Age effects on the social interaction test in early adulthood male rats

The effects of age on active and passive social interaction were studied in Wistar rats using the social interaction test (S.I.T.). Individual behaviors such as ambulation, rearing, and defecation were also studied. Despite the widespread use of the S.I.T. in anxiety research, the effects of age on the S.I.T. have not been studied thoroughly. Male Wistar rats of 75, 135, and 180 days old were used. Our results showed age effects on active social contact, passive social contact, ambulation, rearing, and defecation. At 135 days old, animals presented the lowest scores on active social behavior and the highest scores on defecation. Moreover, exploratory behavior measured by ambulation and rearing decreased with age. These results suggest that age could be a relevant variable in the social interaction test.

Leptin enhances the synthesis of oleoyl-estrone from estrone in white adipose tissue

BACKGROUND

Oleoyl-estrone elicits powerful slimming effects on lean and obese rats, sparing protein, lowering appetite and maintaining energy expenditure. Leptin synthesis is markedly reduced by oleoyl-estrone. However, this effect is not observed in the obese Zucker fa/fa rats; these rats do not fully respond to leptin but they lose fat under oleoyl-estrone treatment.

AIM OF THE STUDY

To determine the role of leptin in the conversion of estrone to fatty-acyl estrone in white adipose tissue both in vivo in Zucker lean and obese rats, and in vitro.

METHODS

Two series of experiments were performed: a) Growth and differentiation of 3T3L1 preadipocytes into adipocytes followed by incubation with tritium-labeled estrone in the medium in the presence/absence of 1 nM leptin, and estimation of the incorporation of label into estrone and estrone ester fractions of cell extracts. b) Zucker lean (Fa/?) [ZL] and obese (fa/fa) [ZO] rats were injected i.v. with carrier-free oleoyl-estrone in chylomicra-sized liposomes, then euthanized after 10 min. Free and esterified estrone were measured in blood, liver, muscle, skin, white adipose tissue (WAT), and brown adipose tissue (BAT).

RESULTS

In the first study, in a 72-h incubation, adipocytes took up 20-27% of the medium estrone. In the leptin(-) controls, 47% of the label in the cell fraction was in the form of estrone esters and 45% as free estrone; in the leptin(+) cells, 71% of the label was in the estrone ester fraction and 24% was free estrone. In the second study, a large part of the injected tritium-label remained in the ZO blood, with only a small part remaining in ZL. In ZL 39% of the label was found in the tissues in the form of free estrone, and in ZO only 22%; in both cases about half of it was in WAT. Plasma free estrone levels were 0.3 +/- 0.1 nM in ZL and 0.5 +/- 0.3 nM in ZO, and esterified estrone was 242 +/- 99 nM for ZL and 201 +/- 29 nM for ZO. Plasma leptin levels were 1.73 +/- 0.16 ng/ml in ZL and 61.0 +/- 1.4 ng/ml in ZO.

CONCLUSION

The presence of an infact leptin pathway is critical for the uptake and synthesis of estrone esters as well as for the plasma acyl-estrone turnover. The presented results show a direct relationship between oleoyl-estrone and leptin in the WAT. A fully functional leptin pathway is needed for the synthesis of acyl-estrone and the removal of free estrone from the bloodstream, as well as for the disposal of excess circulating oleoyl-estrone. This has a direct bearing on human and animal obesity, since estrone induces increases in fat deposition.

Plasma oestrone-fatty acid ester levels are correlated with body fat mass in humans

OBJECTIVE

The metabolites of steroidal hormones, including sulphate, glucuronide, and fatty acid (FA) ester derivatives, have received little attention, although these steroid derivatives are essential components in the global assessment of steroid metabolism. The study of FA-derivatives could, in obesity, contribute some insights into factors modulating steroid metabolism and their plasma levels. In a recent study we found that, in rats, an oestrone-fatty acid ester (E1-FA) was produced by white adipose tissue and released into lipoproteins in the blood-stream. We have examined whether E1-FA levels correlate with body fat and insulin sensitivity in humans.

SUBJECTS

A sample of 20 men and 22 women with varying levels of total body fat (mean body mass index (BMI) 29.2 +/- 4.7, range 22.2-35.8 in men; mean BMI 27.6 +/- 6.3, range 16.8-37.9 in women). All participants were healthy.

