Journal of Alzheimer's Disease - Volume 6, issue s6

Authors: Lipton, Stuart A.

Article Type: Research Article

Abstract: Alzheimer's disease (AD) is the most common form of dementia, as least in western countries. It has been estimated that the cost to society for caring for AD patients will consume the entire gross national product of the U.S.A. by the middle of this century if left unabated. Until recently, the only available drugs for this condition were cholinergic treatments, which symptomatically enhance cognitive state to some degree, but they were not neuroprotective. In fact, many potential neuroprotective drugs tested in clinical trials failed because they were poorly tolerated. However, after our discovery of its clinically-tolerated mechanism of action, one …neuroprotective drug, memantine, was recently approved by the European Union and the U.S. Food and Drug Administration (FDA) for the treatment of Alzheimer's disease. Recent phase 3 clinical trials have shown that memantine is effective in the treatment of moderate-to-severe Alzheimer's disease and possibly vascular dementia (multi-infarct dementia). Here we review the molecular mechanism of memantine's action and also the basis for the drug's use in these neurological diseases, which are mediated at least in part by excitotoxicity. Excitotoxicity is defined as excessive exposure to the neurotransmitter glutamate or overstimulation of its membrane receptors, leading to neuronal injury or death. Excitotoxic neuronal cell death is mediated in part by overactivation of N-methyl-d-aspartate (NMDA)-type glutamate receptors, which results in excessive Ca2+ influx through the receptor's associated ion channel. Physiological NMDA receptor activity, however, is also essential for normal neuronal function. This means that potential neuroprotective agents that block virtually all NMDA receptor activity will very likely have unacceptable clinical side effects. For this reason many previous NMDA receptor antagonists have disappointingly failed advanced clinical trials for a number of neurodegenerative disorders. In contrast, studies in our laboratory have shown that the adamantane derivative, memantine, preferentially blocks excessive NMDA receptor activity without disrupting normal activity. Memantine does this through its action as an uncompetitive, low-affinity, open-channel blocker; it enters the receptor-associated ion channel preferentially when it is excessively open, and, most importantly, its off-rate is relatively fast so that it does not substantially accumulate in the channel to interfere with normal synaptic transmission. Clinical use has corroborated the prediction that memantine is thus well tolerated. Besides Alzheimer's disease, memantine is currently in trials for additional neurological disorders, including other forms of dementia, depression, glaucoma, and severe neuropathic pain. A series of second-generation memantine derivatives are currently in development and may prove to have even greater neuroprotective properties than memantine. These second-generation drugs take advantage of the fact that the NMDA receptor has other modulatory sites in addition to its ion channel that potentially could also be used for safe but effective clinical intervention. Show more

DOI: 10.3233/JAD-2004-6S610

Citation: Journal of Alzheimer's Disease, vol. 6, no. s6, pp. S61-S74, 2004

Authors: Thatcher, Gregory R.J. | Bennett, Brian M. | Dringenberg, Hans. C. | Reynolds, James N.

Article Type: Research Article

Abstract: GT 1061 is a novel therapeutic agent that is in Phase 1 clinical studies for Alzheimer's disease. GT 1061 is one of a family of novel nitrates that have demonstrated neuroprotective properties and cognition- and memory-enhancing properties in animal models. The prototype of this family, GT 715, has been reported effectively to dissociate the neuromodulatory and the systemic hypotensive effects of nitrates, the latter seriously limiting the therapeutic use of classical nitrates. Further data on the novel nitrates, GT 715 and GT 061, are presented in (a) the malonate-lesion rat model of excitotoxic neurodegeneration, and (b) the reversal of a …scopolamine-induced cognition deficit in the Morris water task which tests spatial memory. These data exemplify and reinforce the combined neuroprotective and cognition enhancing properties observed in this family of NO mimetic therapeutic agents. NO mimetics, that mimic the biological activity of NO, will bypass cholinergic receptor activation and are anticipated to provide multiple pathways of treating and circumventing dementia. NO mimetic activation of soluble guanylyl cyclase and cGMP formation in the brain represents one element of an effective neuroprotective strategy. Substantial evidence suggests that NO mimetics may display cGMP-dependent and cGMP-independent activity and may operate via multiple biochemical signaling pathways, both to ensure the survival of neurons subjected to stress and also to provide cognition-enabling pathways to circumvent dementia, providing a combined neuroprotective and cognition-enabling approach to anti-neurodegenerative therapy. Show more

