Sex Differences in Effects of Prenatal Stress on Specific Biphasic Behavioral Response in Nociceptive Formalin Test in Adult Rats

Remote effects of stress (immobilization) in pregnant females at critical stages of fetal development on pain sensitivity to a long-term nociceptive stimulus (formalin test) were studied in their female and male off-spring at the age of 90 days. Prenatal stress produced changes of the standardized specific biphasic behavior response (BBR), whose intensity was evaluated by the number of flexion and shakings and by duration of licking of thee extremity injected with formalin. Apart from intensity of the BBR, duration of its both phases and of interphase interval was determined. It was found that the response intensity by the licking pattern increased significantly at the first response phase reflecting acute pain in males, whereas at the second phase reflecting tonic pain, both in females and males; duration of the phases and interphase interval increased statistically significantly only in females. Thus, in the prenatally stressed adult rats, an increase of pain sensitivity to a long-term nociceptive stimulus producing inflammation has been revealed by the BBR patterns organized at the supraspinal, but not at the spinal CNS level. Sex differences were found in the acute phase intensity and in duration both of acute and of tonic response phase. The data obtained indicate different effects of prenatal stress on the nociceptive systems involved in realization of the BBR in the formalin test in adult females and males and are an essential argument in favor of the concept of different characteristics of the acute and tonic pain.     

Consequences of the prenatal depletion of serotonin and stress on nociceptive sensitivity in rats

The long-term effects of serotonin (5-HT) synthesis alteration and of restraint stress experienced by pregnant Wistar rats on pain sensitivity (evaluated by the indices of the biphasic behavioral response in the formalin test) were studied in their 90-day-old offspring. Prenatal 5-HT depletion decreased pain sensitivity in one third of the rats and failed to change it in the rest of the rast. In these later, however, an obvious tendency for an increase of interphase duration in females and its decrease in males were revealed that indicates changing of the activity of the descending serotoninergic system modulating nociceptive signals at the level of the spinal dorsal horns. Prenatal stress decreased pain sensitivity in 50% of the rats with prenatal deficiency of 5-HT but increased it in the rest of the animals. Increase of pain sensitivity also occurred in the control rats but to a lesser extent (significantly in flexing + shaking behavior during the second phase) compared to the animals with prenatal 5-HT depletion. In the latter, sex differences were found in effects of prenatal stress on pain sensitivity. The present data point an important role of 5-HT in: 1) embryonic development of tonic nociceptive system which is modulated in the CNS by mechanisms differing from those of acute pain; 2) mediation of the prenatal stress influence on pain sensitivity in the formalin test in adult rats.     

Differences in Behavioral Parameters of Long-Term Pain in Formalin Test at the Period of Sex Maturation in Prenatally Stressed Female and Male Rats

The effect of immobilization of pregnant rats was studied on parameters of the specific biphasic behavioral response (BBR) (patterns of flexion, shaking, licking, duration of the phases and of the interphase interval), of which the first phase characterizes the acute, while the second, he long-term pain in a nociceptive formalin test in the 40-day old female and male off-spring. The following was found: (1) an increase of intensity of patterns of flexion and shaking in the extremity injected with formalin at the second response phase and of the phase duration both in males and in females, (2) an increase of the licking pattern during the second phase and of the phase duration in males. Thus, the prenatal stress produced an increase of the pain sensitivity only at the long-term BBR phase; this increase was revealed in males from the patterns organized at the spinal and supraspinal levels, whereas in females, only at the spinal level. It was concluded that at the period of sex maturation, before the onset of sex maturity, the prenatally stressed males had more expressed damages in the behavioral parameters of the long-term pain in the formalin test, as compared with the prenatally stressed females. The comparative analysis of the response parameters allows suggesting the greater damage in males, then in females, of the inhibition process in the descending inhibitory system modulating nociceptive signals at the spinal cord level.     

