Your search keyword '"Jeanne F Duffy"' showing total 5 results

1. Soluble interleukin-13rα1: a circulating regulator of glucose

Author

Kirsi M Zitting, David A. Morrow, Inbal Rachmin, Charles A. Czeisler, Richard T. Lee, Caitlin C. O'Meara, James R. Pancoast, Elisabeth M Ricci-Blair, Jeanne F. Duffy, Yilin Feng, Michelle L. O'Donoghue, Christopher P. Cannon, and Emily M Christensen

Subjects

0301 basic medicine, Adult, Male, medicine.medical_specialty, Adolescent, Physiology, Endocrinology, Diabetes and Metabolism, Regulator, Biology, Fasting glucose, 03 medical and health sciences, Mice, Young Adult, Physiology (medical), Internal medicine, medicine, Animals, Humans, Hypoglycemic Agents, Aged, Mice, Knockout, Interleukin, Middle Aged, Interleukin-13 Receptor alpha1 Subunit, Recombinant Proteins, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, Glucose, Carbohydrate Metabolism, Female, Interleukin-4, Function (biology), Research Article, Signal Transduction

Abstract

Soluble IL-13 receptor-α1, or sIL13rα1, is a soluble protein that binds to interleukin-13 (IL-13) that has been previously described in mice. The function of sIL13rα1 remains unclear, but it has been hypothesized to act as a decoy receptor for IL-13. Recent studies have identified a role for IL-13 in glucose metabolism, suggesting that a decoy receptor for IL-13 might increase circulating glucose levels. Here, we report that delivery of sIL13rα1 to mice by either gene transfer or recombinant protein decreases blood glucose levels. Surprisingly, the glucose-lowering effect of sIL13rα1 was preserved in mice lacking IL-13, demonstrating that IL-13 was not required for the effect. In contrast, deletion of IL-4 in mice eliminated the hypoglycemic effect of sIL13rα1. In humans, endogenous blood levels of IL13rα1 varied substantially, although there were no differences between diabetic and nondiabetic patients. There was no circadian variation of sIL13rα1 in normal human volunteers. Delivery of sIL13rα1 fused to a fragment crystallizable (Fc) domain provided sustained glucose lowering in mice on a high-fat diet, suggesting a potential therapeutic strategy. These data reveal sIL13rα1 as a circulating human protein with an unexpected role in glucose metabolism.

Published

2017

2. Temporal dynamics of late-night photic stimulation of the human circadian timing system

Author

Theresa L. Shanahan, Richard E. Kronauer, Charles A. Czeisler, Sat Bir S. Khalsa, Jamie M. Zeitzer, Diane B. Boivin, and Jeanne F. Duffy

Subjects

Adult, Male, medicine.medical_specialty, Time Factors, Light, Physiology, Photic Stimulation, Timing system, Synchronizing, Stimulation, Biology, Models, Biological, Physiology (medical), Internal medicine, medicine, Humans, Circadian rhythm, Melatonin, Circadian pacemaker, Phase response curve, Osmolar Concentration, Circadian Rhythm, Logistic Models, Endocrinology, Light effects on circadian rhythm, Neuroscience

Abstract

The light-dark cycle is the primary synchronizing factor that keeps the internal circadian pacemaker appropriately aligned with the environmental 24-h day. Although it is known that ocular light exposure can effectively shift the human circadian pacemaker and do so in an intensity-dependent manner, the curve that describes the relationship between light intensity and pacemaker response has not been fully characterized for light exposure in the late biological night. We exposed subjects to 3 consecutive days of 5 h of experimental light, centered 1.5 h after the timing of the fitted minimum of core body temperature, and show that such light can phase advance shift the human circadian pacemaker in an intensity-dependent manner, with a logistic model best describing the relationship between light intensity and phase shift. A similar sigmoidal relationship is also observed between light intensity and the suppression of plasma melatonin concentrations that occurs during the experimental light exposure. As with a simpler, 1-day light exposure during the early biological night, our data indicate that the human circadian pacemaker is highly sensitive even to typical room light intensities during the late biological night, with ∼100 lux evoking half of the effects observed with light 10 times as bright.

