Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.1.1.3 (HSD)
 3,464 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sex steroid hormones exert important influences on neuroendocrine and behavioural brain function. As neuroactive steroids they are able to modify neuronal excitability. Unbalanced synthesis may thus be implicated in pathophysiological conditions, such as epilepsy, migraine, depression and anxiety. In sex steroid metabolism, 17beta-hydroxisteroid dehydrogenases (17beta-HSDs) play a crucial role in catalyzing the final steps of androgen and estrogen biosynthesis. The hippocampus appears to be a major target area of neurosteroidal action. The expression of 17beta-HSD isozymes has not yet been studied in human hippocampus. Therefore, we investigated the expression of 17beta-HSD 1, 2, 3 and 4 mRNAs in hippocampal tissue specimens obtained at neurosurgery from 42 patients with pharmacoresistant temporal lobe epilepsy. A competitive RT-PCR assay was used to quantify the mRNA transcript level. 17beta-HSD 1 mRNA concentrations were 10000 fold lower in the hippocampus compared to placental tissue, whereas 17beta-HSD 3 mRNA concentrations were 50 fold lower than in testis and 17beta-HSD 4 concentrations were in the same order of magnitude as in liver. 17beta-HSD 2 mRNA was not expressed. 17beta-HSD 1, 3 and 4 mRNA concentrations in the hippocampus showed no significant differences between men and women and there were no significant differences in expression levels of these enzymes between patients with Ammon's horn sclerosis (AHS) and those with histopathologically normal hippocampus associated with extrahippocampal lesions. No significant correlation could be detected between duration of epilepsy, individual seizure frequency and expression levels of 17beta-HSDs. In conclusion, the present study is the first to demonstrate mRNA expression of 17beta-HSD 1, 3 and 4 in the epileptic human hippocampus. Together with data on 5alpha-reductase 1, 3alpha-hydroxisteroid oxidoreductase 2 and cytochrome P450scc, previously shown to be expressed in the human hippocampus also, our data provide further evidence for the existence of sex steroid formation and metabolism in this specific brain area.
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PMID:Expression of mRNAs encoding for 17beta-hydroxisteroid dehydrogenase isozymes 1, 2, 3 and 4 in epileptic human hippocampus. 1092 71

Several lines of evidence support involvement of the parasympathetic system in migraine: (i) migraine-associated symptoms, such as exaggerated facial flushing, lacrimation and rhinorrhea; (ii) increased levels of cranial venous vasoactive intestinal peptide in migraineurs during attacks; and (iii) reports of migraine pain alleviation by intranasal instillation of lidocaine, which can block some of the parasympathetic outflow to the cranium. This study assessed cranial parasympathetic function in migraineurs in between attacks, assuming that abnormal function might imply involvement of the parasympathetics in migraine pathogenesis. We tested 39 female migraineurs outside attacks, of whom 11 had bilateral pain, 20 unilateral at a specific side and eight alternating unilateral head pain, and 16 controls. The trigemino-parasympathetic reflex was studied, using soapy and saline eye drops for stimulation of the afferent limb of the reflex arch, and cutaneous vascular response at the forehead for the efferent limb. The latter was recorded by photoplethysmography on both sides of the forehead. We found no difference in vasodilatation between migraineurs as a group and controls (83.7 +/- 6.5% and 80.8 +/- 7.6%, respectively, not significant). However, when analysing data by the site of pain, we found that those with bilateral pain had the largest vasodilatation response (141.6 +/- 16.2%, P < 0.05 versus controls, analysis of varance, post hoc Tukey-Kramer HSD), while those with unilateral pain had the least vasodilatation (45.5 +/- 3.3%, P < 0.05). The response of patients with alternating pain (97.2 +/- 12.6%) did not differ from controls. It is concluded that cranial parasympathetic function does differ among patients with various migraine types at rest. Based on the understanding of dysfunctional brainstem pain modulation in migraine, we suggest a model of within-brainstem interaction between the two locus coeruleus nuclei, which are involved in control of pain and cranial parasympathetic outflow. The model assumes various levels of inhibitory inter-relationships between these two nuclei; diminution or absence of the normal reciprocal inhibitory relationships between them may underlie the augmented cranial parasympathetic response in bilateral migraineurs, while an excess of reciprocal inhibitory relationship between them may underlie the diminished cranial parasympathetic response in unilateral migraineurs. These findings might help in clarifying inter-relationships between brainstem nuclei in the context of migraine pathogenesis.
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PMID:Different patterns of parasympathetic activation in uni- and bilateral migraineurs. 1280 17