Keywords: cognition, dementia, nitric oxide, cGMP, nitrate, Alzheimer's, neurodegeneration

DOI: 10.3233/JAD-2004-6S614

Citation: Journal of Alzheimer's Disease, vol. 6, no. s6, pp. S75-S84, 2004

Authors: Buccafusco, Jerry J. | Beach, J. Warren | Terry, Jr., Alvin V. | Doad, Gurbir S. | Sood, Ajay | Arias, Esperanza | Misawa, Hidemi | Masai, Manabu | Fujii, Takeshi | Kawashima, Koichiro

Article Type: Research Article

Abstract: The ability of choline to serve as a full, though low potency agonist for the α7 nicotinic receptor has provided the impetus to develop analogs that exhibit levels of potency and effectiveness suitable for use as therapeutic agents. Seven analogs of choline were synthesized based on previous work with the analog pyrrolidinecholine. The drugs were administered to differentiated PC-12 cells 24 hr prior to growth factor withdrawal which itself induced cytotoxicity in 30–40% of the cells. Three of 7 choline analogs exhibited potency and efficacy similar to that for nicotine as cytoprotective agents. Despite being tertiary amines, 4 of the …choline analogs were more potent than choline in inhibiting [3 H]choline uptake into cultured fibroblasts transfected with the high affinity, sodium-dependent choline transporter. One of the most effective analogs JAY 2-21-29 was shown to produce a potent (EC50 ∼ 30 nM) cytoprotective action that was blocked by pretreatment with the α7 nicotinic receptor selective antagonist methyllycaconitine, but not by theα2 subtype-preferring antagonist dihydro-β-erythroidin. These preliminary studies support the further neurochemical characterization of these compounds 1) as selectiveα7 nicotinic receptor agonists and, 2) based on their interaction with the choline transporter, as potential cholinergic false neurotransmitters as has been demonstrated for pyrrolidinecholine. Show more

Keywords: nicotinic receptor, choline analog, choline uptake, cytoprotection, PC-12 cells, structure-activity

DOI: 10.3233/JAD-2004-6S612

Citation: Journal of Alzheimer's Disease, vol. 6, no. s6, pp. S85-S92, 2004

Authors: Faden, Alan I. | Knoblach, Susan M. | Movsesyan, Vilen A. | Cernak, Ibolja

Article Type: Research Article

Abstract: The tripeptide thyrotropin-releasing hormone (TRH) and/or related analogues have shown neuroprotective activity across multiple animal trauma models as well as in a small clinical trial of spinal cord injury. The metabolic product of TRH (cyclo-his-pro) retains physiological activity. We have developed a number of novel cyclic dipeptides that are structurally similar to cyclo-his-pro, and have examined their neuroprotective activity across multiple in vitro models of neuronal injury and after traumatic brain injury (TBI) in rodents. Four such compounds were found to reduce cell death after trophic withdrawal or traumatic injury in primary neuronal cultures; two also protected against glutamate or …β-amyloid neurotoxicity. All compounds significantly improved motor and cognitive recovery after controlled cortical impact injury in mice, and markedly reduced lesion volumes as shown by high field magnetic resonance imaging. Further, compound 35b, which is being developed for clinical trials, also showed considerable neuroprotection after fluid percussion induced TBI in rats, and improved cognitive function after daily administration in chronically brain injured rats. At a mechanistic level, the drugs attenuate both apoptotic and necrotic cell death in primary neuronal cultures, markedly reduce intracellular calcium accumulation after injury, and limit changes in mitochondrial membrane potential and associated cytochrome c release. In addition, microarray studies show that 35b reduces transcriptional changes after injury for a number of genes (and proteins) that may be associated with secondary injury, including cell cycle genes, aquaporins and cathepsins. It also upregulates brain-derived neurotrophic factor (BDNF), heat shock proteins (HSP) and hypoxia inducible factor (HIF). Thus, these novel dipeptides have multipotential actions that make them candidates for the treatment of both acute and chronic neurodegeneration. Show more

DOI: 10.3233/JAD-2004-6S603

Citation: Journal of Alzheimer's Disease, vol. 6, no. s6, pp. S93-S97, 2004