To assess whether amyloid plaque accumulation in the monkey brain can account for age-related cognitive impairment that begins at about 20 years of age, we measured plaque content in the brains of 14 rhesus monkeys aged 5-30 years. We used immunohistochemistry employing the monoclonal antibody 6E10, which is specific to amino acids 1-17 of the amyloid beta peptide to identify amyloid plaques in serial coronal sections of the forebrain. Amyloid plaques accumulate with age, starting at 25 years of age and escalating after 30 years. Until the age of 30, plaques are only found in a few monkeys and are relatively sparse. Results from our group and others show that plaque content and the proportion of individuals afflicted with amyloid plaques increase with age. Although both cognitive dysfunction and plaque content increase with age, amyloid plaque content does not correlate with the cognitive dysfunction observed in elderly monkeys since even in very old subjects some cognitively impaired animals have few amyloid plaques and others with abundant plaques show only minor cognitive impairments. In summary, amyloid plaques appear to accumulate significantly only in monkeys over 25 years of age but do not appear to be a causal factor in age-related cognitive decline of the normal aging rhesus monkey.
The identification of highly potent and orally bioavailable GPR39 agonists is reported. Compound 1, found in a phenotypic screening campaign, was transformed into compound 2 with good activity on both the rat and human GPR39 receptor. This compound was further optimized to improve ligand efficiency and pharmacokinetic properties to yield GPR39 agonists for the potential oral treatment of type 2 diabetes. Thus, compound 3 is the first potent GPR39 agonist (EC 50 s ≤ 1 nM for human and rat receptor) that is orally bioavailable in mice and robustly induced acute GLP-1 levels.
Phosphodiesterases (PDEs) are a family of enzymes that hydrolyze cyclic nucleotides to render them biologically inactive. As such, these enzymes are critical regulators of signal transduction pathways that use cyclic nucleotides as second messengers. PDE4 is one such member that has been identified in ovarian tissue and purported to have a role in the regulation of gonadotropin action. In the present study, selective PDE4 inhibitors enhanced intracellular signaling in a human LH receptor-expressing granulosa cell line. In vivo, PDE4 inhibition in FSH-primed rats resulted in ovulation, indicating that the PDE4 inhibitors can substitute for LH and human chorionic gonadotropin (hCG) in this process. Moreover, when coadministered with a subeffective dose of hCG, PDE4 inhibitors acted synergistically to enhance the ovulation response. Inhibitors of PDE3 or PDE5 had no ovulatory effect under similar conditions. Oocytes that were ovulated after PDE4 inhibition could be fertilized in vitro at a rate similar to that of oocytes from hCG-induced ovulation. Moreover, such oocytes were fully capable of being fertilized in vivo and developing into normal live pups. These results indicate that small molecule PDE4 inhibitors may be orally active alternatives to hCG as part of a fertility treatment regimen.
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