Differential effect of sulfonylureas on production of reactive oxygen species and apoptosis in cultured pancreatic β-cell line, MIN6

Studies have shown that modifying dietary cholesterol may improve learning and that serum cholesterol levels can be positively correlated with cognitive performance. Rabbits fed a 0, 0.5, 1 or 2% cholesterol diet for eight weeks and 0.12 ppm copper added to their drinking water received trace and then delay classical conditioning pairing tone with corneal air puff during which movement of the nictitating membrane (NM) across the eye was monitored. We found that the level of classical conditioning and conditioning-specific reflex modification (CRM) as well as the number of beta amyloid-labeled neurons in the cortex and hippocampus were a function of the concentration of cholesterol in the diet. The data provide support for the idea that dietary cholesterol may facilitate learning and memory.

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Dietary cholesterol impairs memory and memory increases brain cholesterol and sulfatide levels.

Darwish¹,

Wang²,

Konat³

et al. 2010

Behavioral Neuroscience

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Cholesterol and sulfatides play many important roles in learning and memory. To date, our observations about the effects of cholesterol on learning have been assessed during response acquisition i.e., the learning of a new memory. Here we report for the first time on the effect of a cholesterol diet on a previously formed memory. Rabbits were given trace conditioning of the nictitating membrane response for ten days, then fed a 2% cholesterol diet for eight weeks, and then assessed for memory recall of the initially learned task. We show that dietary cholesterol had an adverse effect on memory recall. Second, we investigated whether dietary cholesterol caused an increase in brain cholesterol and sulfatide levels in four major brain structures (hippocampus, frontal lobe, brainstem, and cerebellum) using a technique for analyzing myelin and myelin-free fractions separately. Although our data confirm previous findings that dietary cholesterol does not directly affect cholesterol and establish that it does not affect sulfatide levels in the brain, these levels did increase rather significantly in the hippocampus and frontal lobe as a function of learning and memory.

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Cholesterol enhances classical conditioning of the rabbit heart rate response

Schreurs

Smith-Bell

Darwish

et al. 2007

Behavioural Brain Research

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The cholesterol-fed rabbit is a model of atherosclerosis and has been proposed as an animal model of Alzheimer's disease. Feeding rabbits cholesterol has been shown to increase the number of beta amyloid immunoreactive neurons in the cortex. Addition of copper to the drinking water of cholesterol-fed rabbits can increase this number still further and may lead to plaque-like structures. Classical conditioning of the nictitating membrane response in cholesterol-fed rabbits is retarded in the presence of these plaque-like structures but may be facilitated in their absence. In a factorial design, rabbits fed 2% cholesterol or a normal diet (0% cholesterol) for 8 weeks with or without copper added to the drinking water were given trace classical conditioning using a tone and periorbital electrodermal stimulation to study the effects of cholesterol and copper on classical conditioning of heart rate and the nictitating membrane response. Cholesterol-fed rabbits showed significant facilitation of heart rate conditioning and conditioning-specific modification of heart rate relative to normal diet controls. Consistent with previous research, cholesterol had minimal effects on classical conditioning of the nictitating membrane response when periorbital electrodermal stimulation was used as the unconditioned stimulus. Immunohistochemical analysis showed a significant increase in the number of beta amyloid positive neurons in the cortex, hippocampus and amygdala of the cholesterol-fed rabbits. Supplementation of drinking water with copper increased the number of beta amyloid positive neurons in the cortex of cholesterol-fed rabbits but did not produce plaque-like structures or have a significant effect on heart rate conditioning. The data provide additional support for our finding that, in the absence of plaques, dietary cholesterol may facilitate learning and memory. Cholesterol enhances rabbit heart rate conditioningThe cholesterol-fed rabbit has been used as an animal model of atherosclerosis since 1913 when Anitchkow first demonstrated that a cholesterol diet induced vascular lesions (Bocan, 1998;Fan & Watanabe, 2000;Finking & Hanke, 1997;Moghadasian, 2002). More recently, the cholesterol-fed rabbit has been proposed as an animal model of Alzheimer's disease (Ghribi, Larsen, Schrag, & Herman, 2006;Sjogren, Mielke, Gustafson, Zandi, & Skoog, 2006 Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Sparks, 1997;Sparks, Martin, Gross, & Hunsaker III, 2000;Zatta, Zambenedetti, Stella, & Licastro, 2002). Based on the observation that patients with heart disease had beta amyloid st...

