly, the use of highly sensitive reverse transcriptase-PCR (RT-PCR) techniques suggests that M 5 receptors are expressed in all major brain regions (12). More recently, M 5 receptors also have been detected in several peripheral tissues or cells including peripheral blood l...