MEASUREMENTS

We measured oestrone fatty acid esters (E1-FA), body fatness, and body fat distribution variables, as well as insulin sensitivity through a frequently sampled intravenous glucose tolerance test. Plasma E1-FA and serum leptin levels were measured by radioimmunoassay.

RESULTS

E1-FA levels strongly correlated with BMI (r = 0.69, P = 0.001 in men; r = 0.75, P < 0.0001, in women) percent body fat (PBF, r = 0.52. P = 0.018 in men; and r = 0.69, P < 0.0001, in women) and with the sum of 4 fat skinfolds (sigma skinfolds). E1-FA level was significantly and positively associated with fasting insulin (r = 0.62, P = 0.003 in men, and r = 0.48, P = 0.023 in women) but not with fasting glucose levels. E1-FA correlated with insulin sensitivity (SI, r = -0.72 in men; and -0.76, in women, both P < 0.0001). In men, E1-FA levels also correlated with systolic blood pressure (r = 0.59, P = 0.01), total triglycerides (r = 0.63, P = 0.003), VLDL-triglycerides (r = 0.62, P = 0.004) and VLDL-cholesterol (r = 0.48, P = 0.03), but not with diastolic blood pressure, serum total or LDL-cholesterol, or total and HDL2 and HDL3 subfractions of HDL cholesterol. After controlling for fat mass, only the correlation between VLDL-triglycerides and E1-FA levels remained significant. In women, E1-FA levels correlated with total triglycerides (r = 0.66, P = 0.001), VLDL-triglycerides (r = 0.65, P = 0.001), VLDL-cholesterol (r = 0.63, P = 0.002), LDL-cholesterol (r = 0.57, P = 0.005) and total and HDL2 and HDL3 subfractions of HDL cholesterol (r = -0.58, -0.48, -0.61, P = 0.004, 0.02 and 0.002, respectively), but not with systolic or diastolic blood pressure or total cholesterol. However, covariance analysis revealed that controlling for the concomitant variation in body fat mass eliminated all these associations. Fasting plasma E1-FA concentration correlated with serum leptin (r = 0.60, P = 0.005 in men; r = 0.75, P = 0.0001, in women). However, these correlations no longer persisted after controlling for fat mass (r = 0.33 and 0.36, P = NS). Stepwise regression analysis models were tested, with E1-FA as the dependent variable, and sigma skinfolds and SI as independent covariables. Both the sigma skinfolds (P = 0.03) and SI (P = 0.01) entered the equation at a statistically significant level in men. Therefore, insulin sensitivity was related to E1-FA independently of fat in men. In women only sigma skinfolds (P = 0.04) entered the regression model at a statistically significantly level. Fifty-seven percent of the variance in plasma E1-FA levels in men, and 50% in women, was accounted for using a regression model that combined these variables.

CONCLUSIONS

Oestrone-fatty acid esters circulate in human blood in proportion to body fat, independently of gender. Plasma oestrone-fatty acid ester levels are associated with insulin sensitivity in men, independently of body fat. These findings may widen our perspective on the regulation of insulin action and control of body weight.

Corticosterone binding to tissues of adrenalectomized lean and obese Zucker rats

The binding of corticosterone, dexamethasone and aldosterone was investigated in plasma and in homogenates of liver, kidney, brain, brown adipose tissue and visceral (periovaric) and subcutaneous white adipose tissues of Zucker lean and obese rats: intact controls, adrenalectomized and sham-operated. Corticosterone-binding globulin (CBG) accounted for most of the binding, whereas that of glucocorticoid and mineralocorticoid receptors was much lower. Plasma corticosterone levels increased in sham-operated and obviously decreased in the adrenalectomized animals. Sham-operated and adrenalectomized lean rats showed decreased plasma CBG; in the obese, CBG levels were lower than in controls and were not affected by either surgery. No variation with obesity or surgery was observed either in dexamethasone or aldosterone binding, the latter being practically zero in most samples. When expressed per unit of tissue protein, CBG activity was maximal in adipose tissues, with lowest values in brain and liver. In lean rats, tissue CBG activity decreased with either surgical treatment; no changes were observed in the obese, which also had lower CBG tissue levels. The relative lack of changes in CBG of obese rats suggests that they have lost -- at least in part -- the ability to counter-modulate the changes in glucocorticoid levels through CBG modulation, thus relying only on the control of corticosterone levels. This interpretation agrees with the postulated role of CBG modulating the availability of glucocorticoids to target cells.