Sex-dependent differences in parameters of long-term pain caused by inflammatory focus in prenatally stressed newborn rats

In experiments on the 7-day old female and male Long-Evans rat pups, for the first time, there was studied effect of prenatal (immobilization) stress on dynamics of nociceptive behavioral response caused by an inflammatory focus. The nociceptive sensitivity was evaluated for 1 h by the number of the flexion-shaking patterns organized at the spinal level in response to injection of formalin (10%, 10 μl) to the posterior leg sole. Control rat pups were not submitted to any prenatal stress; in these animals the response in the formalin test was found to be represented by one phase. It the prenatally stressed rat pups the studied patterns were organized into two phases characteristic of the definitive type of response. At the period between them (during interphase), the nociceptive behavior was absent. At the second, tonic phase the number of flexion-shakings in the prenatally stressed males was statistically significantly higher than in the prenatally stressed females, which indicates a sensitization of the neurons involved in the tonic pain chains in male individuals. Thus, the data obtained on prenatally stressed animals confirm the previous data about immaturity of the mechanisms mediating the second phase of response in the formalin test in the 7-day old rat pups. An important fact is revealed which indicates that in the prenatally stressed rat pups of the same age the second phase of response is already obvious. Mechanisms underlying the behavioral response caused by the inflammatory focus in the formalin test in the one-week old stressed rat pups are characterized by sexual dimorphism: the pain sensitivity in males at the second phase of response is statistically significantly higher than in females.     

Sex-dependent differences in parameters of a long-term pain caused by inflammatory focus in prenatally stressed newborn rats

In experiments on the 7-day-old female and male Long-Evans rat pups, for the first time, there was studied effect of prenatal (immobilization) stress on dynamics of nociceptive behavioral response caused by an inflammatory focus. The nociceptive sensitivity was evaluated for 1 h by the number of 7-day-old organized at the spinal level in response to injection of formalin (10%, 10 microl) to the posterior leg sole. Control rat pups were not submitted to any prenatal stress; in these animals the response in the formalin test was found to be represented by one phase. It the prenatally stressed rat pups the studied patterns were organized into two phases characteristic of the definitive type of response. At the period between them (during interphase), the nociceptive behavior was absent. At the second, tonic phase the number of flexes+shakes in the prenatally stressed males was statistically significantly higher than in the prenatally stressed females, which indicates a sensitization of the neurons involved in the tonic pain chains in male individuals. Thus, the data obtained on prenatally stressed animals confirm the previous data about immaturity of the mechanisms mediating the second phase of response in the formalin test in the 7-day-old rat pups. An important fact is revealed which indicates that in the prenatally stressed rat pups of the same age the second phase of response is already obvious. Mechanisms underlying the behavioral response caused by the inflammatory focus in the formalin test in the number flexes + shakes old stressed rat pups are characterized by sexual dimorphism: the pain sensitivity in males at the second phase of response is statistically significantly higher than in females.     

Antinociceptive properties of the 5-HT3 receptor antagonist in the model of inflammatory pain in rats of different age with prenatal deficit of serotonine and under stress

The role of peripheral 5-HT3 receptors in the nociceptive behavioral response and the effect of the 5-HT3 antagonist ondansetron on indices of acute and tonic pain were investigated in the formalin test in 25- and 90-day-old Wistar male rats. The experimental rats were prenatally exposed to 5-HT depletion (a single injection ofparachlorophenilalanine 400 mg/kg/2 ml, i. p.; ICN, USA to the dams on day 9 of pregnancy) and to stress (dams immobilization during the last week of pregnancy). Antinociceptive effects of ondansetron in the rats with both prenatal 5-HT deficiency and stress (experimental rats) and prenatal injection of saline solution and stress (control rats) were more obvious in the younger animals. Prenatal 5-HT deficiency attenuated the antinociceptive effect of ondansetron in licking patterns in the younder age group in acute pain, and in adults--in tonic pain. Thus, the data obtained in the rats with prenatal 5-HT deficiency and stress indicate involvement of 5-HT3 receptors in mediation of prolonged pain in the formalin test, and antinociceptive effect of ondansetron which is attenuated in animals with prenatal 5-HT deficiency and specifically depends on rat's age.     

