We demonstrate a significant association between longer CAG repeats in the hKCa3/KCNN3 calcium-activated potassium channel gene and schizophrenia in Israeli Ashkenazi Jews. We genotyped alleles from 84 Israeli Jewish patients with schizophrenia and from 102 matched controls. The overall allele frequency distribution is significantly different in patients vs controls (P = 0.00017, Wilcoxon Rank Sum test), with patients showing greater lengths of the CAG repeat. Northern blots reveal substantial levels of ෂ9 kb and ෂ13 kb hKCa3/KCNN3 transcripts in brain, striated muscle, spleen and lymph nodes. Within the brain, hKCa3/KCNN3 transcripts are most abundantly expressed in the substantia nigra, lesser amounts are detected in the basal ganglia, amygdala, hippocampus and subthalamic nuclei, while little is seen in the cerebral cortex, cerebellum and thalamus. In situ hybridization reveals abundant hKCa3/KCNN3 message localized within the substantia nigra and ventral tegmental area, and along the distributions of dopaminergic neurons from these regions into the nigrostriatal and mesolimbic pathways. FISH analysis shows that hKCa3/KCNN3 is located on chromosome 1q21.
The first-night effect (FNE) is the tendency for individuals to sleep worse than normal during their first night of polysomnographic sleep evaluation. FNE reflects the adaptive increase of alertness and perhaps the stress resulting from an unfamiliar sleeping environment. This effect is usually absent in patients with chronic schizophrenia. Melatonin (N-acetyl-5-methoxy-tryptamine), the hormone secreted by the pineal gland at night, has been found to improve sleep in elderly patients with insomnia and recently in patients with chronic schizophrenia. The authors used FNE as a marker to explore the neurobehavioral responses of patients with chronic schizophrenia to melatonin treatment. In a randomized, double-blind, crossover trial, 14 patients with chronic schizophrenia were administered melatonin (2 mg in a controlled-release formulation) or placebo for 3 weeks with a 1-week washout between treatment periods. Polysomnography was performed during the last two consecutive nights of each treatment period. The following significant FNEs were observed with melatonin treatment: (1) rapid eye movement sleep latency was longer; (2) sleep efficiency was lower; and (3) the duration of wakefulness during sleep was lower on the first night than on the second night. These effects were not found when the patients received a placebo. The FNE was manifested regardless of whether melatonin was administered before or after the placebo treatment period. For the first time, these results show that melatonin treatment exaggerates FNE in patients with chronic schizophrenia, thereby suggesting an improved ability of these patients to mobilize alertness in unfamiliar surroundings.
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