Apelin peptides have recently been identified to be the endogenous ligands for the G protein-coupled receptor APJ. However, little is known about the physiological roles of this ligand-receptor pairing. In the present study we investigated the pharmacology of several apelin analogues at the human recombinant APJ receptor using radioligand binding and functional assays. This has led to the identification of key residues in the apelin peptide required for functional potency and binding affinity through structure-activity studies. In particular, we have identified that replacement of leucine in position 5, or arginine in position 2 and 4 of the C-terminal apelin peptide, apelin-13, resulted in significant changes in pharmacology. We also investigated the detailed localization of pre-proapelin and APJ receptor mRNA in a wide range of human, rat and mouse tissues using quantitative RT-PCR, and carried out a detailed immunohistochemical study of the distribution of the APJ receptor in rat brain and spinal cord. Interestingly, the APJ receptor was not only co-localized in white matter with GFAP in the spinal cord, but was also clearly localized on neurones in the brain, suggesting that this receptor and its peptide may be involved in a wide range of biological process yet to be determined.
6-[(3-Cyclobutyl-2,3,4,5-tetrahydro-1H-3-benzazepin-7-yl)oxy]-N-methyl-3-pyridinecarboxamide hydrochloride (GSK189254) is a novel histamine H 3 receptor antagonist with high affinity for human (pK i ϭ 9.59 -9.90) and rat (pK i ϭ 8.51-9.17) H 3 receptors. GSK189254 is Ͼ10,000-fold selective for human H 3 receptors versus other targets tested, and it exhibited potent functional antagonism (pA 2 ϭ 9.06 versus agonist-induced changes in cAMP) and inverse agonism [pIC 50 Progressive decline in cognitive performance is a key characteristic of Alzheimer's disease (AD) and related dementias, and improving cognitive function in these diseases represents a complex challenge, given the involvement of numerous neurotransmitter systems and brain regions (CoreyBloom, 2002). Current therapies, such as cholinesterase inhibitors, provide only minimal benefit to a subset of patients and for a limited period, so a number of alternative Article, publication date, and citation information can be found at
The ability of four central cholinomimetics to reverse a scopolamine-induced spatial memory impairment or to improve visual recognition memory in primates was examined. Physostigmine (0.04-0.08 mg/kg IM) fully reversed the effects of scopolamine (0.03 mg/kg). Coadministration of pilocarpine (3.0-5.0 mg/kg) caused partial reversal of the scopolamine impairment after intermediate or long retention intervals (10 or 20 s). Treatment with arecoline (0.1-1.8 mg/kg) or nicotine (1.0-2.0 mg/kg) generally did not reverse the effects of scopolamine. A task in which memory could be taxed by increasing the number of visual stimuli presented appeared more sensitive to the effects of cholinomimetics on cognition than the scopolamine reversal model. In this paradigm treatment with physostigmine (0.001, 0.01 or 0.03 mg/kg) increased choice accuracy from about 55 to 70% correct. Arecoline improved performance at one dose only (0.1 mg/kg) which also induced marked adverse side-effects (salivation and tremor). Pilocarpine improved performance in the dose range 0.125-0.35 mg/kg, but not at higher doses which also induced marked salivation. Treatment with nicotine (0.001-2.0 mg/kg tended to improve performance but this did not reach statistical significance. The relevance of these findings for studies in man and for animal models of dementia is discussed.
The behavioral and neurochemical profile of GSK207040 supports the potential of histamine H3 receptor antagonism to treat the cognitive and sensory gating deficits of schizophrenia. However, the failure of GSK207040 to reverse amphetamine-induced locomotor hyperactivity suggests that the therapeutic utility of histamine H(3) receptor antagonism versus positive symptoms is less likely, at least following acute administration.
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