The worm sheds light on anesthetic mechanisms

One hundred and sixty five years have passed since the first documented use of volatile anesthetics to aid in surgery, but we have yet to understand the underlying mechanism of action of these drugs. There is no question that, in vitro, volatile anesthetics can affect the function of numerous neuronal and non-neuronal proteins. In fact, volatile anesthetics are capable of binding such diverse proteins as albumin and bacterial luciferase. The promiscuity of volatile anesthetic binding makes it difficult to determine which proteins are modulated by anesthetics to cause the state of anesthesia. Consequently, despite a great deal of in vitro data, the fundamental physiological process that volatile anesthetics perturb to effect neuronal silencing is not yet identified. Recently, data has increasingly indicated that membrane leak channels may play a role in the anesthetic response. Here we comment on the use of optogenetics to further support such a model.