Current opinion in pharmacology
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N-methyl-D-aspartate receptors (NMDARs) are glutamate-gated ion channels widely expressed in the central nervous system that play key roles in excitatory synaptic transmission. Because of their involvement in numerous neurological disorders, NMDARs are also targets of therapeutic interest. NMDARs occur as multiple subtypes which differ in their subunit composition and in their biophysical and pharmacological properties. ⋯ These include the binding sites for glutamate, the ion-channel pore and the recently identified allosteric sites on the N-terminal domain. Other potential sites yet unexplored by medicinal chemistry programs are also considered, in particular at the interface between subunits. Given the growing body of evidence that diverse brain disorders implicate different NMDAR subtypes, such as NR2B in pain or NR3A in white matter injury, there is a growing interest in exploiting the pharmacological heterogeneity of NMDARs for the development of novel NMDAR subtype-selective compounds.
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Curr Opin Pharmacol · Aug 2006
ReviewLipoxins and new lipid mediators in the resolution of inflammation.
Lipoxins and aspirin-triggered lipoxins are lipid mediators generated from arachidonic acid that act to reduce inflammation and promote resolution. In addition, two new families of lipid mediators were uncovered, namely resolvins (resolution phase interaction products) and protectins, which derive from omega-3 polyunsaturated fatty acid. They possess potent anti-inflammatory, neuroprotective and pro-resolving properties. ⋯ Aspirin impinges on these systems, triggering formation of the epimeric 17R-series RvDs--denoted as 'aspirin-triggered-RvDs'--which possess bioactivity in vivo equivalent to that evoked by their 17S-series counterparts (i.e. RvDs). These bioactive molecules open new avenues and approaches to therapeutic interventions via accelerated resolution of inflammation.
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The renin-angiotensin system (RAS) plays a key role in maintaining blood pressure homeostasis, as well as fluid and salt balance. Angiotensin II, a key effector peptide of the system, causes vasoconstriction and exerts multiple biological functions. Angiotensin-converting enzyme (ACE) plays a central role in generating angiotensin II from angiotensin I, and capillary blood vessels in the lung are one of the major sites of ACE expression and angiotensin II production in the human body. ⋯ In the lung, ACE2 protects against acute lung injury in several animal models of ARDS. Thus, the RAS appears to play a critical role in the pathogenesis of acute lung injury. Indeed, increasing ACE2 activity might be a novel approach for the treatment of acute lung failure in several diseases.
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Curr Opin Pharmacol · Feb 2006
ReviewGlutamate-based therapeutic approaches: NR2B receptor antagonists.
Over the past decade, there have been major advances in our understanding of the role of glutamate and N-methyl-d-aspartate (NMDA) receptors in several disorders of the central nervous system, including stroke, Parkinson's disease, Huntington's disease and chronic/neuropathic pain. In particular, NR2B subunit-containing NMDA receptors have been the focus of intense study from both a physiological and a pharmacological perspective, with several pharmaceutical companies developing NR2B subtype-selective antagonists for several glutamate-mediated diseases. ⋯ Anatomical, biochemical and pharmacological studies over the past five years have greatly added to our understanding of the role of NR2B subunit-containing NMDA receptors in chronic and neuropathic pain states, and have shown that NR2B-mediated analgesic effects might be supra- rather than intra-spinally mediated, and that phosphorylation of the NR2B subunit could be responsible for the initiation and maintenance of the central sensitization seen in neuropathic pain states. These data will hopefully provide the impetus for development of novel compounds that use multiple approaches to modulate the activity of NR2B subunit-containing NMDA receptors, thus bringing to fruition the promise of therapeutic efficacy utilizing this approach.
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Memantine is a clinically useful drug in many neurological disorders, including Alzheimer's disease. The principal mechanism of action of memantine is believed to be the blockade of current flow through channels of N-methyl-d-aspartate (NMDA) receptors--a glutamate receptor subfamily broadly involved in brain function. ⋯ These potentially important differences between memantine and ketamine include effects on gating of blocked channels and binding of memantine to two sites on NMDA receptors. Because modulation of NMDA receptor activity can increase or decrease excitability of neuronal circuits, subtle differences in the mechanisms of action of NMDA receptor antagonists can strongly impact on their clinical effects.