Heather E. Edwards

Steroid hormones affect limbic afterdischarge thresholds and kindling rates in adult female rats.

UNLABELLED Catamenial epileptics show particular vulnerability to seizures during menstruation and at the time of ovulation, when circulating estradiol (E(2))/progesterone (P(4)) ratios are high. The present study tested the hypothesis that alterations in neuronal excitability induced by E(2) and P(4) affect thresholds and the development of secondary generalization in kindled rats. METHODS The effects of endogenous hormones secreted during the estrous cycle, and of exogenous exposure to E(2) and P(4) after ovariectomy (OVX), with and without adrenalectomy (ADX), were tested. Kindling electrodes were implanted in the basolateral amygdala or dorsal hippocampus in adult female rats. The anticonvulsive effects of P(4) on amygdala kindled seizures were also determined in intact subjects. RESULTS In intact females, afterdischarge thresholds (ADTs) in the amygdala were significantly lower (306+/-48 microA; peak to peak) at mid-day proestrus, just prior to ovulation, when serum E(2) is elevated. ADTs were more than twofold higher (808+/-95 microA) during metestrus, coincident with peak ovarian P(4) secretion. In OVX females, amygdala thresholds were lowest with E(2) replacement and highest with P(4) replacement. Hippocampal ADT was unaffected by hormone replacement after OVX. The rates of both amygdala and hippocampal kindling were significantly accelerated by E(2) and slowed by P(4). E(2) replacement significantly increased serum corticosterone (CORT) levels. In ADX rats, CORT replacement increased kindling rates, synergizing with the effects of E(2). In fully kindled animals, P(4) administration suppressed motor seizures in approximately 60% of cases. CONCLUSIONS E(2) lowers amygdala ADTs and facilitates kindling. This effect may involve both direct E(2) effects and indirect effects mediated via increased levels of circulating corticosterone. P(4) raises amygdala ADTs, slows kindling development and suppresses fully kindled seizures. Hence, P(4) may have potential therapeutic value for women with catamenial epilepsy.

Prenatal Stress Alters Seizure Thresholds and the Development of Kindled Seizures in Infant and Adult Rats

Stressful events during gestation and in the neonatal period have important effects on the later physical and mental health of the offspring. The present study tested the hypothesis that pre- and/or postnatal stress would affect seizure susceptibility in infant and adult rats, using the hippocampal kindling model. Prenatal stress consisted of daily restraint of the dam under bright light (for 45 min, 3 x / day) during either early gestation or mid/late gestation. Pups were compared to pups born to unstressed dams. Postnatal stress (administered on Days 4 and 5 after birth) consisted of either separation from the dam and placement in the bedding of a strange male for 1 h or injection of dexamethasone. Pups were compared to nonstressed siblings of the same litter. Both early and mid/late-gestation prenatal stress significantly lowered the after-discharge threshold (ADT) in infant, 14-day-old rat offspring, as compared to nonstressed control offspring. This effect on ADT was lost by adulthood. Mid/late-gestation stress increased the rate of kindled seizure development in infant rats and in their adult male, but not female, siblings. Postnatal stress had no significant effect on ADT or kindling rate. These findings indicate that prenatal stress, particularly during the latter half of pregnancy, may play an important role in increasing seizure vulnerability in the unborn offspring. These effects are more pronounced in infancy, but can also extend to adulthood.

Testosterone and its metabolites affect afterdischarge thresholds and the development of amygdala kindled seizures

