Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Androgen deficiency is unusually common among men with epilepsy. It may contribute to reproductive and sexual dysfunction and possibly exacerbate seizure frequency. The most important androgen is testosterone. it exists in the serum in a free form or bound to albumin or sex hormone-binding globulin (SHBG). Free testosterone levels have correlated significantly with measures of potency and sexual interest. The possibility that measures of non-SHBG-bound testosterone may provide a more sensitive assessment of biologically and perhaps clinically significant androgen levels is raised for consideration. Androgen deficiency may result from increased catabolism and binding induced by antiepileptic drugs (AEDs). It is a feature of the reproductive endocrine disorders that are often associated with epilepsy: hypogonadotropic hypogonadism, hypergonadotropic hypogonadism, and functional hyperprolactinemia. It may be a consequence of medication-induced elevations in serum estradiol. Estradiol exerts a potent inhibitory influence on luteinizing hormone secretion and may contribute to premature aging of the reproductive system, both at the level of the testes and the hypothalamus. Testosterone therapy may moderately benefit reproductive and sexual function. Despite its antiseizure effects in animal experiments, however, it has not been reported to improve seizures clinically. One possible explanation is that AEDs that induce enzyme synthesis may enhance the conversion of testosterone to estradiol by aromatase. This possibility is supported by the improved seizure control achieved with the adjunctive use of the aromatase inhibitor testolactone or the antiestrogen clomiphene.
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PMID:Reproductive endocrine considerations and hormonal therapy for men with epilepsy. 195 10

Antiepileptic drug-induced reductions in serum levels of biologically active testosterone and elevations in serum estradiol (E2) may contribute to sexual dysfunction among men with epilepsy. Treatment using a combination of testosterone and the aromatase inhibitor testolactone may have significantly better effects on sexual function and also seizure frequency than testosterone alone.
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PMID:Testosterone versus testosterone and testolactone in treating reproductive and sexual dysfunction in men with epilepsy and hypogonadism. 952 Dec 75

Reproductive dysfunction is unusually common among men and women with epilepsy. Reproductive endocrine disorders are also common and may be causal. The association between particular reproductive endocrine disorders and the laterality and focality of epileptiform discharges suggests an etiologic role for epilepsy. Gonadal steroids are neuroactive and influence seizure occurrence: estrogen is epileptogenic whereas progesterone has antiseizure effects. Fluctuations in the absolute and relative serum levels of these hormones may play a critical role in establishing three distinct patterns of catamenial epilepsy: 1) perimenstrual and 2) preovulatory in women with ovulatory cycles, and 3) entire luteal phase of the cycle in women with anovulatory cycles. Treatment with progesterone reduces seizure frequency by more than half. In men, testosterone effects may depend on the relative concentrations of two major testosterone metabolites that exert opposing influences on neuronal excitability: estrogen potentiates whereas dihydrotestosterone inhibits NMDA-mediated conductance. Combined therapy using an aromatase inhibitor along with testosterone improves sexual function and may reduce seizures in men with epilepsy.
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PMID:Psychoneuroendocrine aspects of temporolimbic epilepsy. Part II: Epilepsy and reproductive steroids. 1010 Apr 31

The effect of testosterone on brain excitability is unclear. The excitatory aspect of testosterone's action in the brain may be due to its conversion to estrogen via aromatase. We report herein a 61-year-old man with temporal lobe epilepsy and sexual dysfunction due to low testosterone levels. Use of an aromatase inhibitor, letrozole, normalized his testosterone level and improved his sexual functioning. Letrozole, in addition to standard antiseizure medication, was also associated with improved seizure control. This was sustained and, further, was associated with seizure exacerbation after withdrawing letrozole, and subsequent seizure improvement after restarting it. During the course of treatment, his serum testosterone level increased, sex hormone-binding globulin decreased (SHBG), luteinizing hormone (LH), and follicle-stimulating hormone (FSH) levels increased, while serum estradiol levels remained undetectable. Letrozole may, therefore, have produced a central alteration in the testosterone/estrogen ratio, thereby impairing estrogen-mediated feedback control of the pituitary, resulting in the observed increase in circulating LH and FSH levels. This experience suggests that aromatase inhibitors should be further investigated as a beneficial treatment modality for male patients with epilepsy.
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PMID:Aromatase inhibition, testosterone, and seizures. 1512 30

