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- Author: J Svensson x
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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Department of Neuroscience, Karolinska Institute, Stockholm, Sweden
Department of Pharmacology, Göteborg University, Göteborg, Sweden
Department of Psychology, Göteborg University, Göteborg, Sweden
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IGF-I is a neuroprotective hormone, and neurodegenerative disorders, including Alzheimer’s disease, have been associated with decreased serum IGF-I concentration. In this study, IGF-I production was inactivated in the liver of adult mice (LI-IGF-I−/−), resulting in an approximately 80–85% reduction of circulating IGF-I concentrations. In young (6-month-old) mice there was no difference between the LI-IGF-I−/− and the control mice in spatial learning and memory as measured using the Morris water maze test. In old (aged 15 and 18 months) LI-IGF-I−/− mice, however, the acquisition of the spatial task was slower than in the controls. Furthermore, impaired spatial working as well as reference memory was observed in the old LI-IGF−/− mice. Histochemical analyses revealed an increase in dynorphin and enkephalin immunoreactivities but decreased mRNA levels in the hippocampus of old LI-IGF-I−/− mice. These mice also displayed astrocytosis and increased metabotropic glutamate receptor 7a-immunoreactivity. These neurochemical disturbances suggest synaptic dysfunction and early neurodegeneration in old LI-IGF-I−/− mice. The decline in serum IGF-I with increasing age may therefore be important for the age-related decline in memory function.
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Growth hormone (GH) is of importance for normal bone remodelling. A recent clinical study demonstrated that MK-677, a member of a class of GH secretagogues (GHSs), increases serum concentrations of biochemical markers of bone formation and bone resorption. The aim of the present study was to investigate whether the GHSs, ipamorelin (IPA) and GH-releasing peptide-6 (GHRP-6), increase bone mineral content (BMC) in young adult female rats. Thirteen-week-old female Sprague-Dawley rats were given IPA (0.5 mg/kg per day; n=7), GHRP-6 (0.5 mg/kg per day; n=8), GH (3.5 mg/kg per day; n=7), or vehicle administered continuously s.c. via osmotic minipumps for 12 weeks. The animals were followed in vivo by dual X-ray absorptiometry (DXA) measurements every 4th week. After the animals were killed, femurs were analysed in vitro by mid-diaphyseal peripheral quantitative computed tomography (pQCT) scans. After this, excised femurs and vertebrae L6 were analysed by the use of Archimedes' principle and by determinations of ash weights. All treatments increased body weight and total tibial and vertebral BMC measured by DXA in vivo compared with vehicle-treated controls. However, total BMC corrected for the increase in body weight (total BMC:body weight ratio) was unaffected. Tibial area bone mineral density (BMD, BMC/area) was increased, but total and vertebral area BMDs were unchanged. The pQCT measurements in vitro revealed that the increase in the cortical BMC was due to an increased cross-sectional bone area, whereas the cortical volumetric BMD was unchanged. Femur and vertebra L6 volumes were increased but no effect was seen on the volumetric BMDs as measured by Archimedes' principle. Ash weight was increased by all treatments, but the mineral concentration was unchanged. We conclude that treatment of adult female rats with the GHSs ipamorelin and GHRP-6 increases BMC as measured by DXA in vivo. The results of in vitro measurements using pQCT and Archimedes' principle, in addition to ash weight determinations, show that the increases in cortical and total BMC were due to an increased growth of the bones with increased bone dimensions, whereas the volumetric BMD was unchanged.