Genetics and phenogenetics of the hormonal characteristics of animals. VII. Correlation between brain serotonin and the hypothalamo-pituitary-adrenal system in domesticated and undomesticated silver foxes during emotional stress

Two groups of silver foxes, selected according their behaviour with respect to man and non-selected ones, were exposed to restriction-induced stress. It was found that changes in the level of brain serotonin and its main metabolite, 5-hydroxyindolacetic acid, and elevation of plasma corticosteroids concentration in domesticated (tame) silver foxes were much less pronounced than in non-domesticated (non-tame) animals. Positive relationship between type of behaviour, brain serotonin metabolism and pituitary-adrenal axis response to stress was observed. It is suggested that such correlative pattern as changed pituitary-adrenal axis responses in domesticated animals may be due to changes in metabolism of controlling this axis brain transmitter serotonin.     

Morphofunctional status of the adrenal cortex in female silver foxes and the effect of domestication and photoperiodic conditions

Studies on 7-day-old and 8-month-old female silver foxes indicate that additional photostimulation affects to a various extent morphological and functional condition of the adrenal cortex in animals selected and unselected for the domestication type of behaviour. In relatively wild foxes, additional illumination stimulated the activity of the reticular zone, whereas in domesticated animals the same photoperiod increased the activity in the fascicular zone. It is suggested that selection of silver foxes for the domestication type of behaviour affects the sensitivity of the adrenals to external illumination.     

Genetics and phenogenetics of the hormonal characteristics of animals. II. Changes in the reactivity of the pituitary-adrenal system and influence of the sex glands in selection of silver-black foxes by behavior]

Seasonal changes in the reactivity of adrenal cortex to ACTH and of the pituitary-adrenal system to psychic stress in intact and castrated domesticated (tame) and non-domesticated (non-tame) silver foxes of both sexes were studied. It is demonstrated that in tame foxes there are differences among the intact and castrated animal in their reaction to ACTH and psychic stress. These differences are maifested especially in autumn (September, October) which is the period of extra-seasonal sexual activity for domesticated animals. This points to the fact that the sex glands exert a great influence on the condition of central regulating mechanisms of the pituitary-adrenal complex and that the selection of silver foxes for tame behaviour changes the functional state of these mechanisms through the change of the functional state of the sex glands.     

Intracranial allometry and craniologic changes during domestication of silver foxes]

Skull proportions and pattern of intracranial allometry in farm foxes of bred domesticated populations are compared. Changes in skull measurements and bivariate allometry are observed in domesticated males, which in this respect become closer to domesticated females. The changes in the allometry pattern in the domesticated population points to deep modifications of regulatory ontogenetic processes which underlie the allometric growth. However, morphological changes in domesticated foxes cannot be only accounted for by allometry.     

Phenogenetic analysis of various changes in the color of fur in silver foxes originated during domestication

Quantitative and qualitative analysis of pigmentation in "singne"-type fur color mutation arising in silver foxes during domestication, was made. It was shown that the decrease in quantity of eumelanine in hair and uneven distribution of pigment granules lengthwise the hair were the reason for formation of "singnes".     

Sex ratio in silver foxes: effects of domestication and the star gene

The course of changes in secondary sex ratio (proportion of males at birth) in silver foxes bred at the fur farm of this Institute was analyzed. Data collected over several years of breeding of a domesticated (experimental) population selected for amenability to domestication and of a commercial (control) were compared. A tendency to increase in secondary sex ratio was demonstrated in both populations. However, the proportion of males at birth was higher in domestic foxes. This proportion, calculated from the combined data for 1978–1993, was 0.538±0.005 and 0.511±0.007 in the selected and commercial populations, respectively. The minimal departure of the observed sex ratio from 0.5 was demonstrated for litters with five pups, which is close to the average litter size in fox populations. The proportion of males increases with both increasing and decreasing litter size. An analysis of secondary sex ratio with respect to maternal age revealed a minimal departure of sex ratio from the expected in offspring from foxes of optimal reproductive age (2–4 years). An effect of the autosomal semidominant coat color mutation star on male excess at birth was also found: secondary sex ratio was higher (0.583±0.015) in offspring of mothers heterozygous for the star mutation than from standard types of the domesticated population. The increase in secondary sex ratio in the analyzed fox populations is viewed as a correlated response to selection for domestication. The hormonal mechanisms mediating the effects of both this selection and the star mutation on sex ratio at birth are discussed.     

Photoperiodic control of gonadal endocrine function in silver-gray foxes and its alteration during domestication

Studies have been made on the level of estradiol and progesterone in domesticated and nondomesticated female silver foxes under different photoperiodic regime. The duration of the "light--darkness" cycle was equal to 24 h. Total duration of the light period was equal to 9 1/2 h; illumination was natural for 7 h, being artificial for the rest 2 1/2 h in a dark part of a day. It was demonstrated that additional illumination affects the hormonal level and sexual activity, the effect being dependent on the particular time of illumination. Nocturnal illumination significantly increased the level of sex hormones in the blood, domesticated animals being more sensitive as compared to nondomesticated ones.     

Component analysis of craniologic characters of silver foxes (Vulpes fulvus Desm.) and their changes arising under domestication]

The data on cranial measurements performed in silver foxes indicate that there are differences in sizes measured between the farm foxes--bred population and the population selected for domestication. A method of principal components was used to analyse the cranial measurements and their changes under domestication. The first component covers about 50% of cranial diversity, which is interpreted as variation in the total skull size. This component clearly separates the two sexes, but not different populations. The second component presumably reflects the growth rate allometry between the skull length and width. The third and fourth components are measurements of skull width; the fifth one reflects the sizes of brain skull. None of these components clearly separate the foxes from farm--bred and domesticated populations. However, some differences in distribution are observed.     

The effect of the domestication of Norway rats and silver foxes on the serotonin S1A- and S2-receptors of the brain]

The specific radioligand binding of serotonin 5-HT1A and 5-HT2 receptors was determined in the frontal cortex and in the hypothalamus of Norway rats and silver foxes. Aggressive wild rats and silver foxes and animals selected for many generations for nonaggressive behavior towards man (domestication) were compared. The binding of the 5-HT1A receptors was found to be significantly higher in domesticated Norway rats and lower in domesticated foxes than in aggressive animals. The specific binding of the 5-HT2 receptors was found to be similar in aggressive and domesticated animals, both in rats and foxes. The data obtained indicate the involvement of 5-HT1A receptors in the hypothalamus into the process of domestication.     

Isolation and fractionation in percoll gradient of guinea pig adrenal cortex cells and their functional characteristics

Suspension of isolated adrenal cells from the guinea pig adrenals was prepared using two modifications of collagenase dispersion. The cells separated by percoll density gradient gave 4 bands. The fraction of adrenocorticocytes has buoyant density of 1.03-1.05 g/ml. The lower bands comprise blood cells with density of 1.07-1.10 g/ml. The aldosterone content in the adrenocorticocyte fraction is 1200-1300 pg/10(5) cells. Intensity of labelling of cellular proteins increases only in the adrenocorticocyte fraction in response to a rise in K+ concentration in incubation medium. The Scatchard plot method was used to characterize binding of 125I-ACTH to dispersed adrenocortical cells. Binding association constant (Ka) and binding capacity (Bmax) are 1.3 X 10(8) M-1 and 2.0 X 10(-9) mol/l, respectively. A relation between functional activity of adrenocortical cells, their ultrastructural features and density is discussed.