Repeated isolation stress in the neonatal rat: relation to brain dopamine systems in the 10-day-old rat

Isolation of the rat pup from the nest and dam for one hour per day from PN 2-9 is a useful paradigm for producing stress in the neonate. These previously isolated rats respond to an amphetamine challenge with alterations in activity at the juvenile stage or as adults. Furthermore, when dopamine release is measured in the nucleus accumbens, juveniles release 3 times more dopamine after amphetamine than do controls. This study describes changes in behavior and brain dopamine systems at PN 10. Experiment 1 determined an appropriate amphetamine dose that could be used for behavioral activation at PN 10. Experiment 2 produced significant evidence of enhanced behavioral activation after the isolation paradigm and indicated that brain regions innervated by the mesolimbic dopamine system, septum, and hypothalamus display increased dopamine turnover and that the nigrostriatal pathway is less active. Likewise, in Experiment 3, in vivo microdialysis of the nucleus accumbens indicated that previously isolated pups respond to an amphetamine challenge with a several-fold increase in dopamine release over a 4-hour session.

Sonographic structure of isolation-induced ultrasonic calls of rat pups

Sonographic analysis of isolation-induced calls of 10- to 17-day-old Sprague-Dawley rat pups showed that average acoustic parameters of calls changed with pups' age. Average call duration increased with age from 80 ms to over 140 ms in 15-day-old pups. The peak frequency increased from approximately 50 kHz to an average of 64 kHz in 17-day-old pups, and the average bandwidth increased from 34 to 45 kHz in 17-day-old pups. Analysis of the sonographic structure of pup calls additionally revealed a tendency to produce two or more alternating sweeps of sound frequency in each call. Development of sweeps is the most typical feature of pup calls with a dominant call type resembling "U" or inverted "U" shape in the sonogram. Number of "U" or inverted "U" call types significantly increased with pups' age. It is concluded that pups developed and strengthened those acoustic features of distress calls which play a role in intraspecific communication and maximize pup survival.

No association between the alpha-2 macroglobulin I1000V polymorphism and Alzheimer's disease

Recent reports have suggested that variability in the alpha2-macroglobulin gene is a genetic risk factor for Alzheimer's disease. Here we have both tested a common polymorphism in the gene (I1000V) for association with the disease in a four-site case control study design, and tested the locus for linkage in a large series of sibpairs afflicted with late onset disease. Our results fail to show an association between this polymorphism and disease.

Age of onset in Huntington disease: sex specific influence of apolipoprotein E genotype and normal CAG repeat length

Age of onset (AO) of Huntington disease (HD) is known to be correlated with the length of an expanded CAG repeat in the HD gene. Apolipoprotein E (APOE) genotype, in turn, is known to influence AO in Alzheimer disease, rendering the APOE gene a likely candidate to affect AO in other neurological diseases too. We therefore determined APOE genotype and normal CAG repeat length in the HD gene for 138 HD patients who were previously analysed with respect to CAG repeat length. Genotyping for APOE was performed blind to clinical information. In addition to highlighting the effect of the normal repeat length upon AO in maternally inherited HD and in male patients, we show that the APOE epsilon2epsilon3 genotype is associated with significantly earlier AO in males than in females. Such a sex difference in AO was not apparent for any of the other APOE genotypes. Our findings suggest that subtle differences in the course of the neurodegeneration in HD may allow interacting genes to exert gender specific effects upon AO.

A full genome scan for late onset Alzheimer's disease

We have genotyped 292 affected sibling pairs (ASPs) with Alzheimer's disease (AD) according to NINCDS-ADRDA diagnostic criteria and with onset ages of >/=65 years using 237 microsatellite markers separated by an average distance of 16.3 cM. Data were analysed by SPLINK and MAPMAKER/SIBS on the whole sample of 292 ASPs and subsets of 162 ASPs where both members possessed an apolipoprotein E (APOE)straightepsilon4 allele and 63 pairs where neither possessed anstraightepsilon4 allele. Sixteen peaks with a multipoint lod score (MLS) >1 either in the whole sample, the straightepsilon4-positive or -negative subgroups were observed on chromosomes 1 (two peaks), 2, 5, 6, 9 (two peaks), 10 (two peaks), 12, 13, 14, 19, 21 and X (two peaks). Simulation studies revealed that these findings exceeded those expected by chance, although many are likely to be false positives. The highest lod scores on chromosomes 1 (MLS 2.67), 9 (MLS 2.38), 10 (MLS 2.27) and 19 (MLS 1.79) fulfilLander and Kruglyak's definition of 'suggestive' in that they would be expected to occur by chance once or less per genome scan. Several other peaks were only marginally less significant than this, in particular those on chromosomes 14 (MLS 2.16), 5 (MLS 2.00), 12, close to alpha2-macroglobulin (MLS 1.91), and 21, close to amyloid precursor protein (MLS 1.77). This is the largest genome scan to date in AD and shows for the first time that this is a genetically complex disorder involving several, perhaps many, genes in addition to APOE. Moreover, our data will be of interest to those hoping to identify positional candidate genes using information emerging from neurobiological studies of AD.

