Mara Bernardi

Blockade of the polyamine site of NMDA receptors produces antinociception and enhances the effect of morphine, in mice

The possible effect of ifenprodil--a potent antagonist at the polyamine site of the NMDA receptor complex--on nociceptive threshold and morphine analgesia was investigated in mice. In the hot plate test, the intraperitoneal (i.p.) injection of ifenprodil significantly prolonged the reaction time of mice at the dose of 30 mg/kg, and increased the analgesic effect of morphine. In the phenylquinone writhing test, ifenprodil reduced the number of abdominal constrictions of mice starting from the dose of 2.5 mg/kg i.p., and increased the effect of morphine. The effect of ifenprodil on pain threshold was prevented by naloxone. Moreover, ifenprodil antagonized the pain threshold-reducing effect of alpha-melanocyte-stimulating hormone (0.05 microgram/mouse, intracerebroventricularly). These data show that blockade of the polyamine site of the NMDA receptor complex produces analgesia and increases the analgesic effect of morphine.

Differential modulation of invertebrate hemocyte motility by CRF, ACTH, and its fragments

Various reports have shown that invertebrate hemocytes are responsive to mammalian neuropeptides and cytokines. In the present study, we demonstrate that corticotropin-releasing factor (CRF) and adrenocorticotropin (ACTH) fragments (1-24), (1-4), (4-9), (1-13), (1-17), and (11-24) significantly stimulate molluscan hemocyte migration, and the whole sequence (1-39) and the fragment (4-11) have an inhibitory effect. Differences between species were found with respect to the response to individual fragments. Additionally, the (4-11) fragment was able to antagonize some of the stimulatory fragments (4-9) as well as tumor necrosis factor (TNF-alpha)-induced chemotaxis. Our results suggest that invertebrate hemocytes are able to respond to CRF and ACTH fragments that in turn provide further evidence of the complexity of intercellular signaling within the immune system in relatively primitive animals. Thus, auto- and neuroimmunoregulatory activities in mammals must have had an earlier beginning than previously believed.

Sex-linked differences in avoidance learning in the offspring of rats treated with nicotine during pregnancy.

The offspring of rats treated with nicotine (0.5 mg/kg/day SC) on days 1–20 of gestation, were trained for active avoidance conditioning when 60 days old. Although learning was similar in both control groups of males and females, nicotine exposure during fetal life improved learning in females but reduced it in males, the difference between these two groups being statistically significant from day 17 until the end of the training period (day 25).

Influence of CRF and α-MSH on the migration of human monocytes in vitro

Abstract The effects of stress in the modulation of immune responses are increasingly reported by a rapidly growing body of experimental and clinical data. Here we show that corticotropin releasing factor (CRF) stimulates ‘in vitro’ the migration of human monocytes, the maximum effect being obtained at 10 −14 M. On the other hand, another important neuropeptide of the stress response, α-melanocyte stimulating hormone (α-MSH), has no significant effect on the migration of monocytes. These findings show that one of the oldest immune responses is directly modulated by a key mediator of the stress response.

ACTH(1-24) STIMULATES THE MIGRATION OF HUMAN MONOCYTES IN VITRO

In view of the increasing evidence that a variety of stresses can influence immune responses, the direct effect of adrenocorticotropic hormone on the migration of human monocytes was studied in vitro. ACTH(1-24) significantly increased the number of migrating cells when placed in the same or the opposite compartment of the chemotaxis chamber, maximum activity being obtained at 10(-14) and 10(-8) M. The results indicate that ACTH(1-24) directly and potently stimulates the migration of human monocytes by means of a chemokinetic effect.