Decreased serotonin level during pregnancy alters morphological and functional characteristics of tonic nociceptive system in juvenile offspring of the rat

Serotonin (5-HT) contributes to the prenatal development of the central nervous system, acting as a morphogen in the young embryo and later as a neurotransmitter. This biologically active agent influences both morphological and biochemical differentiation of raphe neurons, which give rise to the descending serotonergic paths that regulate the processing of acutely evoked nociceptive inputs. The involvement of 5-HT in the prenatal development of tonic nociceptive system has not been studied. In the present study we evaluated the effects of a single injection (400 mg/kg, 2 ml, i.p.) of the 5-HT synthesis inhibitor, para-chlorophenylalanine (pCPA), given to pregnant rats during the critical period fetal serotonin development. The functional integrity of the tonic nociceptive response was investigated in 25 day old rats using the classic formalin test. Morphological analysis of brain structures involved in formalin-induced pain and 5-HT levels in the heads of 12-day embryos were also evaluated. Embryonic levels of 5-HT were significantly lowered by the treatment. The juvenile rats from pCPA-treated females showed altered brain morphology and cell differentiation in the developing cortex, hippocampus, raphe nuclei, and substantia nigra. In the formalin test, there were significant decreases in the intensity and duration of the second phase of the formalin-induced response, characterizing persistent, tonic pain. The extent of impairments in the brain structures correlated positively with the level of decrease in the behavioral responses. The data demonstrate the involvement of 5-HT in the prenatal development of the tonic nociceptive system. The decreased tonic component of the behavioral response can be explained by lower activity of the descending excitatory serotonergic system originating in the raphe nuclei, resulting in decreased tonic pain processing organized at the level of the dorsal horn of the spinal cord.     

Nociceptive sensitivity to a long-term stimulus in the formalin test in female and male rats in postnatal ontogenesis

In Wistar rats, a comparative study of pain sensitivity to the long-term stimulus in the formalin test was carried out at different age periods—the prepubertal (25 days), pubertal (40 days), and sex maturity (90 days) periods. The pain sensitivity was evaluated by standard indexes of the biphasic behavioral response (BBR)—patterns of flexing, shaking, licking of the leg injected by formalin, and by duration of the first and second response phases and of the interphase interval. It is found that with development of the central nervous system the pain sensitivity changed, with differences in the first, acute and the second, tonic BBR phases: in the tonic phase of response the pain sensitivity increased in males by the indexes organized at the spinal, while in females, at the supraspinal level, whereas in the acute phase it decreased essentially at the supraspinal level in individuals of both sexes. The greater number of age differences in the pain sensitivity is revealed in females by the response patterns organized at the supraspinal level. At the same level, essential readjustments in hormonal and neurotransmitter systems are reflected in the high BBR indexes. In adult individuals the sex dimorphism is detected in duration of the interphase intervals. Activity of the bulbospinal descending inhibitory monoaminergic systems is shown to continue increasing for the first three months of life, with predominance of this process in females. The obtained data allow concluding that the BBR characteristics depend on age and sex of individuals and are determined by the organization level in CNS of the response patterns characterizing the pain sensitivity in the formalin test.Translated from Zhurnal Evolyutsionnoi Biokhimii i Fiziologii, Vol. 41, No. 1, 2005, pp. 76–81.Original Russian Text Copyright © 2005 by Butkevich, Vershinina.     