Hippocampal neurochemical and electrophysiological measures from freely moving rats

This paper describes surgical and recording procedures that have been developed which permit the simultaneous monitoring of levels of select neurochemicals (via microdialysis) and measures of dentate-evoked field potentials within the hippocampal formation of freely moving adult rats. To test and evaluate these procedures, they were employed to examine changes in hippocampal neurochemistry and neuronal excitability associated with the establishment and maintenance of hippocampal long-term potentiation (LTP). Measures of hippocampal norepinephrine (NE) and glutamate levels along with measures of the dentate granule cell population spike amplitude (PSA) were obtained before, during, and after tetanization of the medial perforant path using two separate tetanization paradigms. Results obtained using these new procedures in several animals indicated that changes in NE and glutamate levels were strongly correlated with increases in the dentate granule cell PSA measure obtained following tetanization. The results indicate that this newly developed procedure can be effectively used to directly examine the relationship between neurochemical and neurophysiological changes associated with hippocampal neuroplasticity.

Repeated isolation stress in the neonatal rat: relation to brain dopamine systems in the 10-day-old rat

Isolation of the rat pup from the nest and dam for one hour per day from PN 2-9 is a useful paradigm for producing stress in the neonate. These previously isolated rats respond to an amphetamine challenge with alterations in activity at the juvenile stage or as adults. Furthermore, when dopamine release is measured in the nucleus accumbens, juveniles release 3 times more dopamine after amphetamine than do controls. This study describes changes in behavior and brain dopamine systems at PN 10. Experiment 1 determined an appropriate amphetamine dose that could be used for behavioral activation at PN 10. Experiment 2 produced significant evidence of enhanced behavioral activation after the isolation paradigm and indicated that brain regions innervated by the mesolimbic dopamine system, septum, and hypothalamus display increased dopamine turnover and that the nigrostriatal pathway is less active. Likewise, in Experiment 3, in vivo microdialysis of the nucleus accumbens indicated that previously isolated pups respond to an amphetamine challenge with a several-fold increase in dopamine release over a 4-hour session.

Genetic studies on chromosome 12 in late-onset Alzheimer disease

CONTEXT

The only genetic locus universally accepted to be important as a risk factor for late-onset Alzheimer disease (AD) is the apolipoprotein E (APOE) locus on chromosome 19. However, this locus does not account for all the risk in late-onset disease, and a recent report has suggested a second locus on chromosome 12p11-12.

OBJECTIVE

To look for evidence of linkage on chromosome 12 and to test for the presence of the new locus in an independent sample of familial late-onset AD cases.

DESIGN

Retrospective cohort study. As part of a 20-centimorgan genome screen (approximately equal to 200 markers), we tested a series of 18 genetic markers on chromosome 12 and carried out multipoint, nonparametric lod score and exclusion analyses.

SETTING

Clinic populations in the continental United States selected from the National Institute of Mental Health AD Genetics Consortium.

PATIENTS

We selected samples for DNA analysis from affected sibling pairs, 497 subjects from 230 families with 2 or more affected individuals with probable or definite AD with onset ages older than 60 years (mean+/-SD, 75+/-6 years). Within the families, we used the 2 probable or definitely affected individuals. In families with more than 2 such cases available, we used all of them; in families with only 2 such cases in which unaffected individuals were available, we also sampled the oldest unaffected individual and used genotype data from this unaffected individual to check for nonpaternity and genotyping errors.

MAIN OUTCOME MEASURE

Presence of linkage or locus on chromosome 12.

RESULTS

Although linkage analyses confirmed the presence of a genetic susceptibility factor at the APOE locus in these families with late-onset AD, we were unable to confirm the presence of a locus close to the marker D12S1042. A moderate lod score (1.91) was found near D12S98 close to the alpha2-macroglobulin locus in the affected pairs in which both members did not possess an APOE epsilon4 allele.

CONCLUSIONS

APOE remains the only locus established to be a risk factor for late-onset AD. We were unable to confirm that a locus on chromosome 12p11-12 has a major effect on risk for late-onset AD, although an effect smaller than that for APOE cannot be excluded.