Published

2005

3. Dynamic resetting of the human circadian pacemaker by intermittent bright light

Author

D. W. Rimmer, Charles A. Czeisler, Jeanne F. Duffy, Diane B. Boivin, Richard E. Kronauer, and Theresa L. Shanahan

Subjects

Adult, Male, medicine.medical_specialty, Light, genetic structures, Physiology, Photoperiod, Biology, Stimulus (physiology), Body Temperature, Physiology (medical), Internal medicine, medicine, Humans, Enhanced sensitivity, Circadian rhythm, Wakefulness, Circadian pacemaker, Circadian Rhythm, Endocrinology, Time course, Cardiology, sense organs, Sleep, Bright light

Abstract

In humans, experimental studies of circadian resetting typically have been limited to lengthy episodes of exposure to continuous bright light. To evaluate the time course of the human endogenous circadian pacemaker's resetting response to brief episodes of intermittent bright light, we studied 16 subjects assigned to one of two intermittent lighting conditions in which the subjects were presented with intermittent episodes of bright-light exposure at 25- or 90-min intervals. The effective duration of bright-light exposure was 31% or 63% compared with a continuous 5-h bright-light stimulus. Exposure to intermittent bright light elicited almost as great a resetting response compared with 5 h of continuous bright light. We conclude that exposure to intermittent bright light produces robust phase shifts of the endogenous circadian pacemaker. Furthermore, these results demonstrate that humans, like other species, exhibit an enhanced sensitivity to the initial minutes of bright-light exposure.

Published

2000

4. Later endogenous circadian temperature nadir relative to an earlier wake time in older people

Author

Derk-Jan Dijk, Jeanne F. Duffy, Elizabeth B. Klerman, and Charles A. Czeisler

Subjects

Adult, Male, Senescence, Gerontology, Aging, Adolescent, Physiology, Endogeny, Body Temperature, Rhythm, Sleep Initiation and Maintenance Disorders, Physiology (medical), Humans, Free-running sleep, Circadian rhythm, Wakefulness, Aged, Aged, 80 and over, Wake time, Middle Aged, Circadian Rhythm, Female, Psychology, Nadir (topography)

Abstract

The contribution of the circadian timing system to the age-related advance of sleep-wake timing was investigated in two experiments. In a constant routine protocol, we found that the average wake time and endogenous circadian phase of 44 older subjects were earlier than that of 101 young men. However, the earlier circadian phase of the older subjects actually occurred later relative to their habitual wake time than it did in young men. These results indicate that an age-related advance of circadian phase cannot fully account for the high prevalence of early morning awakening in healthy older people. In a second study, 13 older subjects and 10 young men were scheduled to a 28-h day, such that they were scheduled to sleep at many circadian phases. Self-reported awakening from scheduled sleep episodes and cognitive throughput during the second half of the wake episode varied markedly as a function of circadian phase in both groups. The rising phase of both rhythms was advanced in the older subjects, suggesting an age-related change in the circadian regulation of sleep-wake propensity. We hypothesize that under entrained conditions, these age-related changes in the relationship between circadian phase and wake time are likely associated with self-selected light exposure at an earlier circadian phase. This earlier exposure to light could account for the earlier clock hour to which the endogenous circadian pacemaker is entrained in older people and thereby further increase their propensity to awaken at an even earlier time.

Published

1998

5. Human circadian pacemaker is sensitive to light throughout subjective day without evidence of transients

Author

Megan E. Jewett, Elizabeth B. Klerman, Jeanne F. Duffy, Charles A. Czeisler, D. W. Rimmer, and Richard E. Kronauer

Subjects

Adult, Male, medicine.medical_specialty, Light, genetic structures, Physiology, Biology, Stimulus (physiology), Body Temperature, Time, Biological Clocks, Physiology (medical), Internal medicine, medicine, Humans, Circadian rhythm, Wakefulness, Lighting, Light exposure, Phase response curve, Circadian pacemaker, Circadian Rhythm, Endocrinology, Cardiology, Cues, Sleep, Bright light

Abstract

Fifty-six resetting trials were conducted across the subjective day in 43 young men using a three-cycle bright-light (∼10,000 lx) stimulus against a background of very dim light (10–15 lx). The phase-response curve (PRC) to these trials was assessed for the presence of a “dead zone” of photic insensitivity and was compared with another three-cycle PRC that had used a background of ∼150 lx. To assess possible transients after the light stimulus, the trials were divided into 43 steady-state trials, which occurred after several baseline days, and 13 consecutive trials, which occurred immediately after a previous resetting trial. We found that 1) bright light induces phase shifts throughout subjective day with no apparent dead zone; 2) there is no evidence of transients in constant routine assessments of the fitted temperature minimum 1–2 days after completion of the resetting stimulus; and 3) the timing of background room light modulates the resetting response to bright light. These data indicate that the human circadian pacemaker is sensitive to light at virtually all circadian phases, implying that the entire 24-h pattern of light exposure contributes to entrainment.

Published

1997