Maternal separation alters nerve growth factor and corticosterone levels but not the DNA methylation status of the exon 1(7) glucocorticoid receptor promoter region.

Separating rat pups from their mothers during the early stages of life is an animal model commonly used to study the development of psychiatric disorders such as anxiety and depression. The present study investigated how soon after the termination of the maternal separation period behavioural and neuroendocrine abnormalities relevant to above-mentioned illnesses would manifest. Sprague Dawley rat pups were subjected to maternal separation (3 h per day from postnatal day 2 through 14) and their behaviour and HPA axis activity determined 7 d later. We also measured nerve growth factor levels in their hippocampi and assessed the DNA methylation status of the promoter region of exon 1(7) of the glucocorticoid receptor in this brain region. As early as 7 d after the termination of the adverse event, a change in behaviour was observed that was associated with increased plasma corticosterone release and elevated nerve growth factor levels in the hippocampus. No alteration in the methylation status of the exon 1(7) glucocorticoid receptor promoter region was observed. Our data indicate that early life adversity may lead to the rapid development of abnormal behaviours and HPA axis dysregulation though no epigenetic changes to the exon 1(7) glucocorticoid receptor promoter region occurred. We further propose that the observed increased neurotrophin levels reflect compensatory mechanisms that attempt to combat the long-term deleterious effects of maternal separation.

Maternal separation exaggerates the toxic effects of 6-hydroxydopamine in rats: implications for neurodegenerative disorders.

Many studies have shown that early life stress may lead to impaired brain development, and may be a risk factor for developing psychiatric pathologies such as depression. However, few studies have investigated the impact that early life stress might have on the onset and development of neurodegenerative disorders, such as Parkinson's disease, which is characterized in part by the degeneration of dopaminergic neurons in the nigrostriatal pathway. The present study subjected rat pups to a maternal separation paradigm that has been shown to model adverse early life events, and investigated the effects that it has on motor deficits induced by a unilateral, intrastriatal injection of 6-hydroxydopamine (12 microg/4 microl). The female rats were assessed for behavioral changes at 28 days post-lesion with a battery of tests that are sensitive to the degree of dopamine loss. The results showed that rats that had been subjected to maternal separation display significantly impaired performance in the vibrissae and single-limb akinesia test when compared to normally reared animals. In addition, there was a significant increase in the loss of tyrosine hydroxylase staining in maternally separated rats. Our results therefore suggest that adverse experiences sustained during early life contribute to making dopamine neurons more susceptible to subsequent insults occurring during more mature stages of life and may therefore play a role in the etiopathogenesis of Parkinson's disease.

Age-dependent deficiency in saliva and salivary antibodies secretion in Down's syndrome.

OBJECTIVE: Down's syndrome (DS) individuals suffer from an increased susceptibility to infections. Here, we assessed age-related changes in the salivary-specific humoral immunity of DS subjects. DESIGN: Parotid and whole saliva were collected from a young group of DS (YDS, n=30, 23.3+/-4 years), an older group of DS individuals (ODS, n=10, 51.9+/-8 years) and compared to two age-matched groups of healthy volunteers--a young group (YC, n=29, 22.8+/-5 years) and an older group (OC, n=10, 48.4+/-9 years). The levels of total IgA, and specific antibodies to three common oral pathogens (Porphyromonas gingivalis, Actinobacillus (Aggregatibacter) actinomycetemcomitans and Streptococcus mutans) were analysed. RESULTS: The limited increases in IgA concentrations could not compensate the dramatic reduction in the salivary flow rate observed in DS individuals. Therefore, the median secretion rates of the specific antibodies in whole and parotid saliva were 70-77% and 34-60% (respectively) lower in YDS individuals as compared to YC and farther 77-100% and 75-88% (respectively) lower in ODS compared to YDS. In contrast, the antibody secretion rates were similar for parotid saliva, or even increased for whole saliva of OC, compared with YC. Consequently, a dramatic cumulative extreme reduction (>92%) in the bacterial specific salivary antibodies differentiated the adult DS individuals from to their age-matched controls. CONCLUSIONS: Our results indicate a severe immunodeficiency in the secretion rate of the specific salivary IgA response of in DS individuals which intensifies with age.

