N. N. Lermontova scite author profile

Dimebon, launched earlier in Russia as an antihistamine drug, was evaluated as a representative of a new generation of anti‐Alzheimer's drugs that have two beneficial actions: (1) to alleviate symptoms, and (2) to prevent progression of the disease. The drug demonstrated cognition and memory‐enhancing properties in the active avoidance test in rats treated with the neurotoxin AF64A, which selectively destroys cholinergic neurons. Dimebon protected neurons in the cerebellum cell culture against the neurotoxic action of β‐amyloid fragment (Aβ25−35, EC50= 25 μM). In vitro, Dimebon displayed Ca2+‐blocking properties (IC50= 57 μM, on isolated rat ileum intestine) and pronounced anticholinesterase activity (IC50= 7.9 μM and 42 μM for butyrylcholine esterase and acetylcholine esterase, respectively). It also exhibited strong anti‐NMDA activity in the prevention of NMDA‐induced seizures in mice (EC50= 42 ± 6 mg/kg i.p.). A beneficial effect of Dimebon in the therapy of Alzheimer's disease was demonstrated in a pilot clinical trial performed in the Moscow Center of Gerontology. Fourteen patients who participated in the trial were evaluated for their state of personality and for the severity of the disease. The evaluation included orientation (space, place, time, and patient personality), memory for the past and present, life in present, speech, irritability, and so forth. During and after the eight‐week therapy with Dimebon, cognitive and self‐service functions of patients improved significantly, and psychopathic symptoms, anxiety, depression, tearfulness, and headache were substantially diminished. The results of these studies suggest Dimebon as a new candidate for the therapy of Alzheimer's‐like disorders.

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Dimebon improves learning in animals with experimental Alzheimer's disease

Lermontova

Lukoyanov

Serkova

et al. 2000

Bull Exp Biol Med

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Lermontova

Redkozubov

Shevtsova

et al. 2001

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Dimebon, a Russian-made drug, inhibited toxic effects of beta -amyloid on cultured neurons. Excessive accumulation of beta-amyloid in the brain is characteristic of Alzheimer dementias. Antialzheimer preparations tacrine and dimebon improve survival of cerebellar granule cells during long-term incubation with Abeta25-35, the neurotoxic fragment of beta-amyloid. Both preparations can block potential-dependent Ca(2+) entry into neurons by about 20%, which is explained by their selective action on L-type Ca(2+) channels. It was assumed that the neuroprotective effect of dimebon and tacrine against Abeta25-35 partially depends on inhibition of potential-dependent Ca(2+) entry.

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N‐Acetylserotonin, Melatonin and Their Derivatives Improve Cognition and Protect against β‐Amyloid‐Induced Neurotoxicity

Бачурин

Oxenkrug

Lermontova

et al. 1999

Annals of the New York Academy of Sciences

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After a single injection of cholinergic neurotoxin ethylcholine aziridinium (AF64A, 3 nmol intracerebroventricularly (i.c.v.)), rats failed to perform the tasks in the active avoidance (learning and retention paradigms) and water maze tests. N-Acetylserotonin (NAS), melatonin and their newly synthesized derivatives, CA-15 and CA-18, (0.3-3.0 mg/kg daily for 12-14 days) reversed the effect of AF64A in a dose-dependent manner with CA-18 being the most active. Melatonin and NAS caused sedation absent in CA-18-treated rats. The studied compounds (25-500 microM for 72 hr) protected against beta-amyloid peptide (beta AP) fragment 25-35-induced neurotoxicity in cerebellar granule cell culture. Our results suggest that neuroprotecting properties of these compounds might mediate their cognition-enhancing effects. The results obtained warrant the further search for the novel types of safe neuroprotectors among the synthetic NAS/melatonin derivatives.

