Your search keyword '"daily rhythm"' showing total 5 results

1. Clock gene per 2 daily rhythm: Correlation with the serum level of uncoupling protein 1 (UCP1) in goat and horse

Author

S. Di Pietro, Elisabetta Giudice, Giuseppe Piccione, Claudia Giannetto, and Francesca Arfuso

Subjects

0106 biological sciences, endocrine system, Physiology, 030310 physiology, Period (gene), Gene Expression, Biology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, 03 medical and health sciences, Gene expression, Animals, Circadian rhythm, Horses, Uncoupling Protein 1, photoperiodism, 0303 health sciences, Goats, Horse, Period Circadian Proteins, Capra hyrcus, Daily rhythm, Equus caballus, Per2, UCP1, Thermogenin, Circadian Rhythm, CLOCK, PER2, Female, General Agricultural and Biological Sciences, Developmental Biology

Abstract

Recent studies evidenced that the circadian rhythm of Per2 is involved in adaptive thermogenesis by the modulating transcription of uncoupling protein 1 (UCP1). For this purpose, we investigated the linkage between the daily rhythm of Per2 and UCP1 in ruminant and non-ruminant mammalian species. Five clinically healthy, not pregnant, and not lactating Maltese female goats and five clinically healthy, not pregnant, and not lactating Italian Saddle horses were enrolled in the study. All animals were housed under natural photoperiod (sunrise 05:05, sunset 20:55) and environmental temperature and humidity. Goats were kept individually in 3.0 × 2.0 m box, horses were housed individually in 3.5 × 3.5 m box; all boxes were equipped with an opening window. On each subject, blood samples were collected every 4 h for a 48-h period. The Per2 gene expression was determined on blood samples collected in PAX gene Blood RNA Tube, whereas UCP1 concentration was assessed on serum. Per2 and UCP1 levels were statistically influenced by the species (p 0.0001) and the time of data collection (p 0.0001), but not by the day of monitoring. Per2 showed daily rhythmicity, statistically different in mesor and amplitude between the two species, diurnal in goats, nocturnal in horses; with the same robustness. UCP1 did not show daily rhythmicity. During the experimental period the two parameters showed a negative correlation in horses. According to the findings herein obtained, we can claim that the role of Per2 in the thermogenesis induced by the beige adipocytes throughout UCP1 activation did not reflect what found in other mammal species, but further studies are required to establish their correlation in equids.

Published

2020

2. Daily variation of thermoregulatory costs in laboratory mice selected for high and low basal metabolic rate

Author

Gębczyński, Andrzej K.

Subjects

*MAMMALS, *BODY temperature, *METABOLISM, *LABORATORY mice, *CIRCADIAN rhythms

Abstract

Abstract: Most mammals are known to have clear circadian rhythms of body temperature (T b) and metabolic rate. Large parts of the rhythms correspond to the oscillation of nonshivering thermogenesis (NST), dependent on visceral organ mass, and, affected by mass of brown adipose tissue (BAT). I tested whether: (1) a different levels of BMR result in respective changes of T b values and the magnitude of daily RMR oscillations both within and below thermoneutrality; (2) the amplitude of daily variation of RMR depends on ambient temperature (T a). I studied: (1) daily variation of body temperature at T a of 23°C, and (2) the rate of resting metabolism (RMR) within and below thermoneutrality at the time of minimum and increasing T b (minimum and maximum NST capacity), in two lines of laboratory mice subjected to divergent, artificial selection toward high (HBMR) and low (LBMR) basal rate of metabolism (BMR). All mice had a clear circadian rhythm of T b with minimum of 36.4±0.2°C at 7:00 and maximum of 37.8±0.2°C at 21:00. Their RMR measured below thermoneutrality exhibited significant daily variation, with the maximum between 16:00 and 19:00, when T b was rising. Within thermoneutral zone (TNZ) I found between-line, but not between-time, differences in RMR. All between-line differences in RMR could be explained by the magnitude of BMR. I did not find any between-line differences of RMR value in temperatures below thermoneutrality. The amplitude of daily variation of RMR measured below TNZ depended neither on the T a value nor on level of BMR (or visceral organs). [Copyright &y& Elsevier]

Published

2005

3. Correlation between torpor frequency and capacity for non-shivering thermogenesis in the Siberian hamster (Phodopus sungorus)

Author

Jefimow, Małgorzata, Wojciechowski, Michał, Masuda, Atsuko, and Oishi, Tadashi

Subjects

*HAMSTERS, *PHODOPUS sungorus, *ACCLIMATIZATION, *BROWN adipose tissue, *FEVER

Abstract

We investigated the correlation between torpor frequency and capacity for non-shivering thermogenesis (NST) in Siberian hamsters (Phodopus sungorus) during 25 weeks of acclimation to cold and short days. We hypothesized that torpor use is conditioned on the development of brown adipose tissue (BAT) capacity for NST. We found that (1) the degree of noradrenaline (NA)-induced hyperthermia was positively correlated with torpor frequency and its length and depth, and (2) the maximum response to NA occurred at the time of day when hamsters naturally arouse from torpor. The present study quantifies the correlation between torpor frequency and NST capacity and we suggest that a well-developed NST capacity is a prerequisite for the occurrence of torpor. [Copyright &y& Elsevier]

Published

2004

4. Clock gene per 2 daily rhythm: Correlation with the serum level of uncoupling protein 1 (UCP1) in goat and horse.

Author

Giannetto, C., Arfuso, F., Giudice, E., Di Pietro, S., and Piccione, G.