Triggering endogenous neuroprotective mechanisms in Parkinson's disease: studies with a cellular model.

Glial cell line-derived neurotrophic factor (GDNF) has been implicated in the protection of dopamine (DA) neurons from oxidative stress in animal models of Parkinson's disease (PD). We have now shown that GDNF can also protect against the effects of 6-hydroxydopamine (6-OHDA) in a dopaminergic cell line and in cultures of primary DA neurons prepared from rat substantia nigra (SN). This appears to involve a rapid and transient increase in the phosphorylation of several isoforms of extracellular signal-regulated kinase (ERK). Our evidence indicates that ERK activation also can be modulated by reactive oxygen species (ROS), including those generated by endogenous DA. Identification of the ways by which these pathways can be triggered should provide insights into the pathophysiology of PD, and may offer useful avenues for retarding the progression of the disorder.

Salivary LL-37 secretion in individuals with Down syndrome is normal.

Antimicrobial peptides play an important role in the innate immune response. Deficiency in salivary LL-37 antimicrobial peptide has been implicated in periodontitis in patients with morbus Kostman syndrome. Down syndrome is associated with periodontitis, diminished salivary flow, and salivary immunoglobulin deficiency. In the present study, levels of LL-37 and its hCAP18 precursor were measured in saliva samples from young individuals with Down syndrome and compared with levels in those from age-matched healthy controls. LL-37 and human cathelicidin antimicrobial protein (hCAP18) were detected in whole but not in parotid saliva. hCAP18 was more abundant than LL-37. The concentrations of salivary hCAP18 and LL-37 were found to be higher in individuals with Down syndrome than in healthy controls, but their secretion rates were similar. We concluded that, while the adaptive immunity of individuals with Down syndrome is impaired at the oral mucosa, the secretion rate of the LL-37 component of the innate immune system is normal.

The outcome of a preventive dental care programme on the prevalence of localized aggressive periodontitis in Down's syndrome individuals.

BACKGROUND: Periodontal disease in Down's syndrome (DS) individuals develops earlier and is more rapid and extensive than in age-matched normal individuals. The present study evaluated a group of DS patients, who had been participating in a 10-year preventive dental programme, for the impact of the programme on their periodontal status. METHODS: Thirty DS patients (mean age 23.3 +/- 4 years) were compared with 28 age-matched healthy controls (mean age 22.8 +/- 5 years). The hygiene level, gingival condition and periodontal status (periodontal probing depth, clinical attachment level and radiographic alveolar bone loss) were determined. RESULTS: In spite of similar oral hygiene and gingival measures, DS patients, as opposed to the control ones, had a severe periodontal disease. The prevalence, extent and severity of periodontitis in the DS group were significantly greater than in the control group. The teeth most commonly and severely affected were the lower central incisors and the upper first molars. DS patients lost significantly more teeth due to periodontitis. CONCLUSIONS: The clinical and radiographic picture found in the present DS group is characteristic of localized aggressive periodontitis. Within the limitations of this study, it seems that the preventive dental programme had no effect on periodontal destruction progression of localized aggressive periodontitis in DS individuals and that impaired oral hygiene plays a relatively minor role in the pathogenesis of this disease. Future controlled studies are needed to assess the effectiveness of different preventive dental programmes in preventing the progression of periodontitis in DS patients.

Effect of AdGDNF on dopaminergic neurotransmission in the striatum of 6-OHDA-treated rats.