Long-term effects of stress in critical periods of development on reactivity of adult female rats

Effects of stress during different periods of ontogeny, namely, the prenatal, prepubertal, or their combination (prenatal+prepubertal), on the indices of psychoemotional and tonic pain-related behaviors, as well as corticosterone reactivity after pain behavior were investigated in adult 90-day-old female Wistar rats. Our data show for the first time, the similarity of effects of prenatal (immobilization stress of a rat dam during the last week of pregnancy) and prepubertal (forced swimming, pain-related response in the formalin test) stresses on the indices under study, an increase in the time of immobility and in licking duration, but the difference between effects of combined stress on these indices. Pain-related response increased corticosterone in prepubertally stressed rats while in prenatally stressed rats, decreased it. In rats experienced combined stress, formalin-induced pain increased corticosterone as compared with that in prenatally, but not in prepubertally stressed rats. A positive correlation between pain-related reaction and stressed hormonal response was revealed in prepubertally stressed animals. So, long-term effects of stress during critical periods of ontogeny determine stress reactivity of behavioral and hormonal responses in adult female rats.     

Effect of prenatal stress upon parameters of the behavioral response induced by a tonic pain focus in male and female rats during postnatal ontogenesis

The long-term effects of prenatal stress (immobilization of females during the last week of pregnancy) were studied on pain sensitivity to a prolonged irritant in Wistar rats during prepubertal, pubertal periods of development and in adults. Pain sensitivity was evaluated from indices of the biphasic behavioral response in the classical formalin test--the intensity of patterns of flexes, shakes and time spent licking, and from duration of the first, acute and the second, tonic phases and from the duration of interphase. Consequences of the prenatal stress manifested themselves differently in the patterns of the response organized at the spinal and supraspinal levels, during tonic phase mainly, differently in females and males; there were peculiarities of effects of prenatal stress in each age period. The data obtained suggest that the consequences of the prenatal stress at the spinal level manifest themselves in activation of modulating descending facilitating and in suppression of inhibitory monoaminergic systems in prepubertal and pubertal rats, and on the contrary, in activation of descending inhibitory and suppression of facilitating systems in adults. Furthermore, considerable evidence is obtained corroborating the idea of inhibitory nature of the interphase and the mechanisms of modulation of acute and tonic phases in the formalin test during different age periods of the individual development.     

Effects of maternal corticosterone and stress on behavioral and hormonal indices of formalin pain in male and female offspring of different ages

In previous studies, we showed for the first time that prenatal stress in rats produces long-term alterations of formalin-induced pain behavior that are dependent on age and sex, and we demonstrated an important role of the serotonergic system in mechanisms of prenatal stress (Butkevich, I.P. and Vershinina, E.A., 2001; Butkevich, I.P. and Vershinina, E.A., 2003; Butkevich, I.P., Mikhailenko, V.A., Vershinina, E.A., Khozhai, L.I., Grigorev, I.P., Otellin, V.A., 2005; Butkevich, I.P., Mikhailenko, V.A., Khozhai, L.I., Otellin, V.A., 2006). In the present study, we focus on the influence of the maternal corticosterone milieu and its role in the effects of stress during pregnancy on formalin-induced pain and the corticosterone response to it in male and female offspring of different ages. For this purpose, we used adrenalectomy (AD) in female rats 3-4 weeks before mating (as distinct from AD typically performed at the beginning of pregnancy). Since AD is considered a reliable method to treat hypercortisolism, researches on the effects of long-term AD in dams on the systems responsible for adaptive behavior in offspring are important (such studies are not described in the literature). The results demonstrate that the differences in the corticosterone response to injection of formalin and saline are obvious in 90-day-old (adult) female offspring but masked in 25-day-old ones. AD promoted the corticosterone response to formalin-induced pain but not to injection of saline in prenatally non-stressed female offspring of both ages. Prenatal stress canceled the differences in corticosterone response to injection of formalin and saline in 25-day-old offspring of AD dams and in adult offspring of sham-operated (SH) dams but caused similar differences in adult offspring of AD dams. Sex differences were found in basal corticosterone levels in AD prenatally stressed rats of both age groups, with a higher level in females, and in the corticosterone response to formalin-induced pain in the adult rats of all groups investigated, with higher corticosterone levels in females. In regard to pain behavior, AD induced significant changes in flexing + shaking in prenatally non-stressed adult offspring and canceled the differences in this behavior between non-stressed and stressed 25-day-old offspring. There were sex differences in pain behavior of the adult rats: greater flexing + shaking in AD non-stressed males but in SH non-stressed females; greater licking in prenatally-stressed AD and SH females. These results indicate that the long-term influences of maternal corticosterone on formalin-induced pain and the corticosterone response to it are determined by the sex and age of the offspring and suggest that other mechanisms, including serotonergic ones revealed in our previous studies, are involved in the effects of prenatal stress on inflammatory pain behavior.     

