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Query: UMLS:C0338671 (Steroids)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Steroids that enhance gamma-aminobutyric acid (GABA)A receptor function in the central nervous system allosterically modulate the binding of the convulsant chloride channel ligand [35S]-t-butyl bicyclophosphorothionate. When assayed in membrane homogenates and in tissue sections by autoradiography, concentration-dependence curves vary with respect to both brain region and the nature of the steroid. Alphaxalone and endogenous steroid hormone metabolites inhibit the binding of [35S]-t-butyl bicyclophosphorothionate in some regions, enhance it in others and give biphasic concentration-dependence in others, apparently the result of algebraic summation of two effects involving regional-dependent enhancement or inhibition. The alphaxalone effect is additive with that produced by adding GABA to the binding assays in some regions, but synergistic in other areas. Likewise, the effect of GABA is inhibited completely by saturating concentrations of the antagonist bicuculline methochloride in some areas but only partially in others, and completely or partially reversed by the convulsant benzodiazepine Ro5-4864, depending on region. The granule cell and molecular layers of cerebellum are particularly different in these allosteric interactions. The heterogeneity of binding behavior is consistent with the presence of multiple GABAA receptor subtypes in the brain. Regional variation in subunit gene expression apparently produces a family of hetero-oligomeric GABAA receptors with different biological and pharmacological properties, including qualitative and quantitative differences in modulation by neuroactive steroids.
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PMID:Regional variation in steroid anesthetic modulation of [35S]TBPS binding to gamma-aminobutyric acidA receptors in rat brain. 132 64

Epilepsy complicates severe head trauma. Development of persistent seizures appears to correlate with the extent of trauma. Although early reports suggested that prophylactic administration of antiepileptic drugs would prevent epileptogenesis, controlled studies have failed to corroborate this assumption. Head trauma initiates a sequence of responses that includes altered blood flow and vasoregulation, disruption of the blood-brain barrier, increases in intracranial pressure, focal or diffuse ischemia, hemorrhage, inflammation, necrosis, and disruption of fiber tracts. The presence of an intracranial hematoma has a robust association with the development of post-traumatic epilepsy. Extravasation of blood is followed by hemolysis and deposition of heme-containing compounds into the neuropil, initiating a sequence of univalent redox reactions and generating various free radical species, including superoxides, hydroxyl radicals, peroxides, and perferryl ions. Free radicals initiate peroxidation reactions by hydrogen abstraction from methylene groups adjacent to double bonds of fatty acids and lipids within cellular membranes. Intrinsic enzymatic mechanisms for control of free radical reactions include activation of catalase, peroxidase, and superoxide dismutase. Steroids, proteins, and tocopherol also terminate peroxidative reactions. Tocopherol and selenium are effective in preventing tissue injury initiated by ferrous chloride and heme compounds. Treatment strategies for prevention or prophylaxis of post-traumatic epilepsy must await absolute knowledge of mechanisms. Antioxidants and chelators may be useful, given the speculation that peroxidative reactions may be an important component of brain injury responses. However, potential treatment strategies involving gamma-aminobutyric acid (GABA) agonists, NMDA receptor antagonists, and barbiturates need further scientific assessment.
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PMID:Post-traumatic epilepsy: cellular mechanisms and implications for treatment. 222 73

Steroids can modulate gamma-aminobutyric acid (GABAA) receptor function in rat brains, but the physiological relevance of this mechanism is still unclear. To determine whether this phenomenon is widespread among vertebrates, we investigated steroid modulation of GABAA receptors in amphibian brain tissue. Equilibrium binding parameters for t-butylbicyclophosphorothionate ([35S]TBPS) and [3H]flunitrazepam were similar in Taricha granulosa and mammalian brains, as was the allosteric regulation of [35S]TBPS and [3H]flunitrazepam binding by GABA. The rank order and absolute potencies of steroids to inhibit [35S]TBPS binding and enhance [3H]flunitrazepam binding were also similar in Taricha and rat brains. As in mammalian studies, physiological concentrations of corticosterone had no effect on ligand binding or GABA-stimulated Cl- uptake. In autoradiographic studies, 3 alpha-hydroxy-5 alpha-pregnan-20-one inhibited [35S]TBPS binding sites in all brain regions examined, whereas corticosterone had no effect on [35S]TBPS binding. These studies suggest that the steroid recognition sites on GABAA receptors have been highly conserved through vertebrate evolution and thus portend physiologically important functions. However, the pharmacological profiles for the GABAA receptor and the high-affinity corticosteroid receptor are apparently different, suggesting there are multiple types of steroid recognition sites on neuronal membranes.
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PMID:Steroid modulation of GABAA receptors in an amphibian brain. 806 72