UNLABELLED In boys with epilepsy, pubertal increases in seizure frequency may be associated with rising androgen levels. The present study tested the hypothesis that testosterone (T) and/or its metabolites might affect amygdala seizure thresholds and the development of secondary generalization from amygdala foci (kindling). Afterdischarge thresholds and kindling rate were measured in gonadectomized (GDX) male rats, with or without T replacement therapy. Drugs that block either androgen or estradiol (E(2)) receptor-mediated responses were also tested. METHODS Kindling electrodes were implanted in the basolateral amygdala of adult male Wistar rats. In Experiment 1, subjects were GDX and implanted with a silastic capsule containing either: cholesterol (control); T; 5% E(2) in cholesterol; or 5alpha-dihydrotestosterone (DHT). In Experiment 2, intact subjects were treated with daily injections of vehicle (control); daily injections of flutamide (an androgen receptor antagonist); or Silastic implants containing 1,4,9-androstatriene 3,17-dione (ATD; an aromatase inhibitor). RESULTS In Experiment 1, initial afterdischarge (AD) thresholds were significantly lowered by E(2) treatment, as compared to cholesterol controls, and remained low throughout the kindling paradigm. In T replaced males, AD threshold significantly decreased over the kindling period, a response that was not observed in DHT treated rats. Rates of kindling were significantly faster as a result of T, E(2) and DHT treatment, as compared to cholesterol controls. E(2) treated males kindled the fastest of all 3 groups. In Experiment 2, initial AD thresholds were significantly lowered by flutamide treatment, as compared to cholesterol controls, and remained low throughout the kindling paradigm. AD threshold significantly decreased over the kindling period in intact males, a response that was blocked by ATD treatment. Both flutamide and ATD significantly slowed the rate of kindling, as compared to intact controls. ATD had the most dramatic inhibitory effect on kindling rate. CONCLUSIONS In males, T and its two metabolites, E(2) and DHT, all appear to enhance the development of amygdala-kindled seizures. E(2) has the most potent epileptogenic effect. Antagonism of E(2) mediated effects in the brain may have potential therapeutic value for males with epilepsy.

Limbic Seizures Alter Reproductive Function in the Female Rat

Summary: Purpose: Reproductive dysfunction and endocrine disorders are common among women with temporal lobe epilepsy. This study used the kindled rat model to test the hypothesis that limbic seizures directly contribute to reproductive dysfunction.

The Impact of Corticosteroids on the Developing Animal

Infants are subjected to both endogenous and exogenous corticosteroids in the pre- and postnatal periods. Stress to the mother before birth, or to the child postpartum, can give rise to high, chronic endogenous corticosteroid levels caused by activation of the hypothalamic-pituitary-adrenal (HPA) axis. Physician-administered exogenous corticosteroids are also used in the management of a wide spectrum of pre- and postnatal conditions. The long-term effects of corticosteroids in developing humans are not well known. Studies in animals, however, indicate that both natural stress and exogenous corticosteroids can have long-lasting and deleterious effects on the body, brain, behavior, and hypothalamic-pituitary-adrenal axis of developing infants. These data suggest that exogenous corticosteroids should be administered with caution, after careful benefit/risk analyses, and that, as far as possible, the developing brain should be protected against the effects of pre- and postnatal stress.

Partial and Generalized Seizures Affect Reproductive Physiology Differentially in the Male Rat

Summary: Purpose: Reproductive dysfunction and endocrine disorders occur frequently among men with epilepsy. This study tested the hypothesis that focal limbic seizures and generalized seizures may both contribute to reproductive dysfunction.

The Effects of ACTH and Adrenocorticosteroids on Seizure Susceptibility in 15-Day-Old Male Rats

Infantile spasms are generalized convulsive seizures seen in the first year of life. They respond poorly to conventional anticonvulsants, but are often controlled by adrenocorticotropic hormone (ACTH) therapy. Other childhood seizures are also responsive to ACTH. The present study tested the effects of ACTH and related adrenocorticosteroids in prepubertal, 15-day-old rats. Compounds were tested against minimal (scMET) and maximal (MMT) pentylenetetrazol seizures, maximal electroconvulsive shock (MES) seizures, and hippocampal kindled seizures. ACTH had no significant anticonvulsant effects against any type of seizure. Several of the adrenocorticoid hormones, however, had strong anticonvulsant effects. Deoxycorticosterone (DOC) and progesterone (P4) both significantly suppressed scMET, MMT, and MES seizures 15 min after s.c. injection. DOC and P4 also shortened hippocampal discharge duration in the kindling model, and DOC, but not P4, suppressed the kindled convulsion. Aldosterone and corticosterone were effective against scMET seizures, and aldosterone was effective against MMT seizures. Dexamethasone and dihydroepiandrosterone had no anticonvulsant activity. These findings indicate that the adrenal steroid precursors, DOC and P4, have a broad spectrum of anticonvulsant activity in animal seizure models. They may play a role in mediating the anticonvulsant effects of ACTH in human infants.