Behavioral responses to phasic nociceptive stimulation occurring on the background of a tonic pain focus in ontogeny of the rabbit

The effect of a focus of tonic pain (a subcutaneous injection of formalin into the dorsal field of the shin) on the thresholds of a defense reaction, an attempt to jump out of the chamber in response to a nociceptive electrocutaneous stimulation of the hindpaw1, was studied in the 20– 25-day-old and adult rabbits. The tonic pain produces a biphasic reduction of the defense reaction threshold. At the first phase, hyperalgesia is more pronounced than in the second one, but its duration is shorter. Changes in pain sensitivity in the rabbits proceed in the same direction in both age groups and coincide in time with increase of specific behavioral responses to the formalin injection (licking and shaking the paw). In the 20–25-day-old rabbits the reduction of the threshold of the defense reaction and duration of hyperalgesia phases are more pronounced than in adult animals. Deceased.     

Peripheral effect of a kappa opioid receptor antagonist on nociception evoked by formalin injected in TMJ of pregnant rats

The effect of sex hormones on orofacial pain modulation is poorly understood. Therefore, this study aimed to investigate the effect of hormonal changes as a result of pregnancy, as well as that of the kappa (kappa) opioid receptor antagonist on female rats' sensitivity to the temporomandibular joint (TMJ) formalin test. Initially, female rats at estrus and pregnant females on day 19 of pregnancy received a 50 microl formalin (1.5%) injection in the right TMJ. The pregnant females showed a reduction in nociceptive responses to the TMJ formalin test when compared with those at estrus. Then, the selective kappa-opioid receptor antagonist nor-Binaltorphimine (nor-BNI), was co-administered with the formalin. Next, additional groups received the kappa (200 microg) receptor antagonist or 0.9% NaCl 24 hours prior to the periarticular injection of formalin. Co-administration of nor-BNI with formalin into the TMJ region had no significant effect. The pre-injection of selective kappa-opioid receptor antagonist, nor-BNI, significantly enhanced the nociceptive behavioral responses in pregnant females. When applied in the contralateral TMJ, nor-BNI did not affect the magnitude of the nociceptive response induced by formalin. It can be concluded that: 1) The increase of the sex hormone levels, as result of pregnancy, induces a reduction of nociceptive behavioral responses to the TMJ formalin test; 2) the peripheral kappa opioid receptor activation, by endogenous opioid agonists release, is involved in the antinociception to TMJ formalin test, induced by pregnancy.     

Descending serotonergic facilitation of spinal ERK activation and pain behavior

Serotonin (5-HT) derived from bulbo-spinal projection is released by nociceptive input into the spinal dorsal horn. Here we report that formalin injection in the paw produced pain behavior (flinching) and phosphorylation of spinal ERK1/2 (P-ERK1/2, indicating activation) in rats. Depletion of spinal 5-HT by intrathecal (IT) 5,7-DHT, a serotonergic neurotoxin, profoundly reduced formalin evoked flinching and the increase in P-ERK1/2. Ondansetron (a 5-HT3 receptor antagonist) at IT doses that inhibited flinching also attenuated spinal ERK activation. These findings reveal that primary afferent-evoked activation of spinal ERK requires the input from an excitatory 5-HT descending pathway.     