We have previously observed that the delivery of an adenoviral vector encoding for glial cell line-derived neurotrophic factor (AdGDNF) into the substantia nigra (SN) 7 days after intrastriatal administration of 6-hydroxydopamine (6-OHDA) protects dopamine (DA)-dependent behaviors, tyrosine hydroxylase immunoreactive (TH+) cells in SN, and amphetamine-induced c-fos induction in striatum. In the present study, we sought to determine if the behavioral protection observed in 6-OHDA-treated rats receiving AdGDNF was associated with an increase in DA availability in the striatum as measured by microdialysis. Rats received intrastriatal 6-OHDA (16 microg/2.8 microl) or vehicle followed 7 days later by intranigral AdGDNF (3.2x10(7) pfu/2 microl), AdLacZ (3.2 x 10(7) pfu/2 microl), or phosphate buffered saline (PBS). Three weeks later, microdialysis samples were collected from the same striatal region under basal conditions, following KCl (100 mM) or amphetamine (250 microM) administered via the striatal microdialysis probe, or amphetamine administered systemically (6.8 mg/kg i.p). Animals given 6-OHDA followed by either PBS or AdLacZ showed a decrease in basal extracellular striatal DA levels to 24% of control. In contrast, basal extracellular DA in 6-OHDA-lesioned rats with a nigral injection of AdGDNF was almost 3-fold higher than 6-OHDA-vehicle treated animals, 65% of control DA levels. Moreover, although KCl and amphetamine produced no increase in striatal DA release in 6-OHDA-treated rats that subsequently were given either PBS or AdLacZ, these manipulations increased DA levels significantly in 6-OHDA-treated rats later given AdGDNF. Thus, DA neurotransmission within the striatum of 6-OHDA treated rats appears to be enhanced by increased expression of GDNF in the nigra.

Bacteriophage isolation from human saliva.

AIMS: To detect bacteriophages for Gram-positive oral pathogens in human saliva. METHODS AND RESULTS: Saliva samples from 31 donors were screened for the presence of bacteriophages for Streptococcus sobrinus, Streptococcus mutans, Streptococcus salivarius, Actinomyces viscosus and Enterococcus faecalis. Bacteriophages for Enterococcus faecalis were found in seven samples. Enterococcus faecalis phages were still present in saliva re-collected from one donor one month, and one year after initial saliva collection. CONCLUSIONS: The presence and stability of the Enterococcus faecalis bacteriophages in human saliva suggests a possible role of these bacteriophages in the oral ecosystem. SIGNIFICANCE AND IMPACT OF THE STUDY: Phage therapy as a way to control oral bacteria might be considered.

Effect of bilateral 6-hydroxydopamine lesions of the medial forebrain bundle on reaction time.

Overt symptoms of Parkinson's disease do not manifest themselves until there is a substantial loss of the dopaminergic nigrostriatal projection. However, as neuroprotective strategies are developed, it will be essential to detect the disease in its preclinical phase. Performance on conditioned reaction time tasks is known to be impaired by extensive 6-hydroxydopamine-induced lesions of the nigrostriatal dopamine pathway. However, the effect of smaller lesions on a reaction time task has not been systematically assessed. We, therefore, used this test to examine behavioral deficits as a function of striatal dopamine loss. When injected at doses that produced striatal DA depletion <50%, 6-hydroxydopamine infused in the medial forebrain bundle produced no reliable impairment in the reaction time task. Higher doses producing > or = 60% DA depletion in the striatum produced a decrease in the percent correct responding throughout the 5 week testing period and akinetic deficits expressed by an increase in delayed responding. In addition, larger DA depletions (> or = 95%) profoundly altered motor control with decreases in percent correct responses, increases in delayed responses and increases in reaction time. These results suggest that reaction time may be a relatively sensitive measure of preclinical or subtle deficits, although it might be even more useful in quantitating the severity of depletion once overt deficits or symptoms appear and has the advantage of measuring such deficits over time to follow recovery of function. Furthermore since reaction time deficits required extensive loss of dopamine, these results are consistent with a predominant role of extrasynaptic dopamine in the mediation of relatively skilled motor tasks.

Promoting responsible conduct in research through "survival skills" workshops: some mentoring is best done in a crowd.

For graduate students to succeed as professionals, they must develop a set of general "survival skills". These include writing research articles, making oral presentations, obtaining employment and funding, supervising, and teaching. Traditionally, graduate programs have offered little training in many of these skills. Our educational model provides individuals with formal instruction in each area, including their ethical dimensions. Infusion of research ethics throughout a professional skills curriculum helps to emphasize that responsible conduct is integral to succeeding as a researcher. It also leads to the consideration of ethical dimensions of professional life not covered in traditional ethics courses.

Forced limb-use effects on the behavioral and neurochemical effects of 6-hydroxydopamine.

