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The human small conductance calcium-regulated potassium channel gene (hSKCa3) contains two CAG repeats in exon 1, is on chromosome 1q21.3, and shows a possible association with schizophrenia (1998)

Wittekindt, Oliver ; Jauch, Anna ; Burgert, Edgar ; [et al.]

Springer

Neurogenetics 1 (1998), S. 259-265

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ISSN: 1364-6753

Keywords: Key words Potassium channel gene ; CAG repeat ; Human chromosome 1q21.3 ; Schizophrenia ; Bipolar disorder

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: ABSTRACT Mutations in various ion channel genes are responsible for neuromuscular and other neurological disorders. We have previously identified the human small conductance calcium-activated potassium channel gene ( hSKCa3 ) which has two tandemly arranged CAG repeats in its 5' region. Here we have isolated the first genomic clones containing the gene and have shown that both repeats are in exon 1 . Homology to the previously localized sequence tagged site G16005 indicated that the gene may be on chromosome 22q, however using polymerase chain reaction amplification of somatic cell hybrid DNA and fluorescence in situ hybridization of two P1 artificial chromosome clones, we physically localized the gene to chromosome 1q21.3. We previously found an association between the highly polymorphic second (more 3′) CAG repeat and schizophrenia in 98 patients and 117 controls. We have now genotyped an additional 19 patients with schizophrenia and have performed statistical analyses on the entire group of patients and controls to investigate the possible effect of age of onset, family history, and gender of the patients on the observed association. None of these factors were found to influence the results. Both CAG repeats have been typed in 86 bipolar I disorder patients, and no significant difference in allele distribution was observed between our bipolar disorder patients and controls.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100480050038

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Antiglucocorticoid treatment disrupts endocrine cycle and nocturnal sleep pattern (1992)

Wiedemann, Klaus ; Lauer, Christoph ; Loycke, Albrecht ; [et al.]

Springer

European archives of psychiatry and clinical neuroscience 241 (1992), S. 372-375

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ISSN: 1433-8491

Keywords: Mifepriston ; RU 486 ; Cortisol ; ACTH ; sleep ; antiglucocorticoids

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Mifepriston (RU 486) is a steroid antagonist which binds with high affinity to glucocorticoid receptors (GR), and also to progesterone receptors. The antiglucocorticoid action of Mifepriston in man has been demonstrated by blockade of the negative feedback action of endogenous cortisol and by antagonism of the effects of exogenously aministered dexamethasone. In the present study Mifepriston was administered to a normal male volunteer at 14.00 h and its effects on pituitary-adrenal activity and nocturnal sleep pattern were recorded. Mifepriston caused a large rise in plasma ACTH levels during the morning hours in comparison to untreated male control subjects. Plasma ACTH levels in the Mifepriston treated subject at 7.00 h were threefold greater than in the control subjects (104.4 pg/ml vs. 37.6±13.9 pg/ml; $$\bar x$$ ±SD). Subsequently the cortisol secretion was enhanced and the rise was advanced by about 60 minutes compared to controls. The main effects of Mifepriston on EEG sleep pattern were a dramatic disruption of sleep quality with a prolonged sleep onset latency, increased nocturnal awakenings and a considerable reduction of both slow wave sleep (SWS) and REM sleep. After Mifepriston, SWS was reduced by about 80% in comparison to placebo, and REM sleep was reduced by more than 50%. While the present data were collected from only a single subject the effects observed were so pronounced that tentative conclusions seem to be justified: The well-established pharmacological properties of Mifepriston as a glucocorticoid antagonist are reflected by its action on sleep physiology since it influences sleep in a direction opposite to that produced by cortisol. This observation further substantiates the view that changes in SWS and REM sleep may be mediated by GR effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02191963

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