Opiate-like substances mediate norepinephrine-induced but not serotonin-induced antinociception at spinal level: reevaluation by an electrophysiological model of formalin test in rats

After subcutaneous injection of formalin (5%, 50 microl) into a hindpaw of rats, biphasic excitatory nociceptive discharges were recorded extracellularly in thalamic parafascicular neurons. Intrathecal (i.t.) administration of either norepinephrine (NE. 6 nmol, 10 microl) or serotonin (5-HT, 120 nmol, 10 microl) prior to the second phase significantly inhibited the second phase of the formalin-induced parafascicular nociceptive discharges. Intrathecal naloxone (Nal, 50 nmol, 10 microl) did not show any effect on the parafascicular nociceptive discharges. However, when i.t. Nal was given 5 min before NE, Nal prevented the NE antinociceptive effect. Pre-administration of Nal before 5-HT did not affect the antinociceptive effects of 5-HT on the second phase of nociceptive discharges. These results indicate that opiate-like substances are involved in the mediation of NE-induced antinociception. It is suggested that endogenous NE and 5-HT released from brainstem descending terminals at the spinal level carry out their antinociceptive actions differently.     

Effects of melatonin, morphine and diazepam on formalin-induced nociception in mice

The possible analgesic effect of melatonin was investigated in young male ICR mice. The formalin test which elicits typically 2 phases of pain response, the acute (first) phase and tonic (second) phase, was used. The test was performed in the late light period when the mice have been reported to be more sensitive to pain. Compared to control mice, no significant difference in nociceptive response was observed when melatonin was injected intraperitoneally at doses of 0.1, 5, and 20, mg/kg body weight. The combined effects of melatonin with diazepam and/or morphine, were also investigated. Melatonin, injected at 20 mg/kg 15 min before formalin test, significantly increased the antinociceptive response of diazepam (1 mg/kg) or morphine (5 mg/kg) in the second phase. In addition, when melatonin was given at 20 mg/kg together with diazepam and morphine, antinociceptive responses in both the first and second phase were increased. These data indicate the synergistic analgesia effect of melatonin with morphine and diazepam and suggest the possible involvement of melatonin as an adjunct medicine for pain patients.     

Infantile stage of rat development in behavioral parameters of depression-like state and pain response

In the 7–8- and the 10–11-day old male rat pups born to dams exposed to an immobilization stress for the last week of pregnancy and to the dams exposed to no stress (control), behavioral parameters were studied: the level of depression in the test of forced swimming (the Porsolt’s test) and 24 h after a long pain response during inflammation (the formalin test—a subcutaneous injection of 2.5% formalin into the hind leg plantar pad). In control pups, significant age-related changes in the forced swimming were revealed: the immobility time was longer in animals of the older age group, whereas no age differences were found in parameters of the persistent inflammatory pain and in flexing + shaking behavior. The prenatal stress produced an increase in the immobility time and the flexing + shaking behavior in the 7–8-day old, but not in the 10–11-day old rat pups. This resulted in elimination of the age differences in the immobility time in the prenatally stressed animals. Thus, use of different methodic approaches has allowed revealing peculiarities in the parameters of the degree of depression and duration of the pain response at inflammation in the 7–8- and 10–11-day old rat pups, which indicates heterogeneity of the infantile development stage that, according to literature data, includes in rats the period from the 5th to the 10th postnatal days.     

ERK MAP Kinase Activation in Spinal Cord Regulates Phosphorylation of Cdk5 at Serine 159 and Contributes to Peripheral Inflammation Induced Pain/Hypersensitivity