Dose-, time-, age-, and sex-response profiles for the anticonvulsant effects of deoxycorticosterone in 15-day-old rats

Recently, we have shown that a single high dose of the adrenal steroid precursor hormone deoxycorticosterone (DOC) has potent anticonvulsant effects in 15-day-old rats. To better define the actions of DOC, the present study established dose-, time-, age-, and sex-response curves for the anticonvulsant actions of DOC. Methods. Dose- and time-response studies were done using two different seizure models: (1) maximal pentylenetetrazol seizures (MMT) and (2) maximal electroconvulsive shock (MES) seizures. Subsequently, age- and sex-response studies were done using MMT seizures and two different DOC doses, one low (nonsedating) and one high (sedating). Results. In dose-response studies, DOC suppressed MMT seizures with an ED(50) of about 5 mg/kg (sc). Higher doses were necessary to suppress MES seizures, where the ED(50) was about 20 mg/kg. In time-response studies, DOCs effects were rapid in onset. Complete suppression of seizures was seen by 5 min in the MES model and by 15 min in the MMT model. In developmental studies, both a low nonsedating and a high sedating dose of DOC suppressed MMT seizures in neonatal, infant, weanling, and juvenile rats of either sex. The suppressive effects of low-dose DOC were lost after puberty, however. The suppressive effects of high-dose DOC also declined after puberty, especially in males. Conclusion. DOC has significant anticonvulsant actions that occur in prepubertal, but not postpubertal subjects. DOC might have clinical importance in the future treatment of childhood seizure disorders.

Gonadectomy unmasks an inhibitory effect of progesterone on amygdala kindling in male rats

Previous studies have suggested that the effects of progesterone on kindling in rats may be sexually differentiated, significant effects of physiological levels of progesterone being observed only in females. The present study demonstrates that this difference results from the hormones secreted by the testes. Thus, in orchidectomized males, progesterone induces a delay in the onset of amygdala-kindled seizures similar to that observed in females.

Exogenous antenatal glucocorticoid treatment reduces susceptibility for hippocampal kindled and maximal electroconvulsive seizures in infant rats

Dexamethasone (DEX) and betamethasone (BETA) are synthetic glucocorticoids used clinically to reduce morbidity and mortality in infants at risk of premature birth. While their main role is to facilitate lung development, their effect on the developing nervous system and seizure susceptibility is unclear. The present study tested the hypothesis that antenatal DEX or BETA treatment would alter seizure thresholds and spread of epileptiform activity in the brains of infant offspring. Pregnant dams received once daily injections with DEX, BETA, or vehicle on gestation days 15 to 18. Physical appearance, litter size, and weight of the pups were assessed postnatally. Seizure thresholds were determined on postnatal day 14 using electroconvulsive shock delivered through ear clips (i.e., generalized seizure) or kindling stimulation of the left hippocampus through indwelling electrodes (i.e., partial seizure). The rate of acquisition of kindled seizures was determined on postnatal days 14 and 15. Pups from dams treated with DEX and BETA were growth restricted. Antenatal BETA treatment increased seizure threshold for both models. Antenatal DEX treatment increased kindling threshold, but not electroconvulsive shock threshold. Kindling rate was unaffected by either antenatal treatment. In summary, repeated glucocorticoid treatments had adverse effects on weight, skin and litter size, raised seizure thresholds, and reduced seizure vulnerability. Although these effects are seemingly desirable with respect to seizure susceptibility, they suggest that the functional organization of the nervous system is altered with antenatal synthetic glucocorticoid treatment.