Chronic cortisol suppresses pituitary and hypothalamic peptide message expression in pigtailed macaques.

The effects of chronic elevations in circulating glucocorticoids on the expression of peptides and peptide receptors of the hypothalamic-pituitary-adrenal (HPA) axis have been studied extensively in rodents, but they have not been examined in primates. To determine the responses of the HPA axis in primates to elevated cortisol, hypothalamic and pituitary tissue from normal older pigtailed macaques (Macaca nemestrina) that had received daily oral administration of cortisol or placebo for 1 year were studied. Pro-opiomelanocortin in the anterior pituitary and corticotropin-releasing factor (CRF) mRNA expression in the hypothalamic paraventricular nucleus (PVN) were significantly reduced in cortisol-treated monkeys in comparison with controls. CRF receptor 1 (CRF-R1) expression in the anterior pituitary and arginine vasopressin mRNA expression in the PVN were unchanged by chronic cortisol administration. Sustained elevation of circulating glucocorticoids results in suppression of HPA peptide and peptide receptor expression in the PVN and anterior pituitary similar to those found in rodents. Chronic therapeutic administration of glucocorticoids in humans may have unintended consequences for hypothalamic and pituitary function.

Behavioral and metabolic features of repetitive seizures in immature and mature rats.

Seizure incidence varies significantly with age, with seizure susceptibility particularly high during the first few years of life. Of significant concern is what effects do brief, repetitive seizures have on the developing brain. We approached this issue by examining the change in seizure threshold, and related markers of neuronal activity and metabolic activity (c-fos mRNA and 2-deoxyglucose [2DG]), as a function of repetitive seizure episodes in immature and mature rats. Starting on postnatal day 15 (P15) (immature) or P60 (adult) rats were given two flurothyl seizures a day for 5 days (nine or ten seizures). The seizure latency profile, our measure of threshold, in immature versus adult rats across the 5-day testing period was different. In immature rats, threshold for the second seizure on each day was significantly lower than for the first seizure, suggesting that there was little refractoriness after the first seizure of the day. In contrast, the mature animal had a significantly longer threshold latency to the second seizure for the first 3 days of testing. The immature animal was also more likely than the adult to exhibit tonic extension as a feature of the first seizure of the day. Following repetitive seizures, more regions of the CNS showed c-fos mRNA expression in the immature animal than adults, suggesting that repetitive seizures in the immature animal activated a greater percentage of the brain. Compared with the effects of a single seizure, repetitive seizures resulted in less 2DG labeling in most regions of the brain (except the hippocampus); in the immature brain this difference was more distinct than in adults. The consequences of repetitive seizures in the immature animal results in distinctly different seizure behavior and neuronal activity pattern (c-fos expression) than that observed in the mature animal.

Norepinephrine-deficient mice have increased susceptibility to seizure-inducing stimuli.

Several lines of evidence suggest that norepinephrine (NE) can modulate seizure activity. However, the experimental methods used in the past cannot exclude the possible role of other neurotransmitters coreleased with NE from noradrenergic terminals. We have assessed the seizure susceptibility of genetically engineered mice that lack NE. Seizure susceptibility was determined in the dopamine beta-hydroxylase null mutant (Dbh -/-) mouse using four different convulsant stimuli: 2,2,2-trifluroethyl ether (flurothyl), pentylenetetrazol (PTZ), kainic acid, and high-decibel sound. Dbh -/- mice demonstrated enhanced susceptibility (i.e., lower threshold) compared with littermate heterozygous (Dbh +/-) controls to flurothyl, PTZ, kainic acid, and audiogenic seizures and enhanced sensitivity (i.e., seizure severity and mortality) to flurothyl, PTZ, and kainic acid. c-Fos mRNA expression in the cortex, hippocampus (CA1 and CA3), and amygdala was increased in Dbh -/- mice in association with flurothyl-induced seizures. Enhanced seizure susceptibility to flurothyl and increased seizure-induced c-fos mRNA expression were reversed by pretreatment with L-threo-3, 4-dihydroxyphenylserine, which partially restores the NE content in Dbh -/- mice. These genetically engineered mice confirm unambiguously the potent effects of the noradrenergic system in modulating epileptogenicity and illustrate the unique opportunity offered by Dbh -/- mice for elucidating the pathways through which NE can regulate seizure activity.

Bupropion and desipramine increase dopamine transporter mRNA expression in the ventral tegmental area/substantia nigra of rat brain.