Effect of oleoyl-estrone administration on corticosterone binding to tissues of lean and obese Zucker rats

A group of female Zucker lean and obese rats was treated with 3.5 micromol/day kg of oleoyl-estrone in liposomes (OE) injected i.v. continuously for 14 days with inserted osmotic minipumps. Samples of liver were extracted on days 0, 3, 6, 10 and 14 and the expression of corticosterone-binding globulin (CBG) was determined by Northern blot. On the same dates, the total binding capacity of plasma, liver, periovaric white adipose tissue (WAT) and subcutaneous WAT was also determined using tritium-labelled corticosterone. Treatment with OE resulted in diminished CBG gene expression in the liver, this being more marked in the obese rats. Basal (time 0) corticosterone binding was higher in the plasma, liver and WAT of lean rats. Treatment with OE resulted in a gradual and general loss of binding capacity in the plasma and all tissues studied, for lean and obese rats alike. Since CBG decreases may result in enhanced glucocorticoid availability (and effects), the global decrease in corticosterone binding observed can be interpreted as a counteractive response to the energy imbalance elicited by OE.

Structural determinants of oleoyl-estrone slimming effects

Female adult 9-week old Wistar rats were implanted with osmotic minipumps releasing for 14 days a liposome suspension (controls) loaded with oleoyl-estrone or other compounds of the Merlin series: estrone, estradiol, oleoyl-estradiol, oleoyl-DHEA, stearoyl-estrone, palmitoyl-estrone, oleoyl-diethylstilbestrol (DES), estrone oleoyl-ether and oleoyl-3-methoxy-estrone. All compounds were given at the same dose of 3.5 micromol/day x kg for 14 days. The effects on body weight and food intake were recorded. In the case of estrone esters, the body composition and nitrogen balance were also determined. The chronic administration of oleoyl-estrone in liposomes to rats lowers food intake, maintaining energy consumption, thus inducing the active utilization of internal stores and, consequently, the loss of body weight. This loss is mainly due to a decrease in fat, with lower proportional losses of water and a limited consumption of body protein. Free estrone had no effects on body weight, but estradiol did induce a decrease in body weight, similar to that of oleoyl-estradiol. Oleoyl-DHEA had no significant effect on body weight nor in food intake. Oleoyl-DES mimicked fairly well the effects of oleoyl-estrone, both affecting food intake and body weight. There was a relative lack of effects of estrone oleoyl-ether and of oleoyl-3-methoxy-estrone. The effects of oleoyl-estrone were in part mimicked by stearoyl- and palmitoyl-estrone, but their activity on a molar basis was lower, which suggests that the fatty acid moiety significantly influences the activity of the estrone ester as a slimming agent. The differences observed in the appetite suppression and overall slimming power of the stearoyl and palmitoyl-estrone clearly indicate that the sites of action of the physiological agonist oleoyl-estrone are at least two; the shape of the molecule, thus, may elicit a different degree of response of the systems controlled by oleoyl-estrone levels. From this interaction a series of global effects are elicited, such as appetite suppression and the loss of body (fat) weight, the latter in part (but not only) due to decreased food intake. The results shown here also suggest that the overall configuration of fatty acyl-estrone is more constrictive for its function as slimming agent than for its role as appetite suppressant, which hints to different target organs or sites of action endowed with receptors showing different degrees of fulfilling the structural constrictions of the agonist molecule.

Differential short-term distribution of estrone and oleoyl-estrone administered in liposomes to lean and obese Zucker rats

Thirteen-week-old female Zucker lean (Fa/Fa) and obese (fa/fa) rats were injected through a cannula inserted in the left jugular vein with 1 mL/kg of 3H-labeled oleoyl-estrone in liposomes (Merlin-2) (i.e., 670 fmol, 84 kBq). The rats were killed 10 minutes later and dissected. The presence of intact or hydrolyzed oleoyl-estrone was later determined in all samples. The pattern of distribution of estrone was quite different from that of oleoyl-estrone both in rats that were lean and in those that were obese. Estrone was better retained by white adipose tissue than oleoyl-estrone. Liver, spleen, and lungs accumulated more oleoyl-estrone and split part of it, from 4.7% (lung, obese) to 27% (liver, lean). The overall high retention of estrone by the rat tissues results in its very low circulating levels. The fast splitting of liposome-carried oleoyl-estrone by most tissues (up to more than 67% by intestine and skin of lean rats) may help explain the rise in blood free estrone. The differences between lean and obese Zucker rats are mainly quantitative in the case of estrone, the main differences being found in blood and adipose tissues. However, when we compare the data for oleoyl-estrone, the differences cannot be dismissed simply as due to differences in body size or the extent of fat deposits. A large portion of the label remained in the blood of the rats that were obese but not in those that were lean, the tissues of which took up more label. Brown adipose tissue shows a fair affinity for oleoyl-estrone in the rats that were lean but practically does not retain label in the rats that were obese, suggesting that oleoyl-estrone may have a direct effect on brown adipose tissue. The decreased uptake of oleoyl-estrone in rats that were obese shows that the mechanism regulating the turnover or disposal of this signal is altered in this type of genetic obesity.