Rats with unilateral depletion of striatal dopamine (DA) show marked preferential use of the ipsilateral forelimb. Previous studies have shown that implementation of motor therapy after stroke improves functional outcome (Taub et al., 1999). Thus, we have examined the impact of forced use of the impaired forelimb during or soon after unilateral exposure to the DA neurotoxin 6-hydroxydopamine (6-OHDA). In one group of animals, the nonimpaired forelimb was immobilized using a cast, which forced exclusive use of the impaired limb for the first 7 d after infusion. The animals that received a cast displayed no detectable impairment or asymmetry of limb use, could use the contralateral (impaired) forelimb independently for vertical and lateral weight shifting, and showed no contralateral turning to apomorphine. The behavioral effects were maintained throughout the 60 d of observation. In addition to the behavioral sparing, these animals showed remarkable sparing of striatal DA, its metabolites, and the expression of the vesicular monoamine transporter, suggesting a decrease in the extent of DA neuron degeneration. Behavioral and neurochemical sparing appeared to be complete when the 7 d period of immobilization was initiated immediately after 6-OHDA infusion, only partial sparing was evident when immobilization was initiated 3 d postoperatively, and no sparing was detected when immobilization was initiated 7 d after 6-OHDA treatment. These results suggest that physical therapy may be beneficial in Parkinson's disease.

Stress-induced increase in extracellular dopamine in striatum: role of glutamatergic action via N-methyl-D-aspartate receptors in substantia nigra.

There is considerable support for an influence of excitatory amino acids released from corticofugal neurons on dopaminergic activity in the basal ganglia. However, the relative importance of cortico-striatal and cortico-mesencephalic projections remains unclear, particularly with respect to the nigro-neostriatal pathway. We have therefore examined the influence of endogenous excitatory amino acids in substantia nigra on stress-induced dopaminergic activity in neostriatum. Microdialysis probes were implanted unilaterally into substantia nigra and ipsilateral neostriatum, and dopamine release in neostriatum was monitored by measuring changes in extracellular dopamine. In separate animals, neostriatal dopamine synthesis was assessed by measuring extracellular DOPA in the presence of 3-hydroxylbenzylhydrazine (NSD-1015; 100 microM), an inhibitor of aromatic amino acid decarboxylase. Thirty minutes of intermittent foot shock increased both dopamine release (+41%) and synthesis (+37%) in neostriatum. Infusion of 2-amino-5-phosphonovalerate (APV; 100 microM), an inhibitor of N-methyl-D-aspartate (NMDA) receptors, into substantia nigra greatly attenuated the stress-induced increase in neostriatal dopamine release, while having no effect on the apparent increase in stress-induced dopamine synthesis. These data suggest that excitatory amino acids such as glutamate act on NMDA receptors in substantia nigra to increase striatal dopamine release produced by exposure to stress, but that the increase in dopamine synthesis is mediated through a separate mechanism.

Glutamate regulates the spontaneous and evoked release of dopamine in the rat striatum.

Resting and evoked extracellular dopamine levels in the striatum of the anesthetized rat were measured by fast-scan cyclic voltammetry in conjunction with carbon fiber microelectrodes. Identification of the substance detected in vivo was achieved by inspection of background-subtracted voltammograms. Intrastriatal microinfusion of kynurenate, a broad-spectrum antagonist of ionotropic glutamate receptors, caused a decrease in the resting extracellular level of dopamine. The kynurenate-induced decrease was unaffected by systemic pretreatment with pargyline, an inhibitor of monoamine oxidase, but was significantly attenuated by systemic pretreatment with alpha-methyl-p-tyrosine, an inhibitor of tyrosine hydroxylase. Although glutamate by itself did not affect resting extracellular dopamine levels, glutamate did attenuate the kynurenate-induced decrease. Kynurenate decreased dopamine release in response to electrical stimulation of the medial forebrain bundle, an effect that was also attenuated by glutamate. These results suggest that both spontaneous and evoked dopamine release in the rat striatum are under the local tonic excitatory influence of glutamate. Interactions between central dopamine and glutamate systems that have been implicated in the etiologies of Parkinson's disease, schizophrenia, stress, and substance abuse. The precise nature of those interactions, however, remains a matter of some controversy.

Increased transcription of the tyrosine hydroxylase gene in individual locus coeruleus neurons following footshock stress.