Corticosterone release in response to repeated, short episodes of neonatal isolation: evidence of sensitization

Repeated isolation of neonatal rats produces persistent changes in physiology and behavior. In Experiment 1, we examined changes in plasma corticosterone (CORT) levels as a possible mechanism for the effects of isolation. Pups that were isolated from their mother and the nest for 1 h per day on postnatal days (PND) 2-9 were compared to control litters of pups that were either nonhandled or handled but not isolated. On PND 2, compared to nonhandled pups, handled pups had elevated CORT levels that returned to baseline levels within 30 to 60 min of return to the home cage. No significant elevation of CORT levels were found in handled pups on PND 9. The CORT levels of isolated pups were over twice those of nonhandled pups on PND 2 and four times those of nonhandled pups on PND 9. In Experiment 2, we investigated whether the increased CORT release in response to isolation on PND 9 was the result of the pups' treatment on the previous six days as against an effect of maturation. Plasma CORT levels were measured in rat pups that were either isolated, handled or nonhandled on PNDs 2-8 during the conditions of isolation, handling and nonhandling on PND 9. There were no differences among the groups in basal plasma levels of CORT. Handling on PND 9 did not result in elevated CORT levels in any of the groups. All three groups showed a significant increase in plasma CORT levels after isolation on PND 9. However, the CORT response to isolation of pups previously isolated on PND 2-8 were significantly higher than pups that were either handled or nonhandled on PNDs 2-8. Thus, daily episodes of isolation potentiate the hypothalamic-pituitary-adrenal response to stress.

Adult rats stressed as neonates show exaggerated behavioral responses to both pharmacological and environmental challenges

Adult rats that were isolated from the mother and nest for 1 hr per day from Postnatal Day 2 to 9 were studied. Controls consisted of handled littermates as well as separate litters that were never handled. As adults, animals were given either a pharmacological challenge (1.0 or 2.0 mg/kg amphetamine) or an environmental challenge (restraint). Previously isolated animals demonstrated increased activity compared to controls at both drug doses. Similarly, isolated animals manifested exaggerated inhibition of activity after restraint. Previously isolated animals usually did not show differences compared to controls under baseline conditions (saline injection or no restraint). The neuroplastic changes that result from the neonatal experience are long lasting and appear when the system is challenged.

Adult rats stressed as neonates show exaggerated behavioral responses to both pharmacological and environmental challenges

Adult rats that were isolated from the mother and nest for 1 hr per day from Postnatal Day 2 to 9 were studied. Controls consisted of handled littermates as well as separate litters that were never handled. As adults, animals were given either a pharmacological challenge (1.0 or 2.0 mg/kg amphetamine) or an environmental challenge (restraint). Previously isolated animals demonstrated increased activity compared to controls at both drug doses. Similarly, isolated animals manifested exaggerated inhibition of activity after restraint. Previously isolated animals usually did not show differences compared to controls under baseline conditions (saline injection or no restraint). The neuroplastic changes that result from the neonatal experience are long lasting and appear when the system is challenged.

Postnatal pup brain dopamine depletion inhibits maternal behavior

The interactions between dams and their pups and among siblings were investigated in litters with (a) all pups depleted of striatal dopamine by 6-hydroxydopamine (6-OHDA on PND3), (b) all pups treated with vehicle, or (c) half of the pups depleted of dopamine and the other half treated with vehicle. On PND10, two sets of four pups from each litter were videotaped in a novel environment with the dam:pup and maternal behaviors were later scored by blind observers. We observed a 70% decrease in striatal dopamine in 6-OHDA-treated pups but found no effect of treatment on pup weight gain. Dams with some or all DA-depleted pups (a) were slower to retrieve a pup and establish a nest, (b) retrieved pups less frequently, and (c) spent less time huddling with pups than dams with only vehicle-treated pups. When compared with DA-depleted pups in homogeneous litters, DA-depleted pups in mixed litters were less hyperactive and spent more time huddling with other pups than in isolation. These results suggest that DA-depleted pups receive compromised maternal care but can benefit from interactions with normal siblings.

Repeated isolation in the neonatal rat produces alterations in behavior and ventral striatal dopamine release in the juvenile after amphetamine challenge

Rat pups were isolated from the mother and nest for 1 hr per day from Postnatal Day (PN) 2 to 9 At PN 27, rats were tested for behavioral responsiveness to 2.0 or 7.5 mg/kg amphetamine. Only isolated rats receiving the 7.5 mg/kg dose displayed increased activity scores, compared with nonisolated and nonhandled controls. Their increased activity is attributed to a slower latency to enter into stereotypy. In a second experiment, similarly treated groups were challenged by the 7.5 mg/kg dose during a session in which a microdialysis probe implanted in the ventral striatum was being perfused. The challenge drug elicited a much greater increase in dialysate dopamine in isolated vs. nonisolated groups. Results are discussed with regard to dissociation between sensitized and subsensitized responses.

