Book and Media Review

Abstract

SEROTONIN (5-HYDROXYTRYPTAMINE [5-HT]) IS ONE OF the oldest biologically active compounds on earth, preserved through at least 500 million years of evolution. Since its discovery in the 1940s in the mammalian intestinal mucosa and in the central nervous system, 5-HT has been shown to be involved in virtually all cognitive and behavioral human functions, and alterations in its neurochemistry have been implicated in the etiology of a plethora of neuropsychiatric disorders, such as schizophrenia, depression, anxiety, and Parkinson disease. Since the beginning, it appeared that 5-HT might have a role in sleep, but initial enthusiasm has been dampened because of the subtle effect demonstrated by this monoamine. Today, the interest in 5-HT in sleep research is going through a renaissance, thanks to the availability of highly selective serotonergic compounds and the urgent need for new sleep disorder treatments owing to the shortcomings of current ones. Notably, more than onequarter of the US population report receiving insufficient sleep; 10% report having sleep disorders. The market for pharmaceutical companies developing new drug treatments for these disorders is potentially worth billions of dollars. The serotonergic system and in particular the 5-HT2 receptor subtypes have recently emerged as among the most promising targets in the search for effective and well-tolerated novel medications for treating primary and secondary sleep disorders. Serotonin and Sleep provides an excellent review of current knowledge of the role of serotonin in the regulation of sleep and waking. The editors have already compiled other important works and are world-recognized experts in sleep research. Given the scarcity of similar monographs and the recent developments in serotonin research with reference to sleep and waking, this book is particularly timely and relevant. Moreover, the editors have put together contributions from well-respected scientists in the field. The book is exceptionally well organized into 6 distinct sections in appropriate sequence. The introductory chapter by Ursin effectively sets the scene, giving an overview of the way in which serotonin has been and is currently conceived to play a role in sleep. Indeed, Ursin charts the evolution in thinking that initially viewed serotonin as a sleep transmitter and then as a waking transmitter before recognizing the complex role played by serotonergic neurotransmission in both processes. The introductory section is followed by another comprising 3 anatomical chapters. The first 2 deal with the neuroanatomy of the dorsal and median raphe nuclei and their projections and differences. The third reviews current knowledge about the role of serotonergic modulation in the neuronal circuits involved in the circadian regulation of behavior. The third section is dedicated to a comprehensive review of both the localization and molecular biology of serotonin receptors in the mammalian brain. In the first chapter Artigas et al review current knowledge about the distribution of 5-HT receptor subtypes in the prefrontal cortex of rats and human and nonhuman primates. Hannon and Hoyer then go on to explain the diversity of serotonin receptor types and subtypes, detailing the synaptic actions of each receptor type and reflecting on its specific involvement in the susceptibility to determined pathologies and its role as target for therapeutic relief from these conditions. In the fourth section, the editors have collected 5 papers on the theme of electrophysiology of 5-HT neurons and the regulation of serotonin release. Notably, Jacobs and Fornal review a series of electrophysiological studies on the activity of the serotonergic neurons in the brains of cats. They conclude that there is a role for serotonin in the coordination of motor, autonomic, and sensory processes. This section also includes 2 chapters on the regulation of dorsal raphe neuronal activity across the sleep-wake cycle. Sakai claims that the suppression of dorsal raphe serotonergic neural discharge in rapid eye movement (REM) sleep is attributable to the inhibition of firing discharge of norepinephrine, histamine, and orexin neurons during sleep; Sinton dedicates an exhaustive chapter to the orexinergic system. However, Luppi et al support the idea that this suppression is instead a result of an increase of -aminobutyric acid (GABA) function attributable to an excitation of GABA neurons located both inside and outside the raphe. Even neuropeptides are involved in sleep-related inhibition of 5-HT neuronal activity, changing the strength of GABAergic and glutamatergic inputs to the dorsal raphe, as reported by Auerbach. The fifth section comprises 9 chapters on the theme of regulation of behavior by serotonin receptors. The various