Footshock-evoked change in transcriptional activity of tyrosine hydroxylase in neurons of the locus coeruleus was examined using an intron-specific in situ hybridization histochemical technique. A significant increase in the cellular concentration of tyrosine hydroxylase primary transcripts was found in locus coeruleus neurons 3h following 30 min of intermittent footshock. However, the footshock-induced increase in tyrosine hydroxylase transcription was not homogeneously expressed in locus coeruleus neurons. Similarly, administration of the alpha(2)-adrenergic receptor antagonist idazoxan produced a significant increase in the cellular concentration of tyrosine hydroxylase primary transcripts that was heterogeneously distributed among locus coeruleus neurons. Both footshock and idazoxan significantly increased the regional levels of tyrosine hydroxylase messenger RNA in the locus coeruleus. The time-course of changes in tyrosine hydroxylase transcription rate and messenger RNA levels in the locus coeruleus was examined after a 15 min exposure to footshock. A robust increase in tyrosine hydroxylase transcription rate was found at the end of 15 min of footshock, which remained elevated for 6h and was back to the control levels by 24h. In contrast, in response to a 15 min period of footshock tyrosine hydroxylase messenger RNA concentrations in the locus coeruleus did not increase until 6h and remained elevated at 24h. These findings demonstrate that transcription of the tyrosine hydroxylase gene in locus coeruleus neurons in response to footshock stress occurs rapidly, is sustained for many hours and is heterogeneously distributed. These data also suggest that the increase in tyrosine hydroxylase messenger RNA following footshock is mediated, at least in part, by an increase in tyrosine hydroxylase gene transcription.

Differential effects of dopamine receptor subtype blockade on performance of rats in a reaction-time paradigm.

RATIONALE: Pharmacological manipulation of the dopaminergic system with antipsychotic agents disrupts motor behavior. Although most antipsychotic drugs have high affinity for D2 receptors, they also interact with other dopamine receptor subtypes. Therefore, the role of each of these receptor subtypes on motor performance is unclear. OBJECTIVE: The present study sought to investigate the relative importance of D1, D2, and D3 receptors on performance in a conditioned reaction-time task known to be extremely sensitive to dysfunction of the dopaminergic nigrostriatal pathway. METHODS: Rats were trained to release a lever in response to a visual cue within a reaction-time limit to receive a reinforcer (45mg food pellet). After the behavior of the rats had stabilized, the effects of a D1 (A69024), D2 (eticlopride), and D3 (nafadotride) receptor antagonists were assessed. RESULTS: A-69024 had no effect on performance at any dose tested (0.3, 0.6, and 1.3 mg/kg s.c.). Nafadotride (0.1, 0.3, and 1 mg/kg s.c.) produced only a mild deficit in performance at the highest dose. This deficit was characterized by an increase in the number of delayed responses with a non-significant decrease in the number of premature responses indicative of non-specific sedative effects. In contrast, the D2 receptor antagonist eticlopride (0.005, 0.01, and 0.02 mg/kg s.c.) produced profound deficits in performance as evidenced by a dose-dependent decrease in the number of correct responses. This decrease was accompanied by an increase in the number of delayed responses and a lengthening of the reaction time at the highest doses. CONCLUSIONS: These results provide further evidence that the execution of the reaction-time task is dependent preferentially upon the activation of D2 receptors, but not D1 or D3 receptors.

Effects of NADH on dopamine release in rat striatum.

Nicotinamide adenine dinucleotide (NADH) may be utilized for the synthesis and regeneration of tetrahydrobiopterin (BH(4)), which in turn is an essential cofactor for tyrosine hydroxylase, the rate-limiting enzyme in the synthesis of dopamine (DA). NADH has been reported to relieve some of the symptoms of Parkinson's disease, presumably by altering dopaminergic function. The present study examines the efficacy of NADH in influencing DA activity in the rat striatum. In striatal slices, NADH (350 microM) significantly increased basal DA and DOPAC efflux and caused a 2-fold increase in the DA overflow evoked by high KCl (25 mM). Tissue levels of BH(4), basal BH(4) efflux, and KCl-evoked BH(4) overflow were unaffected by NADH, as was [(3)H]DA uptake into striatal synaptosomes. In contrast to the effects of NADH on DA function in vitro, no effects were observed when NADH was administered systemically. NADH (10 or 100 mg/kg, s.c.) did not influence the tissue content of DA, 5-HT, or their metabolites in the midbrain or striatum, nor did it alter DA extracellular concentrations. These results indicate that NADH can increase DA release from striatal slices, although we are as yet unable to detect this effect in vivo.

