Project Three: Roles of PACAP-CRF systems in sleep in mice

The goal of Project 3 is to develop a more comprehensive understanding of how PACAP and CRF systems sleep and circadian rhythm.

Sleep is affected in many psychiatric illnesses. Some with people with stress-related disorders (e.g., Post-Traumatic Stress Disorder [PTSD]) sleep less than normal, whereas others sleep more, or have fragmented sleep patterns that reflect more frequent bouts of sleep and wakefulness. There is considerable evidence that stress disrupts sleep, and we have shown that chronic stress in mice causes profound alterations in sleep and diurnal rhythms. In contrast, the effects of sleep dysregulation on brain systems that mediate stress effects are not thoroughly understood. Periods of poor or restricted sleep may produce molecular alterations that subsequently affect sleep. Work in rodents demonstrates important similarities and differences between CRF (corticotropin-releasing factor) and PACAP (pituitary adenylate cyclase-activating polypeptide) effects on behavior. Although both peptides increase acoustic startle, a measure of vigilance often used in preclinical and clinical studies of anxiety and fear, PACAP effects tend to be persistent (lasting >1 week), whereas CRF effects resolve quickly. These types of findings, together with known genetic alterations in CRF and PACAP systems in people vulnerable to stress-related illness, provide a rationale for comparing and contrasting the neurobiology of these peptides. The effects of CRF and PACAP on sleep have not been directly compared, particularly over extended periods of time. Our premise is that these peptide systems affect—and are affected by—sleep. Our hypothesis is that there is a reciprocal relationship between these peptides and sleep, such that activation of CRF and/or PACAP systems will affect sleep and, conversely, sleep restriction will affect CRF and/or PACAP systems, but that the persistence of these effects will differ. Tests will be conducted in male and female mice implanted with wireless transmitters that enable continuous collection of EEG, EMG, body temperature, and activity data for several weeks. Molecular analyses will focus on brain areas implicated in the emotional aspects of stress, including amygdala (AMG), bed nucleus of the stria terminalis (BNST), and prefrontal cortex (PFC), as well as areas more traditionally implicated in sleep and biological rhythms. We will also perform circuit mapping studies to provide insights on neural connections between regions that regulate emotional behavior and those that regulate sleep.

Team

William (Bill) Carlezon, Jr. PhD

Director of SPARED Conte Center and Principle Investigator of Project Three

Read more about Bill's work at McLean Hospital

Read more about Bill's work at Harvard Medical School

Allison Foilb, PhD

Postdoctoral Scholar

Read more about Allison Foilb, PhD

Emma Fritsch

Research Assistant

Elisa Taylor-Yeremeeva

Research Assistant