Abstract

The hypothalamic suprachiasmatic nucleus (SCN) is the presumed site of the biological 24 hr clock of mammals. This clock is necessary for the timing of numerous behavioral and physiological rhythms. The proposed research seeks to describe 1) the roles of visual system components in the mediation of circadian rhythm phase, period and amplitude; 2) the anatomical connections between the geniculate region and the SCN; 3) the function and locations of SCN efferent fibers controlling circadian rhythmicity; 4) the relative roles of the paired SCN in regulating rhythmicity; and 5) the neuroanatomical substrate mediating phasic control of circadian periodicity by the benzodiazephine, triazolam. The latter drug offers a probe into the neural systems mediating circadian rhythm phase.
These aims will be achieved using stereotaxic neural lesion techniques, drug infusions into the brain and modern neuroanatomical tract tracing methods. Locomotor rhythms will be continuously evaluated by computer. Because of the wealth of information concerning hamster circadian rhythms and its endocrine responses to different photoperiods, it is the species of choice for this work. All vertebrate species, including humans, have a circadian rhythm system. It is important, and clinically relevant to understand how and where environmental events regulate a fundamental biologic regulatory system.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS022168-06
Application #
3404255
Study Section
Biopsychology Study Section (BPO)
Project Start
1985-04-01
Project End
1992-03-31
Budget Start
1991-04-01
Budget End
1992-03-31
Support Year
6
Fiscal Year
1991
Total Cost
Indirect Cost

  Institution

Name
State University New York Stony Brook
Department
Type
Schools of Medicine
DUNS #
804878247
City
Stony Brook
State
NY
Country
United States
Zip Code
11794

  Publications

Morin, Lawrence P (2013) Neuroanatomy of the extended circadian rhythm system. Exp Neurol 243:4-20
Morin, Lawrence P; Hefton, Sara; Studholme, Keith M (2011) Neurons identified by NeuN/Fox-3 immunoreactivity have a novel distribution in the hamster and mouse suprachiasmatic nucleus. Brain Res 1421:44-51
Morin, Lawrence P; Lituma, Pablo J; Studholme, Keith M (2010) Two components of nocturnal locomotor suppression by light. J Biol Rhythms 25:197-207
Morin, L P; Studholme, K M (2009) Millisecond light pulses make mice stop running, then display prolonged sleep-like behavior in the absence of light. J Biol Rhythms 24:497-508
Goz, Didem; Studholme, Keith; Lappi, Douglas A et al. (2008) Targeted destruction of photosensitive retinal ganglion cells with a saporin conjugate alters the effects of light on mouse circadian rhythms. PLoS One 3:e3153
Vidal, Luis; Morin, Lawrence P (2007) Absence of normal photic integration in the circadian visual system: response to millisecond light flashes. J Neurosci 27:3375-82
Morin, Lawrence P (2007) SCN organization reconsidered. J Biol Rhythms 22:3-13
Muscat, L; Morin, L P (2006) Intergeniculate leaflet: contributions to photic and non-photic responsiveness of the hamster circadian system. Neuroscience 140:305-20
Morin, L P; Shivers, K-Y; Blanchard, J H et al. (2006) Complex organization of mouse and rat suprachiasmatic nucleus. Neuroscience 137:1285-97
Morin, L P; Allen, C N (2006) The circadian visual system, 2005. Brain Res Rev 51:1-60

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