Analysis of tyrosine hydroxylase gene transcription using an intron specific probe.

The nuclear run-on assay is the most commonly used technique to determine transcription rates of specific genes such as tyrosine hydroxylase. Its application to studies in the nervous system is problematic, however, as a result of limitations in sensitivity and the loss of anatomical integrity. We observed that the relative levels of tyrosine hydroxylase intron 2-containing RNA using a ribonuclease protection assay in the adrenal medulla changed in response to pharmacological treatments consistently with changes shown by the nuclear run-on assay. Our results indicate that measures of tyrosine hydroxylase primary transcript levels offer an alternative to the nuclear run-on assay and validate the application of intron-specific in situ hybridization as a means of assessing the relative transcriptional activity of the tyrosine hydroxylase gene. Similar quantitative results were obtained using intron-specific in situ hybridization with oligonucleotide probes specific for rat tyrosine hydroxylase intron 2. Furthermore, we observed that intron-specific in situ hybridization could be used to measure tyrosine hydroxylase transcription rates in the locus coeruleus, providing resolution at the level of single neurons. Thus, measuring the levels of tyrosine hydroxylase intron 2 provides a sensitive measure of tyrosine hydroxylase transcription rate that can be applied to the study of brain catecholaminergic neurons.

Inhibitory glutamatergic regulation of evoked dopamine release in striatum.

Certain aspects of schizophrenia and Parkinson's disease suggest that glutamate might have an inhibitory effect on dopamine release. Several studies have reported that the excitatory actions of ionotropic glutamate agonists on extracellular dopamine levels in striatum are resistant to tetrodotoxin, which suggests that glutamate excites an impulse-independent mechanism of dopamine release. We tested the hypothesis that an inhibitory action of glutamate on dopamine terminals in the striatum specifically involves an impulse-dependent mechanism of dopamine release. We used voltammetry to monitor electrically-evoked dopamine release in striatal slices, which is completely tetrodotoxin- and Ca(2+)-sensitive and so provides a model of impulse-dependent dopamine release. Agonists of the ionotropic glutamate receptors significantly decreased the amplitude of the response, while antagonists significantly increased the amplitude of the response, by as much as approximately 60% in the case of kynurenic acid. These results support the hypothesis that ionotropic glutamate receptors can inhibit impulse-dependent dopamine release by a mechanism that acts locally within the striatum. This finding contrasts with previous reports that glutamate can excite impulse-independent dopamine release. This extends earlier findings that glutamate may both excite and inhibit subcortical dopamine systems by suggesting that the excitatory and inhibitory actions of striatal ionotropic glutamate receptors are specifically associated with impulse-independent and impulse-dependent dopamine release, respectively.

Sensitization of norepinephrine release in medial prefrontal cortex: effect of different chronic stress protocols.

Previously, we demonstrated that continuous exposure of rats to cold (5 degrees C) for 2-3 weeks potentiates the increase in extracellular norepinephrine in the medial prefrontal cortex produced by acute tail shock. In the present study, we used in vivo microdialysis to examine whether this sensitization of evoked norepinephrine release also occurs in the medial prefrontal cortex following exposure to other chronic stress protocols. Rats exposed to 30 min of intermittent foot shock (0.6 mA) each day for 14 days, did not exhibit a greater increase in extracellular norepinephrine in response to acute tail shock. To determine whether this discrepancy between cold exposure and foot shock might be related to differences in the nature or the pattern of exposure to the chronic stressor, we also examined the effect of intermittent exposure to cold or continuous exposure to a foot shock protocol on tail shock-evoked norepinephrine release. Sensitized norepinephrine release did not develop following either intermittent exposure to cold (5 degrees C; 4 h/day for 14 days) or continuous exposure to a foot shock protocol (0.6 mA trains at random intervals 24 h/day for 14 days), suggesting that both the nature of the stressor as well as the pattern of exposure to the chronic stressor play a role in the development of sensitized norepinephrine release.