The aim of this study was to investigate the adaptations of protein metabolism to seasonal fasting in an actively wintering boreal carnivore. Fifty farm-bred male American minks Mustela vison were divided into a fed control group and four experimental groups fasted for 2, 3, 5 or 7 days. The responses of nitrogen metabolism to wintertime food deprivation were determined by measuring the rate of weight loss, the tissue total protein concentrations and the plasma amino acid, urea, ammonia, uric acid and total protein levels. The mink has relatively poor adaptations to food deprivation, as it is not able to prolong phase II of fasting with fat as the major metabolic fuel. Instead, the species has to derive a part of its energy requirements from the breakdown of body proteins. The end product of protein catabolism--urea--accumulates in its circulation, and the mink may not be able to recycle urea-N. Although the mink can still have a high body fat percent at the end of the 7-day fast, it appears to enter phase III of fasting with stimulated proteolysis during this period.
The aim of the study was to investigate the circannual rhythms of leptin and ghrelin in the blue fox, a variant of the endangered arctic fox, in relation to its seasonal cycles of body mass, adiposity and food intake. The effects of long-term fasting and exogenous melatonin treatment on these weight-regulatory hormones were also investigated. The leptin concentrations of the blue fox increased during the autumnal accumulation of fat and decreased during the wintertime and vernal weight loss periods. The leptin levels peaked 2-6 weeks before the maximum values were observed for the body mass indices, voluntary food intake, and body masses. The ghrelin concentrations fluctuated widely during the autumn but decreased in the winter in association with suppression of food intake. Exogenous melatonin advanced the seasonal changes in the food intake of the blue fox but did not affect the seasonal rhythms of leptin and ghrelin concentrations. The leptin concentrations did not respond to the 3-week fasting periods in a consistent way, but the ghrelin levels increased due to food deprivation. In addition to the amount of fat in the body the leptin secretion of the blue fox may be regulated also by other factors. The blue fox may also express seasonal changes in its leptin sensitivity. Our results reinforce the hypothesis that leptin does not function as an acute indicator of body adiposity in seasonal carnivores but rather as a long-term signal of nutritional status.
The aim of this study was to investigate the endocrine response to wintertime starvation in the male American mink (Mustela vison) fasted for 16 hrs, 2 days, 3 days, 5 days, or 7 days (n =10 per group). After 2 days of fasting, the plasma leptin concentrations decreased, along with the triiodothyronine, testosterone, and progesterone levels, and the blood monocyte counts. Leptin also seems to trigger the response to fasting in mustelids by inducing immunosuppression and downregulation of the reproductive and thyroid axes. The dramatic increase in the peptide YY concentrations after 3 days of fasting may be required to suppress gastrointestinal processes during food scarcity. The plasma insulin levels decreased, and those of glucagon increased after 5 days of fasting in association with efficient glucose sparing and lipid mobilization. Body energy stores cannot be wasted for growth during nutritional scarcity and, thus, the growth hormone levels of the minks decreased after 5 days of fasting. The plasma noradrenaline and cortisol concentrations also decreased after 3 and 7 days without food, respectively. The plasma ghrelin, adiponectin, resistin, thyroxine, adrenaline, or estradiol levels did not respond to fasting. The endocrine response to food deprivation is remarkably similar in divergent mammalian orders, indicating that the hormonal signals enhancing survival during nutritional scarcity must be evolutionarily old and well conserved.
The raccoon dog (Nyctereutes procyonoides) is an omnivorous canid utilizing the passive wintering strategy in the boreal climate. Farmed raccoon dogs (n=12) were randomly assigned into two study groups on 26 November 2003. Between 3 December 2003 and 27 January 2004, half of the animals were fasted for 8 weeks and plasma weight-regulatory hormone concentrations determined on 26 November and 30 December 2003 and on 27 January 2004. The plasma peptide YY, ghrelin, and growth hormone (GH) concentrations increased due to food deprivation, while the T4 and Acrp30 concentrations decreased. Furthermore, the plasma GH concentrations were higher in the fasted raccoon dogs than in the fed animals, which had higher plasma insulin, glucagon, and T4 concentrations. However, fasting had no effect on the plasma leptin concentrations. The results confirm previous findings with unchanged leptin levels in fasting carnivores. Increased GH levels probably contribute to increased lipolysis and mobilization of fat stores. Ghrelin can also enhance lipolysis by increasing the GH levels. The decreased levels of T4 may reduce the metabolic rate. The plasma dopamine concentrations decreased due to fasting unlike observed previously in rats. Together with the unaffected adrenaline, noradrenaline, and cortisol concentrations, this suggests that food deprivation in winter does not cause stress to the raccoon dog but is an integral part of its natural life history.
Ahola, L., Harri, M., Kasanen, S., Mononen, J. and Pyykönen, T. 2000. Effect of family housing of farmed silver foxes (Vulpes vulpes) in outdoor enclosures on some behavioural and physiological parameters. Can. J. Anim. Sci. 80: 427-434. Group housing of silver foxes in large housing systems has been claimed to promote the welfare of the species since it provides foxes with the possibility to express species-specific social and locomotor behaviour. In our study, silver foxes were housed in outdoor enclosures in family units consisting of a vixen and her four cubs. Foxes housed alone in traditional fox cages were used as control animals. Light hour activity, rectal temperature during human handling and restraint, activity of the HPA axis, heart and gastrocnemius muscle mass, succinate-dehydrogenase activity in gastrocnemius muscle and mechanical properties of tibia were determined from the foxes. The effect of different housing systems was more pronounced in the cubs than in the vixens, indicating the importance of earlier experiences on animals' performance. Both the increased rectal temperature and the increased activity of the HPA axis especially in the cubs housed in enclosures show that the foxes housed in enclosures had a greater fear level towards man than the foxes housed in cages. Furthermore, the foxes, especially the male cubs, raised in groups may have experienced stress due to social tension. Although the exercise-related parameters may indicate that a larger available space could be beneficial for the foxes' physical endurance, these parameters had no clear correlation with physiological welfare parameters. Les animaux témoins étaient logés dans des cages individuelles classiques. Durant l'expérience, nous avons observé l'activité diurne, la température rectale durant les épisodes de contention et de manipulation par l'homme, l'activité de l'axe HHS (hypothalame-hypophyse-surrénales), la masse musculaire du coeur et du gastrocnemius, l'activité de la succinate-déshydrogénase dans le gastrocnemius et les propriétés mécaniques du tibia. L'effet du système de logement était plus prononcé chez les renardeaux que chez les mères, mettant en relief l'importance d'une expérience antérieure pour les performances des animaux. L'élévation de la température rectale et la plus grande activité de l'axe HHS, surtout chez les renardeaux dans les enclos, montrent que les renards ainsi logés démontraient un niveau de crainte de l'homme plus aigu que ceux logés en cage. En outre, les renardeaux, surtout les mâles élevés en groupe auraient subi du stress lié aux tensions sociales. Bien que les paramètres associés à l'exercice suggèrent qu'une plus vaste surface de logement améliorerait l'endurance physique des renards, ils n'ont pas de corrélation nette avec les paramètres de bien-être physiologique.
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