Rats receiving the slimming agent oleoyl-estrone in liposomes (Merlin-2) decrease food intake but maintain thermogenesis

Oleoyl-estrone given i.v.--incorporated in liposomes to mimic lipoprotein delivery--(Merlin-2) to normal weight rats, induces a dose-dependent weight loss. Analysis of body composition showed that body protein concentration was preserved and fat stores wasted. The respiratory quotient was consistent with the massive oxidation of body fat, since the diet contained practically no lipid. Appetite was affected by Merlin-2, and thus food intake showed a transient decrease. But oxygen consumption (and basal metabolic rates) was kept practically unchanged at the levels of the controls, i.e. higher than needed to oxidize the food ingested during the weight loss period. Brown adipose tissue uncoupling protein levels were proportionally preserved with a 2-week treatment, but it lost a substantial amount of lipid. In conclusion, Merlin-2 is a slimming agent with considerable potential given its powerful fat-wasting action, since it maintains thermogenesis despite lowered energy intake.

Short-term handling of the slimming agent oleoyl-estrone in liposomes (Merlin-2) by the rat

Female adult rats were injected in the jugular vein with oleoyl-3H-estrone incorporated into liposomes. The label rapidly disappeared from the blood, being taken up by the tissues, mainly liver, spleen and lung, which filtered most of the label. However, many other tissues, such as the heart, brown adipose tissue, adrenals and visceral fat incorporated significant amounts of oleoyl-estrone. The analysis of the form in which the label remained 10 min after the injection showed that it was hydrolysed in a large proportion even in liver and lungs. However, in most tissues (brain, brown and white - periovaric - adipose tissues and ovaries), intact oleoyl-estrone accounted for less than one quarter of all tissue label, and less than 10% in the case of subcutaneous adipose tissue and uterus. This rapid destruction of oleoyl-estrone is in agreement with the active role of this compound in the control of body weight.

Short-term treatment with oleoyl-oestrone in liposomes (Merlin-2) strongly reduces the expression of the ob gene in young rats

Young female rats of 160-180 g were implanted with osmotic minipumps releasing 3.0 micromol/day per kg of oleoyl-oestrone in liposomes (Merlin-2) into the bloodstream for up to 14 days. Merlin-2 induced a loss of appetite in the first days, later recovered, and a decrease in body weight of 7%, which contrasts with the 15% increase in controls during the 2-week period. Neither plasma glucose nor urea was affected by treatment, but liver glycogen increased by 50% in 14 days. Insulin decreased slightly with Merlin-2 treatment. Plasma corticotropin (ACTH) and corticosterone showed a transient increase by day 6 of treatment. The expression of the ob gene in adipose tissue fell during the period studied to practically nil on day 14; circulating leptin levels decreased more than 70% from day 1 to day 14. Oestrone levels increased from 0.3 nM (controls) to a maintained 40-60 nM level for the rest of the experiment. Oleoyl-oestrone levels first increased 4-fold, to decrease again to the initial levels on day 10, increasing later to 100-fold on day 14. The three phases observed in food intake, weight loss and oleoyl-oestrone levels match fairly well, which supports the direct involvement of oleoyl-oestrone in body-weight control. However, the control of oleoyl-oestrone levels seems to be mediated in part by corticosterone. The practical disappearance of leptin synthesis coincides with the massive accumulation of oleoyl-oestrone in plasma. The results presented suggest the involvement of oleoyl-oestrone in the main mechanisms of control of body weight and its regulation by glucocorticoids and leptin.

Effect of the slimming agent oleoyl-estrone in liposomes on the body weight of Zucker obese rats

OBJECTIVE

To determine whether the mechanisms by which estrone acyl-esters carried by lipoproteins induce the loss of body fat can affect Zucker fa/fa rats, since they are hyperphagic and could not eliminate excess energy through thermogenesis, two aspects essential for the slimming effect of oleoyl-estrone in normal rats.