1. Regulation of dopamine transporter (DAT) mRNA was studied in rats treated with the DAT blocker bupropion (BUP; 15 or 30 mg/kg tid x 2d), the norepinephrine transporter blocker desipramine (DMI; 10 mg/kg/d x 2d), or saline. 2. mRNA expression was assessed via in situ hybridization histochemistry. 3. BUP and DMI both increased DAT mRNA expression in the ventral tegmental area/substantia nigra. 4. These findings suggest that DAT mRNA expression in the brain may be regulated by both noradrenergic and dopaminergic mechanisms.

Function and distribution of three rat 5-hydroxytryptamine7 (5-HT7) receptor isoforms produced by alternative splicing.

Serotonin (5-HT7) receptor pre-mRNA is alternatively spliced in rat tissue to produce three isoforms, 5-HT(7a), 5-HT(7b) and 5-HT(7c), which differ in the amino acid sequences of their carboxyl terminal tails. Substantial species differences in structure and expression patterns exist for 5-HT7 isoforms. We have now compared some of the functional characteristics and level of expression for the three rat 5-HT7 receptor isoforms. Recombinant receptor isoforms were expressed in COS-7 cells for examination of [3H]5-HT binding characteristics and in JEG-3 cells to ascertain their ability to stimulate cAMP production. These studies showed that all three isoforms are functionally active and have similar agonist binding characteristics. Distribution of expression of the three rat receptor isoforms were examined in several brain regions and peripheral tissues using RT-PCR and in situ hybridization. The relative proportions of total 5-HT7 receptor message lent by each isoform varied little between these areas. In contrast to what has been observed in human tissue, the 5-HT(7a) isoform predominated in all regions examined, while the 5-HT(7c) isoform revealed a low level of expression (3% of total transcript). In situ hybridization was used to determine if the overall low level of expression of the 5-HT(7c) isoform by RT-PCR could be attributed to a small localized subpopulation of cells expressing high levels 5-HT(7c) message. In situ hybridization results indicate a generalized low level of expression of the 5-HT(7c) isoform throughout the CNS. These data suggest that while all three known 5-HT7 receptor isoforms in the rat are functionally competent, any functionally important differences between the three isoforms are not likely to involve differences in ligand binding or gross differences in adenylate cyclase coupling. However, differences in receptor phosphorylation, regulation or coupling to other effectors or cell trafficking could still exist.

Sensitization with clozapine: beyond the dopamine hypothesis.

Clozapine elicits dose-dependent myoclonic jerks in partially restrained rats and induces paroxysmal electroencephalographic changes, myoclonus, and convulsive seizures in a small but significant percentage of patients. With the hypothesis that the central excitatory effects of clozapine may relate to the unique therapeutic activity of this agent, rats were administered repeated alternate day or weekly very low dose (1 mg/kg) injections of clozapine in an attempt to induce the central excitatory effect through sensitization or kindling. Although initial administrations of this dose elicited no motor response or other behavioral change, repeated administration of the same low dose on either the alternate-day or weekly schedule caused increasing numbers of myoclonic seizure-like jerks (MJs) reaching 75-110 MJs/hour by the sixth clozapine injection. Clozapine-sensitized animals exhibited a significantly different pattern of early gene expression in two subcortical sites compared with vehicle-treated controls. These findings may have importance for the treatment of psychosis.

Insulin reduces norepinephrine transporter mRNA in vivo in rat locus coeruleus.

Acute and chronic in vitro insulin treatment can inhibit the uptake of norepinephrine (NE) by adult rat brain synaptosomes and slices, fetal neuronal cultures, and PC12 cells. In the present study we tested whether chronic in vivo insulin treatment could alter the biosynthetic capacity of rat locus coeruleus neurons for the NE transporter protein (NET). Chronic third ventricular insulin treatment resulted in a suppression of NET mRNA to about one third of the level of vehicle-treated controls. Our finding suggests that insulin may play a regulatory role in the synthesis of this transporter, thereby modulating activity in CNS noradrenergic pathways.

Regulation of vasopressin receptors and phosphoinositide hydrolysis in the septum of heterozygous and homozygous Brattleboro rats.