Cyclin-dependent kinase 5 is a proline-directed serine/threonine kinase and its activity participates in the regulation of nociceptive signaling. Like binding with the activators (P35 or P25), the phosphorylation of Cdk5 plays a critical role in Cdk5 activation. However, it is still unclear whether Cdk5 phosphorylation (p-Cdk5) contributes to pain hyperalgesia. The aim of our current study was to identify the roles of p-Cdk5 and its upstream regulator in response to peripheral inflammation. Complete Freund''s adjuvant (CFA) injection induced acute peripheral inflammation and heat hyperalgesia, which was accompanied by sustained increases in phospho-ERK1/2 (p-ERK1/2) and phospho-Cdk5^S159 (p-Cdk5^S159) in the spinal cord dorsal horn (SCDH). CFA-induced p-ERK primarily colocalized with p-Cdk5^S159 in superficial dorsal horn neurons. Levels in p-ERK and p-Cdk5 were also increased in the 2^nd phase of hyperalgesia induced by formalin injection, which can produce acute and tonic inflammatory pain. MAP kinase kinase inhibitor U0126 intrathecal delivery significantly suppressed the elevation of p-Cdk5^S159, Cdk5 activity and pain response behavior (Heat hyperalgesia, Spontaneous flinches) induced by CFA or formalin injection. Cdk5 inhibitor roscovitine intrathecal administration also suppressed CFA-induced heat hyperalgesia and Cdk5 phosphorylation, but did not attenuate ERK activation. All these findings suggested that p-Cdk5^S159 regulated by ERK pathway activity may be a critical mechanism involved in the activation of Cdk5 in nociceptive spinal neurons contributes to peripheral inflammatory pain hypersensitivity.     

Antinociceptive effect of spinally injected L-NAME on the acute nociceptive response induced by low concentrations of formalin

The formalin test has been proposed as an animal model of pain produced by tissue injury. Although biphasic nociceptive responses to formalin injection have been well documented, low concentrations (0.125 and 0.5%) of formalin injected into the mouse hindpaw produced only the phasic (acute) paw-licking response, lasting the first 5 min after the formalin injection. To explore the involvement of nitric oxide (NO) in the spinal cord and peripheral system during the acute phase of the formalin test, we examined the effect of intrathecal (i.t.) or intraplantar (i.pl.) injection of L-N(G)-nitro arginine methyl ester (L-NAME), a NO synthase inhibitor in mice. Pretreatment with L-NAME (160 nmol), injected i.t., resulted in a significant inhibition of the paw-licking response induced by 0.125 and 0.5% of formalin. L-Arginine (600 mg/kg, i.p.) but not D-arginine (600 mg/kg, i.p.) reversed the antinociceptive effect of L-NAME on the acute nociceptive response induced by low concentrations of formalin. The i.pl. injection of L-NAME (160 nmol) produced a significant decrease of the late (tonic) phase response evoked by 2.0% formalin without affecting the early (acute) phase response. Similar results have been reported in the case of i.t. injected L-NAME as assayed by the 2.0% formalin test. L-NAME (160 nmol), injected into the plantar paw, gave no significant effect on the acute nociceptive response induced by a low concentration of formalin (0.125%). These results suggest that NO in the spinal cord may be involved in not only the late phase response of the formalin (2.0%)-induced paw-licking, but also at least the acute phase response induced by low concentrations (0.125 and 0.5%) of formalin, while peripheral NO has little effect on the early (acute) phase nociceptive response evoked by formalin (0.125--2.0%) injection.     

Prenatal stress impairs maternal behavior in a conflict situation and reduces hippocampal benzodiazepine receptors

Maternal behavior (pup retrieval) was assessed in prenatally stressed rats during control and conflict situations (having to pass through an airstream) when their pups were 4-5 days old. There was no difference in pup retrieval between experimental and control rats under normal conditions but only 52% of the former retrieved their pups during the conflict situation, compared with 96% of the controls. Catecholamine (CA) levels in the arcuate nucleus (Arc.n.) and noradrenaline in the medial preoptic nucleus (POM) were not altered in prenatally stressed females, but their dopamine levels in the POM tended to be lower (p less than 0.1). The number of benzodiazepine (BZ) receptors in the hippocampi of prenatally stressed females was significantly lower than in controls. We conclude from these results that random prenatal noise and light stress increases the vulnerability to stressful situations in the female offspring during adulthood, which may be accompanied by altered CA function in the hypothalamus and BZ binding in the hippocampus.