Steroids have often been associated with modulation of the GABAergic system in the central nervous system, mainly in ovariectomized rats. In the present study, the effect of the synthetic estrogen diethylstilbestrol (DES) and testosterone (T) on the density of peripheral and central benzodiazepine (BZ) and gamma-aminobutyric acid (GABAA) receptors was evaluated in the frontoparietal cortex and whole cerebellum of female rats during the peripubertal period. The density of peripheral-type BZ receptors was not altered in either of these organs, whether or not treated with DES or T. The density of central BZ and GABAA receptors in either frontoparietal cortex or whole cerebellum was significantly reduced following treatment with DES or T; however, the effect of DES was much more pronounced. The similarity of the effect of T to that of DES may suggest that the effect of T is mediated at least partially by intraovarian biosynthesis of estradiol-17 beta from the exogenously administered T. Collectively, these results may suggest that in female rats during the peripubertal period, sex steroids produce a down-regulatory effect on expression of the brain GABAA/BZ complex, in contrast to their well-established up-regulatory effect in adult ovariectomized rats.
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PMID:Long-term testosterone or diethylstilbestrol treatment affects gamma-aminobutyric acid and central-type benzodiazepine receptors but not peripheral-type benzodiazepine receptors in the female rat brain. 823 68

We have previously shown that both epidural administration and microinjection of methylprednisolone (MP) produces neuronal hyperexcitability in the murine spinal cord in vivo. In this study, the whole-cell patch-clamp technique was used to describe and characterize MP-induced neuronal hyperexcitability. Exposure of 10- to 18-day old dissociated spinal cord cultures to 65 microM-8 mM MP caused a concentration-dependent increase in the firing rate. MP (1 mM) increased the frequency of spontaneous excitatory postsynaptic currents (sEPSCs) and spontaneous inhibitory postsynaptic currents (sIPSCs). The amplitude of the sEPSCs was also increased in response to 1 mM MP, whereas sIPSCs became smaller in size in the presence of MP. MP (1 mM) reduced the amplitude of the gamma-aminobutyric acid (GABA)-induced currents, whereas it increased the amplitude of the glutamate-induced currents. And finally; MP (1 mM), by itself, did not change the overall postsynaptic membrane conductance. These observations suggest that (1) MP can act as an excitatory agent in vitro, (2) it can act at the presynaptic as well as the postsynaptic level, and (3) it affects spinal cord neurons by influencing the ligand-gated (GABA and glutamate) channels.
Steroids 1996 Jun
PMID:Effects of methylprednisolone on the GABA- and glutamate-induced currents: relevance to glucocorticoid-induced neurotoxicity and brain aging. 877 98

Inhibition of the aggressive behavior of castrated male mice toward lactating female intruders by dehydroepiandrosterone (DHEA) is correlated with a decrease of pregnenolone sulfate (PREG S) concentrations in brain. We attempted to establish a cause to effect relationship by preventing the decrease of PREG S with trilostane (TRIL), a competitive inhibitor of delta 5-3 beta-hydroxysteroid dehydrogenase delta 5 --> 4 isomerase enzyme. Indeed, TRIL elicited a large increase of PREG levels in brain. Those of PREG S were, however, unchanged, and TRIL unexpectedly decreased the aggressive behavior of control castrated males and did not counteract the inhibition elicited by DHEA. The neurosedative progesterone (PROG) metabolite, 3 alpha-hydroxy-5 alpha-pregnan-20-one (TH PROG), undetectable in the brain of control mice, reached nanomolar concentration range in TRIL-treated ones. However, injection of appropriate amounts of PROG, producing an even larger increase of brain TH PROG, had no antiaggressive effect. Finally, the latter was attributed to the large (up to 80 nM) TRIL-induced increase of brain 3 alpha,21-dihydroxy-5 alpha-pregnan-20-one, which like TH PROG potentiates inhibitory gamma-aminobutyric acid (GABA)ergic neurotransmission.
Steroids 1996 Mar
PMID:Neurosteroids in the mouse brain: behavioral and pharmacological effects of a 3 beta-hydroxysteroid dehydrogenase inhibitor. 885 32

Neuroactive steroids have been postulated to cause anesthesia by binding to unique steroid recognition sites on gamma-aminobutyric acid (GABA) receptors and modulating GABA receptor function. Steroids interact with these sites diastereoselectively, but it is unknown whether steroid sites show enantioselectivity. To address this issue, we synthesized enantiomers to (+)-3alpha-hydroxy-5alpha-androstane-17beta-carbonitrile and (+)-3alpha-hydroxy-5alpha-pregnan-20-one. In this study, we show that potentiation of GABA-mediated currents and gating of the GABA(A) channel by steroids, as well as steroid-induced anesthesia in tadpoles and mice, is enantioselective, with the (+)-enantiomers exhibiting significantly greater potency in all assays. The correlation between the effects of steroid enantiomers on channel behavior and their effects as anesthetics provides strong evidence that GABA(A) receptors play a predominant role in steroid-induced anesthesia. The enantiomers also provide a tool to probe the relative contributions of direct chloride channel activation versus potentiation of GABA-elicited currents to the induction of anesthesia. Studies examining the effects of combinations of (+)- and (-)-3alpha-hydroxy-5alpha-androstane-17beta-carbonitrile were consistent with the hypothesis that potentiation of GABA-activated currents contributes to steroid-induced anesthesia but indicated that direct steroid activation of GABA(A) receptors is not mechanistically important in producing anesthesia.
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PMID:Enantioselectivity of steroid-induced gamma-aminobutyric acidA receptor modulation and anesthesia. 896 80

