Neuronal nicotinic acetylcholine receptors (nAChR) are composed of 12 subunits (alpha 2-alpha 10 and beta 2-beta 4), which play the central role in autonomic transmission. beta 4 subunits are abundantly expressed in autonomic ganglia, forming acetylcholine binding sites and ion channels with alpha 3 or alpha 3 and alpha 5 subunits as pentameric receptors. To investigate the physiological and pharmacological properties of beta 4 subunits in autonomic ganglia, we measured autonomic functions in knockout mice lacking nAChR subunit beta 4 (beta 4(-/-)) and wild-type mice. beta 4(-/-) mice had an attenuated bradycardiac response to high frequency (60 pulse/s) vagal stimulation, as well as an increased sensitivity to hexamethonium blockade at low dose (3 mg/kg) and a reduced ileal contractile response to the nicotinic agonists cytisine, dimethylphenylpiperazinium iodide, nicotine (10 mg/kg each), and epibatidine (0.1 mg/kg). The results suggest that beta 4 subunits are important components of nAChRs in autonomic ganglia. Deficiency of beta 4 subunits altered ion channel properties, conductance, and sensitivity and affinity of receptors to agonists and antagonists, affecting ganglionic transmission.