Repeated isolation in the neonatal rat produces alterations in behavior and ventral striatal dopamine release in the juvenile after amphetamine challenge

Rat pups were isolated from the mother and nest for 1 hr per day from Postnatal Day (PN) 2 to 9 At PN 27, rats were tested for behavioral responsiveness to 2.0 or 7.5 mg/kg amphetamine. Only isolated rats receiving the 7.5 mg/kg dose displayed increased activity scores, compared with nonisolated and nonhandled controls. Their increased activity is attributed to a slower latency to enter into stereotypy. In a second experiment, similarly treated groups were challenged by the 7.5 mg/kg dose during a session in which a microdialysis probe implanted in the ventral striatum was being perfused. The challenge drug elicited a much greater increase in dialysate dopamine in isolated vs. nonisolated groups. Results are discussed with regard to dissociation between sensitized and subsensitized responses.

Association between a PS-1 intronic polymorphism and late onset Alzheimer's disease

Previous work suggests an association between allele 1 and the 1-1 genotype of an intronic polymorphism in the presenilin-1 (PS-1) gene and late onset Alzheimer's disease. We found an excess of the 1-1 genotype in our late onset clinical sample (p = 0.006, one-tailed) but not in our postmortem confirmed sample, which instead exhibited an excess of allele 1 (p = 0.02, one-tailed). No interaction between PS-1 and ApoE genotype was detected and the findings remained significant when the effects of ApoE were taken into account (p = 0.03, one-tailed). These results suggest that the PS-1 polymorphism, or a locus in linkage disequilibrium with it, acts as a risk factor for late onset AD.

Brain dopamine response in isolated 10-day-old rats: assessment using D2 binding and dopamine turnover

A single 5-min isolation from the nest, dam, and siblings in 10-day-old rat pups was investigated for its effect on brain dopamine systems. The release of dopamine in innervated brain regions was measured in separate studies using in vivo ligand binding of 3H-raclopride, ex vivo binding using 3H-raclopride, and neurochemical measurement of the dopamine turnover using levels of DOPAC and dopamine. In addition, in vitro homogenate binding was performed to determine baseline Bmax and Kd values for 3H-raclopride binding sites across treatments. Isolation for 5 min in a "novel" environment resulted in decreased 3H-raclopride binding in striatum and septum as determined by both in vivo and ex vivo binding, as well as increased dopamine turnover. There was no difference in Bmax and Kd values for 3H-raclopride in these brain regions after the 5-min isolation, indicating that the binding decreases were due to an increase of available dopamine, presumably from terminal release. The convergence of results from three different techniques supports the interpretation that dopamine is released during the 5-min isolation in both brain regions.

Neonatal isolation alters LTP in freely moving juvenile rats: sex differences

We have previously reported that neonatal isolation significantly enhanced the magnitude of hippocampal long-term potentiation (LTP) recorded from freely moving male rats tested at 30 days of age. The present study extends this work to examine the effects of neonatal isolation on hippocampal LTP in male and female juvenile rats. Changes in dentate granule cell population measures, i.e., EPSP slope and population spike amplitude (PSA), evoked by tetanization of the medial perforant pathway were used to assess the effects of neonatal isolation on LTP over a period of 96 hrs. Prior to tetanization, significant sex differences were obtained for input/output (I/O) response measures of EPSP slope and PSA, with males showing consistently higher values than females. No significant effect of treatment was obtained within either sex for baseline measures. Following tetanization significant sex differences were also obtained for both measures, with males showing significantly greater enhancement than females. Comparisons made at 1 hr post-tetanization (establishment of LTP) indicated that isolated males showed significantly greater enhancement than any other group. On the other hand, treatment differences were not obtained from females. At 96 hrs (maintenance of LTP), however, both neonatally isolated males and females showed significantly greater enhancement than either non-isolated siblings or unhandled controls. These results indicate that males and females exhibit different enhancement profiles with respect to both the magnitude and duration of LTP, and that neonatal isolation alters these profiles in a sex-specific manner.