Subjects

*UNCOUPLING proteins, *CLOCK genes, *MOLECULAR clock, *GOAT diseases, *GOATS, *HORSES, *HORSE breeding

Abstract

Recent studies evidenced that the circadian rhythm of Per2 is involved in adaptive thermogenesis by the modulating transcription of uncoupling protein 1 (UCP1). For this purpose, we investigated the linkage between the daily rhythm of Per2 and UCP1 in ruminant and non-ruminant mammalian species. Five clinically healthy, not pregnant, and not lactating Maltese female goats and five clinically healthy, not pregnant, and not lactating Italian Saddle horses were enrolled in the study. All animals were housed under natural photoperiod (sunrise 05:05, sunset 20:55) and environmental temperature and humidity. Goats were kept individually in 3.0 × 2.0 m box, horses were housed individually in 3.5 × 3.5 m box; all boxes were equipped with an opening window. On each subject, blood samples were collected every 4 h for a 48-h period. The Per2 gene expression was determined on blood samples collected in PAX gene Blood RNA Tube, whereas UCP1 concentration was assessed on serum. Per2 and UCP1 levels were statistically influenced by the species (p < 0.0001) and the time of data collection (p < 0.0001), but not by the day of monitoring. Per2 showed daily rhythmicity, statistically different in mesor and amplitude between the two species, diurnal in goats, nocturnal in horses; with the same robustness. UCP1 did not show daily rhythmicity. During the experimental period the two parameters showed a negative correlation in horses. According to the findings herein obtained, we can claim that the role of Per2 in the thermogenesis induced by the beige adipocytes throughout UCP1 activation did not reflect what found in other mammal species, but further studies are required to establish their correlation in equids. • PER2 showed daily rhythmicity in goats and horses. • UCP1 no showed daily rhythmicity in goats and horses. • A negative correlation existed between PER2 and UCP1 in horses. [ABSTRACT FROM AUTHOR]

Published

2021

5. Infrared methodologies for the assessment of skin temperature daily rhythm in two domestic mammalian species.

Author

Giannetto, Claudia, Arfuso, Francesca, Giudice, Elisabetta, Gianesella, Matteo, Fazio, Francesco, Panzera, Michele, and Piccione, Giuseppe

Subjects

*SKIN temperature, *INFRARED thermometers, *INFRARED cameras, *BODY temperature, *RHYTHM, *DIGITAL cameras, *RECTUM

Abstract

To assess the accuracy of infrared methodologies for daily rhythm monitoring of skin temperature, five clinically healthy Italian Saddle gelding horses, and five not pregnant and not lactating Camosciata goats, were monitored every 4 h over a 48 h period. The horses were housed in individual boxes, while the goats in two indoor pens, under natural photoperiod and natural environmental temperature. In each animal, skin temperature was recorded with the use of a digital infrared camera and a non-contact infrared thermometer, in five regions: neck, shoulder, ribs, flank and croup. Recorded values were compared with the well-established daily rhythm of rectal temperature. Rectal temperature was recorded at the same time by means of a digital thermometer. In horses, a lower value of skin temperature was recorded using the infrared thermometer for the croup region compared to shoulder and flank; a lower value of skin temperature was recorded using thermography for the croup region compared to the shoulder. In goats, a lower value of skin temperature was recorded using the infrared thermometer for the croup region compared to the flank. In both species, higher values of rectal temperature were observed, compared to the temperature recorded at the skin regions using the other two methodologies. Cosinor rhythmometry showed a daily rhythm of rectal and skin temperature recorded using both methodologies in all the examined regions. General linear model (GLM) showed statistically significant effect of breed on all rhythmic parameters; of day of monitoring on amplitude; of site of recording (rectal vs skin regions) on mesor, amplitude and acrophase; and no effect of methodologies used. The results of this study show the differences in rhythmicity of various body regions temperature and their differences in comparison with daily rhythm rectal temperature. The use of infrared methodologies was inaccurate in assessing body core temperature, but its use could be considered for the evaluation of inflammation in the different body sites. • Skin temperature shows daily rhythmicity. • Different body regions show different daily rhythmicity. • Infrared methodologies cannot be used for the assessment of body core temperature. [ABSTRACT FROM AUTHOR]

Published

2020