Testosterone modulates seizure susceptibility in animals and humans, but the underlying mechanisms are obscure. Here, testosterone modulation of seizure susceptibility is hypothesized to occur through its conversion to neurosteroids with "anticonvulsant" and "proconvulsant" actions, and hence the net effect of testosterone on neural excitability and seizure activity depends on the levels of distinct testosterone metabolites. Testosterone undergoes metabolism to neurosteroids via two distinct pathways. Aromatization of the A-ring converts testosterone into 17beta-estradiol. Reduction of testosterone by 5alpha-reductase generates 5alpha-dihydrotestosterone (DHT), which is then converted to 3alpha-androstanediol (3alpha-Diol), a powerful GABA(A) receptor-modulating neurosteroid with anticonvulsant properties. Systemic doses of testosterone decreased seizure threshold in rats and increased the incidence and severity of pentylenetetrazol (PTZ)-induced seizures in mice. These proconvulsant effects of testosterone were associated with increases in plasma 17beta-estradiol and 3alpha-Diol concentrations. Pretreatment with letrozole, an aromatase inhibitor that blocks the conversion of testosterone to 17beta-estradiol, significantly inhibited testosterone-induced exacerbation of seizures. The 5alpha-reductase inhibitor finasteride significantly reduced 3alpha-Diol levels and also blocked letrozole's ability to inhibit the proconvulsant effects of testosterone. The 5alpha-reduced metabolites of testosterone, DHT and 3alpha-Diol, had powerful anticonvulsant activity in the PTZ test. Letrozole or finasteride had no effect on seizure protection by DHT and 3alpha-Diol, but indomethacin partially reversed DHT actions. 3alpha-Diol but not 3beta-androstanediol, a GABA(A) receptor-inactive stereoisomer, suppressed 4-aminopyridine-induced spontaneous epileptiform bursting in rat hippocampal slices. Thus, testosterone-derived neurosteroids 3alpha-Diol and 17beta-estradiol could contribute to the net cellular actions of testosterone on neural excitability and seizure susceptibility.
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PMID:Testosterone modulation of seizure susceptibility is mediated by neurosteroids 3alpha-androstanediol and 17beta-estradiol. 1548 42

Manipulation of neurosteroids to treat epilepsy has been an area of active research. The effect of testosterone on brain excitability and seizure threshold has been mixed; the estradiol metabolite of testosterone increases brain excitability, while the reduced metabolite of testosterone, 3alpha-androstanediol, decreases brain excitability, likely through an action at the gamma-amino butyric acid A receptor. Therefore, the metabolites of testosterone produce opposite effects on brain excitability in seizure models. Aromatase is the enzyme for the conversion of testosterone to 17beta-estradiol. Aromatase inhibitors could decrease brain excitability by decreasing local estradiol levels and therefore, could be beneficial for the treatment of epilepsy. Aromatase inhibitors are US Food and Drug Administration-approved and have a long history of safe use in menopausal women with breast cancer. This review presents the results of using anastrazole in an open-label, add-on manner in a small group of men with epilepsy in order to improve seizures. The results suggested some effect on reduction of seizures and no side effects. Testosterone levels did increase, but not to above the normal range. Letrozole used in a single case was also beneficial for seizures. It was concluded that aromatase inhibitors may be a useful adjunct to the treatment of epilepsy, but habituation to the treatment may be limiting. Many men with epilepsy have low testosterone, and aromatase inhibition may be helpful in restoring levels to normal. Modulation of reproductive hormones by aromatase inhibition as well as enhancement of the 3alpha-androstanediol pathway may be an avenue of epilepsy treatment that would not produce sedative side effects, which is often a limiting factor with standard antiseizure medications. A further interesting result is that elevated follicle stimulating hormone and luteal stimulating hormone levels were associated with seizure reduction, suggesting that they may be a biomarker for a beneficial effect of aromatase inhibition on brain excitability.
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PMID:Aromatase inhibitors as add-on treatment for men with epilepsy. 1585 82

Estrogen has been suggested to be pro-epileptic by reducing GABA synthesis, resulting in increased spine density and a decreased threshold for seizures in the hippocampus, which, once they occur, are characterized by a dramatic spine loss in the affected brain areas. As considerable amounts of estradiol are synthesized in the hippocampus, in this study we focused on aromatase, the rate-limiting enzyme in estrogen synthesis in order to examine the role of locally synthesized estrogens in epilepsy. To this end, we first examined the effects of letrozole, a potent aromatase inhibitor, on GABA metabolism in single interneurons of hippocampal dispersion cultures. Letrozole downregulated estradiol release into the medium, as well as glutamate decarboxylase (GAD) expression and GABA synthesis, and decreased the number of GAD positive cells in the cultures. Next, we counted spine synapses and measured estradiol release of hippocampal slice cultures, in which GABA(A) receptors had been blocked by bicuculline, in order to mimic epileptic activity. Treatment of slice cultures with bicuculline resulted in a dramatic decrease in the number of spine synapses and in a significant suppression of estrogen synthesis. The decrease in synapse number in response to bicuculline was restored by combined application of estradiol and bicuculline. Surprisingly, estradiol alone had no effect on either spine synapse number or on GAD expression and GABA synthesis. "Rescue" of synapse number in "epileptic slices" by estradiol and maintenance of GABA metabolism by hippocampus-derived estradiol points to a neuroprotective role of aromatase in epilepsy. Re-filling of estradiol stores after their depletion due to overexcitation may therefore add to therapeutical strategies in epilepsy.
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PMID:Neuroprotection by estradiol: a role of aromatase against spine synapse loss after blockade of GABA(A) receptors. 1700 80

