Abstract
There are five known subtypes of muscarinic receptors (M(1)-M(5)). We have used knockout mice lacking the M(1), M(2), or M(4) receptors to determine which subtypes mediate modulation of voltage-gated Ca(2+) channels in mouse sympathetic neurons. Muscarinic agonists modulate N- and L-type Ca(2+) channels in these neurons through two distinct G-protein-mediated mechanisms. One pathway is fast and membrane-delimited and inhibits N- and P/Q-type channels by shifting their activation to more depolarized potentials. The other is slow and voltage-independent and uses a diffusible cytoplasmic messenger to inhibit both Ca(2+) channel types. Using patch-clamp methods on acutely dissociated sympathetic neurons, we isolated each pathway by pharmacological and kinetic means and found that each one is nearly absent in a particular knockout mouse. The fast and voltage-dependent pathway is lacking in the M(2) receptor knockout mice; the slow and voltage-independent pathway is absent from the M(1) receptor knockout mice; and neither pathway is affected in the M(4) receptor knockout mice. The knockout effects are clean and are apparently not accompanied by compensatory changes in other muscarinic receptors.