DESIGN

The rats were infused for 28 d (osmotic minipumps) with oleoyl-estrone in liposomes (Merlin-2) at a dose of 3.5 mmol/day.kg.

SUBJECTS

Lean (L) and obese (O) Zucker rats.

MEASUREMENTS

Body weight changes. Oxygen consumption, body composition (water, lipid, protein), nitrogen balance, plasma chemistry.

RESULTS

Treatment resulted in loss of body weight: 12.0% (28 g) L, 9.4% (34 g) O, mainly due to fat: 37.5% (10.8 g) L, 11.7% (15.5 g) O and water, preventing further increases in body weight and fat storage. Untreated rats increased their body weight: 10.5% (24 g) L, 32.2% (101 g) O and lipid stores: 20.3% (5.9 g) L, 39.8% (49.0 g) O, making the differences more marked. On day 28, glucose levels were maintained in all groups; in L, triacylglycerols increased and total cholesterol decreased; O showed no changes in plasma composition. In all rats, food intake decreased with treatment, and heat production (oxygen consumption) was unchanged (L) or slightly decreased (O). Energy expenditure per unit of fat-free mass remained unchanged. Protein balance was maintained in all groups; slimming was achieved without loss of body protein.

CONCLUSION

Treatment of genetically obese rats with oleoyl-estrone in liposomes (Merlin-2) results in sustained loss of body weight-mainly lipid, sparing protein-for up to 28 d, essentially preventing further increase in body weight and accumulation of lipid and protein. This is achieved through lower food intake and relatively small changes (if any) in energy expenditure.

Effect of the slimming agent oleoyl-estrone in liposomes on the body weight of rats fed a cafeteria diet

Weaned lean Zucker rats, 21-days old, were fed a cafeteria diet for 70 days. The cafeteria diet-obese rats were infused for 28 days (using miniosmotic pumps) with oleoyl-estrone in liposomes (Merlin-2) at a dose of 3.5 mmol/day.kg. Treatment resulted in loss of body weight: 11.6% (32 g), mainly due to fat: 20.0% (8.8 g), protein 5.2% (2.0 g) and water, preventing further increases in body weight and fat storage. Untreated rats increased their body weight: 7.6% (20 g), lipid: 10.5% (4.2 g) and protein: 13.2% (4.8 g). Plasma glucose, urea, triacylglycerols and cholesterol practically did not change with treatment. Merlin-2 decreased energy intake (to 83.7%) and energy output (to 87.7%, oxygen consumption). Decreases in nitrogen intake were partly compensated by higher digestive efficiency in treated rats. The size of the nitrogen gap was higher in treated rats than in controls. Essentially, protein balance was maintained and slimming was achieved with a minimal loss of body protein. Treated rats selected less carbohydrate, in particular sugars, in their diet than controls, but consumed practically the same protein and lipid. Treatment of cafeteria diet-fed rats with oleoylestrone in liposomes results in sustained loss of body weight--mainly lipid--for up to 28 days. Nitrogen balance is maintained overall. This is achieved through lower food intake--mainly of sugars--and less marked changes in energy output.

Oleoyl-estrone induces the loss of body fat in rats

OBJECTIVE

Four experiments were devised to test the possible role of estrone fatty esters as adipose tissue signals carried by the blood within lipoproteins.

DESIGN

Oleoyl-estrone was synthesized and incorporated in liposomes; it was administered i.v. (to mimic lipoprotein delivery) for 14-day periods using implantable osmotic minipumps. The study included the finding of oleoyl-estrone in blood lipoproteins, the correlations of the effects of body weight to the dose and the uptake of labelled oleoyl-estrone by tissues, its internalization and disposal.

SUBJECTS

Normal-weight Wistar female rates were used. Pooled human blood was used as source of HDL3.

MEASUREMENTS

Oleoyl-estrone was identified in rat white adipose tissue and in human blood HDL3 lipoprotein fraction. Changes in body weight, food intake, oxygen consumption, respiratory quotient and nitrogen balance were measured in chronically injected rats. The uptake and hydrolysis of oleoyl-estrone by tissues was also determined following its acute administration.

