Sex-related differences in the analgesic response to the rat tail immersion test

The analgesic response was evaluated by the tail immersion test in adult male (N = 30), female (N = 21) and androgenized female Wistar rats (N = 15). The reaction time for tail withdrawal from the hot water bath was faster for male than for female rats (3.48 +/- 0.12 vs 6.46 +/- 0.42 s). The reaction time of androgenized female rats was similar to that of male rats (3.08 +/- 0.16 s). Blockade of opiate receptors with naloxone (2 mg/kg, ip) decreased the sensitivity to the noxious stimuli in males (4.08 +/- 0.10 s) and in androgenized females (3.69 +/- 0.19 s) but increased it in female rats (5.01 +/- 0.41 s). These data show sex-related differences in the analgesic response evaluated by the tail immersion test and indicate that administration of androgens to newborn female rats affects their pain sensitivity.

Sex-related differences in cardiovascular responses to common carotid occlusion in conscious rats

Mean arterial pressure and heart rate were determined in conscious, unrestrained groups of 10 male, female and androgenized female Wistar rats 20 s (early pressor response) and 1 min (late sustained response) after bilateral carotid artery occlusion. The early pressor response, which is carotid reflex origin, was 40% greater in female than in male rats (45 ñ 2 vs 63 ñ 3 mmHg, respectively). The late sustained response, which is of central origin (probably ischemic), did not differ between male and female rats (32 ñ 2 vs 37 ñ 4 mmHg, respectively). The magnitude of the early pressor response of androgenized female rats (50 ñ 2 mmHg) was similar to that of male rats (45 ñ 2 mmHg) but the late sustained response was 19% smaller (26 ñ 2 mmHg). Common carotid occlusion caused increases in haert rate which were greater in female (51 ñ 9 and 34 ñ 9 beats/min in the early pressor response and late sustained response respectively) than in male rats (31 ñ 5 and 8 ñ 4 beats/min, respectively). In androgenized female rats, heart rate decreased during common carotid occlusion (34 ñ 7 and 35 ñ 8 beats/min after 20 s and 1 min, respectively). These data provide evidence that there are substantial sex-related differences in the cardiovascular responses to common carotid occlusion in conscoious rats and indicate that administration of androgens to newborn female rats affects the baroreceptor reflex control of their arterial pressure

Participation of opioid receptors in the modulation of the analgesic response by adrenal and gonadal glands

The invovlement of opiodi receptors in the analgesic response was evaluated by the tail-immersion test in simultaneously adrenalectomized and ovariectomized female Wistar rats (210-250g). The reaction time (mean ñ SEM) for tail withdrawal from hot water decreased significantly 2 weeks after surgery (3.52 ñ 0.20 s) when compared to intact animals (6.09 ñ 0.23 s). Hormonal replacement with dexamethasone (50*/day) did not affect reaction time (3.38 ñ 0.19 s). However, this response was restored by combined adrenal and gonadal steroid substitution (estradiol 5*g/day and progesterone 1.5*g 6h before the test) therapy (5.11 ñ 0.45 s) in animal treated with dexamethasone plus estradiol and 5.04 ñ 0.43 s in animals treated with dexamethasone plus estradiol plus progesterone). Naloxone (2mg/Kg decreased the reaction time of animals treated with adrenal and gonadal steroids (5.11 ñ 0.45 vs 4.15 ñ 0.44 and 5.04 ñ 0.43 vs 3.87 ñ 0.28 s, respectively, before and after naloxone) but failed to decrease it in rats treated with dexamethasone only (3.88 ñ 0.18 vs 4.34 ñ 0.25 s, before and after naloxone). These observations indicate that gonadal steroids are the most important steroid factors involved in the reaction time to tail immersion in hot water and confirm other reports that the opioid pathways modulating the neuronal circuitry require the presence of these hormones

The effect of tubero-infundibular dopaminergic neurons on prolactin and alpha-melanocyte stimulating hormone release

The effect of tubero-infundibular dopaminergic neurons (TIDA) on the release of prolactin (PRL) and alpha-melanocyte stimulating hormone (alpha-MSH) was studied in median eminence-lesioned (MEL) male rats (N = 6-28). Plasma PRL and alpha-MSH levels were significantly elevated 2(86.1 ñ 19.8 and 505.1 ñ 19.1 ng/ml), 4(278.7 ñ 15.5 and 487.4 ñ 125.1 ng/ml), 7 (116.2 ñ 16.2 and 495.8 ñ 62.6 ng/ml) and 14 (247.3 ñ 26.1 and 448.4 ñ 63.8 ng/ml) days after MEL when compared to sham-operated control animals (55.5 ñ 13.4 and 56.2 ñ 6.1 ng/ml, repectively). MEL altered plasma PRL and alpha-MSH levels in a diffential manner, with 1.5-to5.0-fold increase in PRL and an 8.0- to 9.0-fold increase in alpha-MSH. The increase of alpha-MSH levels occured abruptly and remained constant from days 2 to 14. These observations indicate that TIDA plays an important role in the pituitary release of PRL and alpha-MSH and provide evidence that the release of the two hormones occurs in a differential manner