Steroid hormones play a key role in the pathophysiology of several brain disorders. Testosterone modulates neuronal excitability, but the underlying mechanisms are obscure. There is emerging evidence that testosterone-derived "androgenic neurosteroids", 3alpha-androstanediol and 17beta-estradiol, mediate the testosterone effects on neural excitability and seizure susceptibility. Testosterone undergoes metabolism to neurosteroids via two distinct pathways. Aromatization of the A-ring converts testosterone into 17beta-estradiol. Reduction of testosterone by 5alpha-reductase generates 5alpha-dihydrotestosterone, which is then converted to 3alpha-androstanediol, a powerful GABA(A) receptor-modulating neurosteroid with anticonvulsant properties. Although the 3alpha-androstanediol is an emerging neurosteroid in the brain, there is no specific and sensitive assay for determination of 3alpha-androstanediol in biological samples. This article describes the development and validation of mass spectrometric assay of 3alpha-androstanediol, and the molecular mechanisms underlying the testosterone modulation of seizure susceptibility. A liquid chromatography-tandem mass spectrometry assay to measure 3alpha-androstanediol is validated with excellent linearity, specificity, sensitivity, and reproducibility. Testosterone modulation of seizure susceptibility is demonstrated to occur through its conversion to neurosteroids with "anticonvulsant" and "proconvulsant" actions and hence the net effect of testosterone on neural excitability and seizure activity depends on the levels of distinct testosterone metabolites. The proconvulsant effect of testosterone is associated with increases in plasma 17beta-estradiol concentrations. The 5alpha-reduced metabolites of testosterone, 5alpha-dihydrotestosterone and 3alpha-androstanediol, had powerful anticonvulsant activity. Overall, the testosterone-derived neurosteroids 3alpha-androstanediol and 17beta-estradiol could contribute to the net cellular actions of testosterone in the brain. Because 3alpha-androstanediol is a potent positive allosteric modulator of GABA(A) receptors, it could serve as an endogenous neuromodulator of neuronal excitability in men. The 3alpha-androstanediol assay is an important tool in this area because of the growing interest in the potential to use adjuvant aromatase inhibitor therapy to improve treatment of epilepsy.
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PMID:Mass spectrometric assay and physiological-pharmacological activity of androgenic neurosteroids. 1762 27

Seizures do not occur randomly. They tend to cluster in the majority of men and women with epilepsy. Seizure clusters, in turn, often show a periodicity. When the periodicity of seizure exacerbation aligns itself with that of the menstrual cycle, it is designated as catamenial epilepsy. The neuroactive properties of reproductive steroids and the cyclic variation in their serum concentrations are important pathophysiologic factors. Recent investigations have demonstrated and confirmed the existence of at least three patterns of catamenial seizure exacerbation: perimenstrual and periovulatory in ovulatory cycles and entire luteal phase in anovulatory cycles. A rational mathematical basis for the categorization of seizure exacerbation as catamenial epilepsy has been developed. It identifies approximately one third of women as having catamenial epilepsy. If seizures show hormonal sensitivity in their occurrence, they may also respond to hormonal treatment. Successful open label trials using cyclic natural progesterone supplement, depomedroxyprogesterone and gonadotropin-releasing hormone analogues in women and using testosterone with or without aromatase inhibitor in men have been reported. Prospective, randomized, placebo-controlled, double-blind investigations are warranted and under way.
Seizure 2008 Mar
PMID:Catamenial epilepsy: definition, prevalence pathophysiology and treatment. 1816 32

The etiology of epilepsy still represents an open subject of discussions and research. Contrary to the majority of diseases for which drugs are developed following the origin of disease, epilepsy is treated symptomatically because it is perceived to have diverse causes. Recent results of oncological, neurological, developmental and biochemical studies suggest that the reproductive dysfunction in men and women, as a side effect related with antiepileptic therapy, points to the single origin of this disease. It seems that contrary to the present definition of estrogen as a compound affecting seizure susceptibility, based on causal chains: of increased estrogen levels (alcohol intake) and seizure, fact that all antiepileptic drugs are aromatase inhibitors or have estrogen binding properties, described cases of seizures in epileptic patients taking quinine as preventive therapy against malaria, impact of photic activation and sleep on estrogen level, it can be assumed that estrogen plays the leading role in the mutual origin of different types of epilepsy.
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PMID:Is the role of estrogens and estrogen receptors in epilepsy still underestimated? 1949 33


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