Accurel polypropylene mini-devices, loaded with arginine vasopressin (AVP) and implanted in the lateral cerebral ventricle were used to centrally treat heterozygous (HE) and homozygous (HO) Brattleboro (BB) rats. After 1 week of treatment, the concentration of AVP receptors in the HO-BB rat septum decreased from 19.4 +/- 2.6 to 12.4 +/- 1.1 fmol/mg protein, but remained unchanged in the HE-BB rat (10.7 +/- 0.8 and 7.0 +/- 1.1 fmol/mg protein). In the HO-BB rat the [3H]-AVP equilibrium dissociation constant (KD) of the septal AVP receptor decreased following AVP treatment (from 4.17 +/- 0.7 to 1.97 +/- 0.3 nM) compared to that of control animals. This decrease in receptor number following AVP treatment was accompanied by a decrease in the postreceptor response to AVP as measured by the AVP-stimulation of [3H]-inositol-1-phosphate (IP1) accumulation (22.0 +/- 6.1%) when compared to untreated animals (54.3 +/- 8.3%). This apparent AVP-induced down-regulation was not due to occupancy of the binding sites by AVP since preincubation of the tissue at 37 degrees C for 60 min (which was able to cause near-complete dissociation of the hormone-receptor complex) did not result in an increased number of binding sites upon reexposure to [3H]-AVP. This study thus provides evidence for the homologous down-regulation and desensitization in terms of [3H]-IP1 accumulation (phosphoinositide hydrolysis) of AVP receptors in the septum of the BB rat.

Theophylline-induced upregulation of A1-adenosine receptors associated with reduced sensitivity to convulsants.

Chronic administration of theophylline (50 mg/kg twice daily for 14 consecutive days) significantly increased the specific binding of [3H]CHA in membranes of the cerebral cortex and cerebellum of the rat, but not in membranes derived from the hippocampus or diencephalon. To characterize further the upregulation of A1 = adenosine receptors induced by theophylline, saturation analysis with [3H]CHA was performed in membranes of the cerebral cortex and cerebellum. In both saline- and theophylline-treated cortical membranes the binding isotherms for [3H]CHA could be resolved into receptor affinity states having respectively high (KH) and low (KL) affinity for [3H]CHA. The high and low affinity dissociation constants obtained from theophylline-exposed membranes of the cerebral cortex were 1.14 nM and 25.2 nM and did not differ significantly from the corresponding values in saline-treated animals. Chronic exposure to theophylline did, however, produce significant increases in the densities of both the high and low affinity forms of A1-adenosine receptors in the cerebral cortex. Qualitatively and quantitatively similar results were observed in cerebellar membranes. These results suggest that chronic exposure to theophylline increases the density of A1-receptor in the cerebral cortex and cerebellum with no concomitant changes in the ability of [3H]CHA to distinguish separate agonist affinity states of the receptor. The physiological significance of theophylline-induced upregulation was assessed by determining seizure thresholds for convulsants in rats treated chronically with saline or theophylline.(ABSTRACT TRUNCATED AT 250 WORDS)

Purinergic modulation of the seizure threshold for pentylenetetrazol in the rat.

The effects of various metabolically-stable analogs of adenosine on the threshold for seizures in rats was determined by measuring the dose of pentylenetetrazol (PTZ), infused through a tail vein, required to elicit a myoclonic jerk. The adenosine receptor agonists, 2-chloroadenosine (2-ClAdo), cyclohexyladenosine (CHA) and L- and D-phenylisopropyladenosine (L- and D-PIA), all produced dose-dependent elevations of the seizure threshold for pentylenetetrazol in rats. L-Phenylisopropyl-adenosine was the most potent analog of adenosine tested with a dose as small as 5 micrograms/kg (i.v.) producing a 23% increase in seizure threshold for pentylenetetrazol. The rank order of the potency of adenosine agonists in increasing the seizure threshold was L-PIA greater than 2-ClAdo greater than CHA greater than D-PIA, with L-PIA being 79 times more potent than D-PIA. In contrast to these effects, the adenosine receptor antagonist, theophylline, elicited a proconvulsant effect in doses from 15 to 60 mg/kg (i.p.). The effect of theophylline in reducing seizure threshold for pentylenetetrazol peaked at 30 mg/kg, a dose which reduced the seizure threshold by approx. 27%. Support for the involvement of recognition sites for adenosine in the observed modulation of seizure threshold was provided by the antagonism of the elevation of the seizure threshold for pentylenetetrazol induced by 2-ClAdo, by pretreatment with theophylline (5 mg/kg, i.v.). These findings provide support for the idea that endogenous adenosine may function as a regulator of seizure susceptibility.