Effects on long-term sensitivity to pain and morphine of stress induced in the newborn rat by pain or manipulation

Four times daily from postnatal day 1 to 15, rats were stressed either by being removed from the maternity cage (manipulation stress, MS) or by being placed on a hotplate at 55 degrees C (pain stress, PS). When 70 days old, they were examined for sensitivity to pain and to the analgesic effect of morphine, and for brain opiate receptors. Pain sensitivity of MS and PS rats was not significantly different from that of controls. The analgesic activity of morphine, assessed by the hotplate test at 49 degrees C, was significantly reduced in MS rats, while in PS rats it was similar to that in controls. 3H-dihydromorphine binding studies performed on whole brain synaptic membranes showed a reduction in the maximum number of binding sites in both MS and PS rats; on the other hand, the affinity constant was higher in PS rats, while in MS rats it was similar to that of controls. These data show that the repeated stress of removal from the mother during the first 15 days of life induce a reduction in the number of brain opiate receptors with reduced activity of morphine, while in rats exposed to repeated removal stress associated with painful stimuli the reduction in the number of brain opiate receptors seems to be counterbalanced by their higher affinity.

Behavioral activity and active avoidance learning and retention in rats neonatally exposed to painful stimuli.

Twice daily for the first 15 days after birth, rats from the same litters were either placed for 5 sec on a hot plate (55 degrees C) (treated group), or on a plate maintained at body temperature (38 degrees C) (manipulated group). Controls were left undisturbed. When 90 days old, they were studied for pain threshold, open-field behavior, and two-way active avoidance learning and retention. Weight gain, pain threshold, open-field behavior, and active avoidance retention were not significantly different in the three groups. On the other hand, the rate of two-way active avoidance learning was significantly greater in treated rats. These results suggest that repeated neonatal exposure to painful stimuli, in rats raised under otherwise normal conditions, improves later active avoidance performance. The most likely mechanisms are discussed.

Influence of endorphins on the migration of molluscan hemocytes

Abstract The influence of endorphins on the hemocyte migration of two molluscs, Planobarius corneus and Viviparus ater , was tested. The whole sequence of β-endorphin and its N- and C-terminal fragments stimulate hemocyte migration. Naloxone is able to partially reverse the endorphin effect. In V. ater hemocytes, the acetylated derivative of β-endorphin has a significant stimulatory effect at lower concentration.

Antidiuretic and nephrotoxic effects of putrescine in rats

Putrescine, intraperitoneally injected either into intact or into hypophysectomized rats, caused a reduction in urine volume at doses of 200-300 mg/kg. At doses of 100 mg/kg or more, there was also a significant loss of potassium. The highest dose (300 mg/kg) caused haemoglobinuria, proteinuria, increased natriuresis, increased urinary osmolarity, reduced aldosteronaemia, ectasis of glomerular capillaries and tubular damage. The underlying mechanism(s) are probably mostly linked to the strong cationic charge of putrescine and to its binding to fixed anions of tubular-cell membrane.

Influence of gonadotropin-releasing hormone on castration-induced ‘depression’ in mice: a behavioral and binding study

Long-term (33-35 days) castration caused a significant increase in the duration of immobility of male and female mice in the tail suspension test (an animal model of depression), and a significant decrease in the maximum number (Bmax) of [3H]imipramine binding sites in the cerebral cortex of male mice. In the tail suspension test, gonadotropin-releasing hormone (GnRH), s.c. injected 3 times at 3-h intervals at doses of 0.2, 2 or 20 micrograms/kg, did not significantly modify the duration of immobility of castrated animals and did not reduce that of sham-operated ones, while desipramine (20 mg/kg s.c. 1 h before testing) restored immobility to normal in castrated animals and reduced it significantly in sham-operated ones. The same treatment schedule with GnRH produced an increase in the number of [3H]imipramine Bmax in cortical membranes that was statistically significant at the dose of 2 micrograms/kg. It is concluded that the castration-induced depression-like behavior in mice seems not to be due to the decreased levels and release of GnRH, and that GnRH has no antidepressant-like effect in mice, at least at our dose levels; however, GnRH seems to increase the number of cortical [3H]imipramine binding sites.