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Neuroprotective and Cognition‐Enhancing Properties of MK‐801 Flexible Analogs

Бачурин

Ткаченко

Baskin

et al. 2001

Annals of the New York Academy of Sciences

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Neuroprotective and biobehavioral properties of a series of novel open chain MK‐801 analogs, as well as their structure‐activity relationships have been investigated. Three groups of compounds were synthesized: monobenzylamino, benzhydrylamino, and dibenzylamino (DBA) analogs of MK‐801. It was revealed that DBA analogs exhibit pronounced glutamate‐induced calcium uptake blocking properties and anti‐NMDA activity. The hit compound of DBA series, NT‐1505, was investigated for its ability to improve cognition functions in animal model of Alzheimer's disease type dementia, simulated by treating animals with cholinotoxin AF64A. The results from an active avoidance test and a Morris water maze test showed that experimental animals, treated additionally with NT‐1505, exhibited much better learning ability and memory than the control group (AF64A treated) and close to that of the vehicle group of animals (treated with physiological solution). Study of NT‐1505 influence on locomotor activity revealed that it is characterized by a spectrum of behavioral activity radically different from that of MK‐801, and in contrast to the latter one does not produce any psychotomimetic side effects in the therapeutically significant dose interval. The computed docking of MK‐801 and its flexible analogs on the NMDA receptor elucidated the crucial role of the hydrogen bond formed between these compounds and the asparagine residue for magnesium binding in the NMDA receptor. It was suggested that strong hydrophobic interaction between MK‐801 and the hydrophobic pocket in the NMDA receptor‐channel complex determines much higher irreversibility of this adduct compared to the intermediates formed between this site and Mg ions or flexible DBA derivatives, which might explain the absence of PCP‐like side effects of the latter compounds.

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Effects of tacrine on deficits in active avoidance performance induced by AF64A in rats

Lermontova

Lukoyanov

Serkova

et al. 1998

Molecular and Chemical Neuropathology

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Effects of tacrine (1,2,3,4-tetrahydro-9-aminocridine) on memory deficits in rats treated with ethylcholine aziridinium ion (AF64A) were studied using active avoidance test in the two-way shuttle box. Neurotoxin AF64A injected at a dose of 6 nmol (i.c.v., bilaterally) causes nonspecific tissue damage in hippocampal fields CA2 and CA3. Two weeks after treatment with 6 nmol, AF64A active avoidance performance of toxin-treated rats was significantly deteriorated compared to vehicle-treated animals estimated in learning test (68 +/- 3.5 and 83 +/- 3.2% of correct responses, respectively; p < 0.01) and in retention test (53 +/- 5 and 76 +/- 3.6%, respectively; p < 0.01). Under these conditions, chronic treatment with tacrine at a daily dose of 1 mg/kg for 12-14 d reverses the effect of AF64A on the active avoidance performance both in learning (78 +/- 3.2%) and retention (72 +/- 4%) tests. It is supposed that behavioral effects of tacrine considerably depend on a severity of neurodegeneration in the hippocampus.

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Pyridine Derivatives: Structure-Activity Relationships Causing Parkinsonism-Like Symptoms

Бачурин

Ткаченко

Lermontova

1991

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Versatile computerized system for tracking and analysis of water maze tests

Mukhina

Bachurin

Lermontova

et al. 2001

Behavior Research Methods, Instruments, & Computers

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N. N. Lermontova

Antihistamine Agent Dimebon As a Novel Neuroprotector and a Cognition Enhancer

Dimebon improves learning in animals with experimental Alzheimer's disease

Untitled

N‐Acetylserotonin, Melatonin and Their Derivatives Improve Cognition and Protect against β‐Amyloid‐Induced Neurotoxicity

Neuroprotective and Cognition‐Enhancing Properties of MK‐801 Flexible Analogs

Effects of tacrine on deficits in active avoidance performance induced by AF64A in rats

Pyridine Derivatives: Structure-Activity Relationships Causing Parkinsonism-Like Symptoms

Versatile computerized system for tracking and analysis of water maze tests

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