Steroids which are synthesized within the nervous system, such as progesterone, have been termed 'neurosteroids'. Levels of progesterone are much larger in peripheral nerves of rats and mice than in plasma, and persist after removal of the steroidogenic endocrine glands. Schwann cells are a source of progesterone: when isolated from embryonic dorsal root ganglia, they can synthesize progesterone from pregnenolone, the obligate precursor of all steroids. Locally produced progesterone has been shown to play an important role in myelination of peripheral nerve. We show here that sensory neurons from embryonic dorsal root ganglia also express 3beta-hydroxysteroid dehydrogenase and can convert [3H]pregnenolone to [3H]progesterone. Moreover, when cultured under different conditions and incubated for 24 h in the presence of 100 nM [3H]pregnenolone, they produce 5-10 times more [3H]progesterone than Schwann cells. The conversion of pregnenolone to progesterone by neurons is further increased by a diffusible factor produced by Schwann cells. Sensory neurons can also metabolize progesterone to 5alpha-dihydroprogesterone, but unlike Schwann cells, they do not produce 3alpha,5alpha-tetrahydroprogesterone, a potent positive allosteric modulator of gamma-aminobutyric acid type A receptors. We also show that cells isolated from the adult nervous system still have the capacity to convert [3H]pregnenolone to progesterone and its 5alpha-reduced metabolites: neurons and Schwann cells purified from dorsal root ganglia of 6 week old male rats show a similar pattern of pregnenolone metabolism to cells isolated from 18 day old embryos. These findings further support the important role of progesterone in the development and regeneration of the peripheral nervous system.
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PMID:Neurosteroids: expression of functional 3beta-hydroxysteroid dehydrogenase by rat sensory neurons and Schwann cells. 946 19

Steroids with the 3alpha-hydroxy-5alpha- or 5beta-reduced configurations of the A ring interact with the gamma-aminobutyric acid (GABA) type A receptor chloride channel complex and potentiate the stimulation of Cl- uptake by GABA agonists. Conversely, the sulfate esters of 3beta-hydroxy-5-ene neurosteroids pregnenolone and dehydroepiandrosterone behave as inhibitory modulators. In the present work, steroid sulfates were tested for their ability to modulate muscimol-induced chloride ion uptake into cortical synaptoneurosomes. 3alpha-Hydroxy-5alpha-pregnan-20-one sulfate and several other 3alpha-hydroxy-steroid sulfates potentiated, whereas 3beta-hydroxy-steroid sulfates inhibited muscimol effect. It is concluded that GABA-agonistic or antagonistic properties of steroid sulfates depend on the alpha or beta orientation of the sulfate moiety linked to the A ring.
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PMID:Opposing effects of different steroid sulfates on GABAA receptor-mediated chloride uptake. 959 78

The melanotrophs of the neurointermediate lobe and peptidergic terminals of the neural lobe are regulated by gamma-aminobutyric acid (GABA) via GABA-A receptors and therefore, may be important sites for the modulatory actions of neurally active steroids. These steroid compounds might be produced peripherally, synthesized de novo in the pituitary, or derivatized from circulating steroids, each pathway having different physiological implications. In the present study, we show that neurointermediate lobe tissue can derivatize progesterone to the neurally active steroid 3 alpha-hydroxy-5 alpha-pregnan-20-one. The neurointermediate lobe was found to be four times as active as anterior pituitary and mediobasal hypothalamus in conversion of progesterone to 3 alpha-hydroxy-5 alpha-pregnan-20-one; mediobasal hypothalamus was relatively more active in the production of the intermediate 5 alpha-pregnan-3,20-dione. The identity of the compounds was confirmed by the method of serial isotopic dilution. We observed rates of synthesis in the neurointermediate lobe consistent with the production of physiologically relevant quantities of 3 alpha-hydroxy-5 alpha-pregnan-20-one from concentrations of progesterone which can occur naturally. In support of these findings, we demonstrate the presence of 3 alpha-hydroxysteroid oxidoreductase in neurointermediate lobe by immunocytochemistry.
Steroids 1998 Nov
PMID:Derivatization of progesterone to a neurally active steroid by pituitary neurointermediate lobe. 983 Jun 84


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