RESULTS

Oleoyl-estrone induced a dose-dependent loss of weight, with decreased food intake. In 14 days, and compared with controls at the end of this period, a dose of 0.78 mumol/day induced the loss of 16.4 +/- 5.5% of body weight; the difference was maximal for doses of 15 mumol/day or higher: 24.7 +/- 3.1%. Under oleoyl-estrone treatment, body protein was preserved (positive nitrogen balances) and fat stores were wasted: lowered respiratory quotient, and deficit in energy balance; a dose of 0.78 mumol/day induced the loss of 9.6 +/- 2.2 g of total body lipids in 14 days. Most of oleoyl-estrone taken up by tissues was hydrolysed; however, in part it reached intact the cell nucleus of incubated adipocytes. Oleoyl-estrone effects were different from those of free estrone.

CONCLUSION

A lipophilic pathway for oleoyl-estrone transport by lipoproteins is postulated, allowing chemical communication between tissues. Oleoyl-estrone may be directly involved in the control of body weight.

Perinatal alterations of thyroid hormones and behaviour in adult rats

Several studies have shown the relevance of the neuroendocrinological system in the development and function of the nervous system. In order to observe the influence of thyroid hormones during development on the behaviour of adult rats we induced dysthyroid states during the perinatal period. Results indicate that some behaviours are more susceptible to the action of thyroid hormones than others. We observed that the thyroid hormone deficiency causes an increase of activity in animals in spite of a large period of rehabilitation. Thyroxine-treated rats showed an anxiogenic behavioural pattern in the elevated plus-maze, while animals rehabilitated from perinatal deficit of thyroid hormones showed an anxiolitic pattern. These findings suggest that an excess of thyroid hormones has less effect on behaviour than a deficiency of these hormones.

Is prolactin related to activity and emotional reactivity in rats?

Recent studies have shown different relationships between hormones and personality in humans, including a relationship between prolactin levels and impulsivity. The aim of the present work was to study the relationships between basal levels of prolactin and some measures of activity and emotional reactivity in rats. One of the most consistent results showed a negative correlation between basal prolactin levels and activity. This finding is in line with the serotonergic theories of impulsive behavior and with the effects of dopamine upon activity.

Gonadal hormone correlates of sensation seeking and anxiety in healthy human females

The present study focused on exploring the relationship between a number of personality measures (Sensation Seeking Scale, SSS; State-Trait Anxiety Inventory, STAI; and Susceptibility to Punishment Scale, SP) and some parameters of the pituitary-gonadal axis (FSH, LH and 17 beta-estradiol). The study was carried out with a group of 37 female volunteers. The subjects were physically and mentally fit. None of them had a personal history of psychiatric or endocrine illness. All subjects were studied at the beginning of the follicular phase. The most relevant results showed an 'inverted U shape' relationship between sensation seeking and plasma FSH levels. Lower Thrill and Adventure Seeking (TAS) scores were also found in subjects with higher levels of 17 beta-estradiol.

[Hormones and aggression]

This work is a review about psychoendocrinologic aspects of aggressive behavior. We have considered two approaches, the classical view focused on hormonal influences in the regulation of aggression and the most recent view which accounts for the influences of aggressive behavior and social status on hormonal secretion. In this review we differentiate the organizational from the activational effects. The main conclusions are referred to the gonadal steroids effects both organization and activation of the neural subtract of aggression. Among them it seems that aromatizable androgens have the most important effects. On the other hand, the testosterone would be predictive for dominant social status, the corticosterone would be for submission and finally, the ACTH would be predictive for the aggressive behavior but not for submission. In addition to that the literature point that the defeat experience is the main factor in submission. Referred to the effects of behavior on hormonal secretions, all the studies point out that social interaction elicits sympathetic-medullar and gonadal activation in the dominant animals and cortico-adrenal activation in the submissive ones.

Thyroid hormone correlates of sensation seeking and anxiety in healthy human females

The present study explores the relationships among a number of personality measures (the Sensation-Seeking Scale, SSS; the State-Trait Anxiety Inventory, and the Susceptibility to Punishment Scale) and some parameters of the pituitary-thyroid axis. The study was carried out on a group of 37 physically and mentally fit female volunteers, none of whom had a personal history of psychiatric or endocrinologic illness. The subjects were controlled for the menstrual cycle. The most relevant result was a significant negative relationship between the SSS score and plasma basal levels of thyroxine (T4) and thyroid-stimulating hormone (TSH). Interaction between T4 and TSH levels with trait anxiety was also observed.