Neonatal isolation enhances hippocampal dentate response to tetanization in freely moving juvenile male rats

The impact of early neonatal isolation on measures of hippocampal neuronal plasticity was examined in freely moving male rats at 30 days of age. Beginning on Postnatal (PN) Day 2, one-half of pups from each experimental litter were individually isolated from the nest, dam, and siblings for a period of 1 h per day over PN Days 2-9, while their siblings remained in the nest. In addition, randomly selected litters served as unhandled controls. On PN Day 26 all pups were weaned and chronically implanted for recording of evoked field potentials and induction of hippocampal longterm potentiation. At 30 days of age, pups from the three treatment groups (isolated, nonisolated siblings, and unhandled controls) were tested for their ability to establish and maintain long-term potentiation across the perforant path/hippocampal dentate granule cell synapse. Changes in population EPSP slope and population spike amplitude (PSA) recorded following tetanization were used to assess the effects of neonatal isolation of hippocampal response measures. No significant between-group differences were obtained for input/output response curves constructed prior to tetanization. All three groups showed immediate and significant enhancement of the PSA measure at 15 min posttetanization. The level of PSA enhancement obtained from previously isolated pups was significantly greater than that obtained from both the nonisolated sibling and unhandled control groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of isolation conditions on brain regional enkephalin and beta-endorphin levels and vocalizations in 10-day-old rat pups

Young rat pups were isolated from their dams under different conditions. The endogenous opioid peptides were measured in brain regions after isolation. Because there is no uptake mechanism for peptides released at the synapse and because released peptide is rapidly degraded enzymatically, decreases in peptide levels over this time course can be interpreted as release from terminals. No change was observed in either peptide in the hypothalamus, septum, or amygdala after isolation compared with controls. Significant decreases were seen in the midbrain after isolation. A comparison of peptide levels and ultrasonic vocalizations in the pups isolated in familiar, novel, or control conditions was also performed. Enkephalin levels in the midbrain were decreased in familiar and novel conditions, but in the brainstem opioid peptides were decreased only in the familiar condition. The greater involvement of the opioid peptides in the pups isolated in familiar conditions may contribute to the ability of naltrexone to block vocalization.

Effect of isolation conditions on brain regional enkephalin and beta-endorphin levels and vocalizations in 10-day-old rat pups

Young rat pups were isolated from their dams under different conditions. The endogenous opioid peptides were measured in brain regions after isolation. Because there is no uptake mechanism for peptides released at the synapse and because released peptide is rapidly degraded enzymatically, decreases in peptide levels over this time course can be interpreted as release from terminals. No change was observed in either peptide in the hypothalamus, septum, or amygdala after isolation compared with controls. Significant decreases were seen in the midbrain after isolation. A comparison of peptide levels and ultrasonic vocalizations in the pups isolated in familiar, novel, or control conditions was also performed. Enkephalin levels in the midbrain were decreased in familiar and novel conditions, but in the brainstem opioid peptides were decreased only in the familiar condition. The greater involvement of the opioid peptides in the pups isolated in familiar conditions may contribute to the ability of naltrexone to block vocalization.

Behavioral effects of kappa-opioid-receptor stimulation on neonatal rats

Previous results show that endogenous opioid systems mediate affective responses in neonatal rats. Opioids modulate isolation-induced ultrasonic vocalizations and analgesia. This study further examines the behavioral effects of kappa-receptor-system stimulation on 10-day-old rats. With the agonist U50,488, response to isolation in terms of vocalizations, activity levels, and pain sensitivity was tested. In contrast to morphine's effects (primarily a mu-agonist), the kappa-agonist U50,488 produced increased vocalizing and hyperactivity, although both opioid agonists caused analgesia. Isolation adds to the U50,488-mediated increase in the latency for paw withdrawal from heat. This study suggests that the kappa system provokes calling and activity as opposed to the quieting effects of mu-agonists found in previous studies. These differential effects may be due in part to the interaction of the opioid and dopamine systems.

Behavioral effects of kappa-opioid-receptor stimulation on neonatal rats

Previous results show that endogenous opioid systems mediate affective responses in neonatal rats. Opioids modulate isolation-induced ultrasonic vocalizations and analgesia. This study further examines the behavioral effects of kappa-receptor-system stimulation on 10-day-old rats. With the agonist U50,488, response to isolation in terms of vocalizations, activity levels, and pain sensitivity was tested. In contrast to morphine's effects (primarily a mu-agonist), the kappa-agonist U50,488 produced increased vocalizing and hyperactivity, although both opioid agonists caused analgesia. Isolation adds to the U50,488-mediated increase in the latency for paw withdrawal from heat. This study suggests that the kappa system provokes calling and activity as opposed to the quieting effects of mu-agonists found in previous studies. These differential effects may be due in part to the interaction of the opioid and dopamine systems.