Brain MRI was obtained in stroke- and dementia-free survivors of both generations 1 (n = 186) and 2 (n = 1,867) during 1999-2005. Baseline IGF-1 was related to risk of incident dementia using Cox models and to total brain and hippocampal volumes using linear regression in multivariable models adjusted for age, sex, APOE epsilon 4, plasma homocysteine, waist-hip ratio, and physical activity.Results:Mean IGF-1 levels were 144 +/- 60 g/L in generation 1 and 114 +/- 37 g/L in generation 2. We observed 279 cases of incident dementia (230 AD dementia) over a mean follow-up of 7.4 +/- 3.1 years. Persons with IGF-1 in the
lowest quartile had a 51% greater risk of AD dementia (hazard ratio = 1.51, 95% confidence interval:
1.14-2.00; p = 0.004). Among persons without dementia, higher IGF-1 levels were associated with greater total brain volumes (/SD increment in IGF-1 was 0.55 +/- 0.24, Stem Cell Compound Library price p = 0.025; and 0.26 +/- 0.06, p smaller than 0.001, for generations 1 and 2, respectively).Conclusion:Lower serum levels of IGF-1 are associated with an increased risk of HSP990 purchase developing AD dementia and higher levels with greater brain volumes even among middle-aged community-dwelling participants free of stroke and dementia. Higher levels of IGF-1 may protect against subclinical and clinical neurodegeneration.”
“In morphine tolerance a key question that remains to be answered is whether mu-opioid receptor (MOPr) desensitization contributes to morphine tolerance, Volasertib and if so by what cellular mechanisms. Here we demonstrate that MOPr desensitization can be observed in single rat brainstem locus coeruleus (LC) neurons following either prolonged (> 4 h) exposure to morphine in vitro or following treatment of animals with morphine in vivo for 3 days. Analysis of receptor function by an operational model indicated that with either treatment morphine could induce a profound degree (70-80%)
of loss of receptor function. Ongoing PKC activity in the MOPr-expressing neurons themselves, primarily by PKC alpha, was required to maintain morphine-induced MOPr desensitization, because exposure to PKC inhibitors for only the last 30-50 min of exposure to morphine reduced the MOPr desensitization that was induced both in vitro and in vivo. The presence of morphine was also required for maintenance of desensitization, as washout of morphine for > 2 h reversed MOPr desensitization. MOPr desensitization was homologous, as there was no change in alpha(2)-adrenoceptor or ORL1 receptor function. These results demonstrate that prolonged morphine treatment induces extensive homologous desensitization of MOPrs in mature neurons, that this desensitization has a significant PKC-dependent component and that this desensitization underlies the maintenance of morphine tolerance.