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Classical conditioning of the rabbit's nictitating membrane response is a function of the duration of dietary cholesterol

Schreurs¹,

Smith-Bell²,

Darwish³

et al. 2007

Nutritional Neuroscience

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Modifying dietary cholesterol may improve learning and memory but very high cholesterol can cause pathophysiology and death. Rabbits fed 2% cholesterol for 8, 10 or 12 weeks with 0.12 ppm copper added to distilled water and rabbits fed a normal diet without copper added to distilled water (0 weeks) were given a difficult trace classical conditioning task and an easy delay conditioning task pairing tone with corneal air puff. The majority of cholesterol-fed rabbits survived the deleterious effects of the diet but survival was an inverse function of the diet duration. Compared to controls, the level of classical conditioning and conditioning-specific reflex modification were an inverted "U"-shaped function of diet duration. Highest levels of responding occurred in rabbits on cholesterol for 10 weeks and trace conditioning was negatively correlated with the number of hippocampal beta-amyloid-positive neurons. Rabbits on the diet for 12 weeks responded at levels comparable to controls. The data provide support for the idea that dietary cholesterol may facilitate learning and memory but there is an eventual trade off with pathophysiological consequences of the diet.

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Analysis of long-term cognitive-enhancing effects of bryostatin-1 on the rabbit (Oryctolagus cuniculus) nictitating membrane response

Wang¹,

Darwish²,

Schreurs³

et al. 2008

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Previous work demonstrated that protein kinase C (PKC) is implicated in learning and memory. This study investigated whether: (i) PKC activated by bryostatin-1 (Bryo) just before or just after sessions of classical conditioning was capable of enhancing classical conditioning of the rabbit nictitating membrane response; (ii) improved behavioral performance matched the time course of PKC activation induced by Bryo; and (iii) vitamin E (Vit E) enhanced the efficacy of Bryo. Paired rabbits received daily trace conditioning with a tone conditioned stimulus and a corneal air puff unconditioned stimulus. Unpaired rabbits received the same stimuli but in an explicitly unpaired manner. After trace conditioning, all rabbits received daily delay conditioning, and then tone intensity testing. Rabbits pretreated with 10 microg/kg Bryo every other day before a relatively simple trace conditioning task showed more conditioned responses (CRs) during the first 10 trials of each trace conditioning session and a higher likelihood of a CR on the first trial of each trace conditioning session than rabbits pretreated with the vehicle control. Rabbits either posttreated daily with 10 microg/kg Bryo or pretreated with Vit E and subjected to a difficult trace conditioning task showed increased CRs relative to the vehicle control. Neither Bryo nor Vit E or their combination altered nonassociative responding or altered sensitivity to the conditioned stimulus or unconditioned stimulus. These findings demonstrate Bryo has long-term enhancing effects on classical conditioning of the rabbit nictitating membrane response.

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Deya S. Darwish

High dietary cholesterol facilitates classical conditioning of the rabbit's nictitating membrane response

Dietary cholesterol impairs memory and memory increases brain cholesterol and sulfatide levels.

Cholesterol enhances classical conditioning of the rabbit heart rate response

Classical conditioning of the rabbit's nictitating membrane response is a function of the duration of dietary cholesterol

Analysis of long-term cognitive-enhancing effects of bryostatin-1 on the rabbit (Oryctolagus cuniculus) nictitating membrane response

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