High sucrose diet does not impact spatial cognition in rats using advanced touchscreen technology.

INTRODUCTION: Western diets, including those consisting of saturated fats, simple sugars and processed foods, is rising at an unprecedented rate. These lead to obesity and metabolic diseases, and possibly cognitive deficits. Exploring this, recent studies demonstrate marked impairment in spatial learning in rodents exposed to high-sugar diets. We utilised advanced touchscreen technology to assess several spatial and non-spatial components of cognition in rats chronically exposed to a high sucrose diet. METHODS: Male Wistar rats received 70 ml of 10% sucrose solution each day, or control tap water, persisting for the experiment duration (total n = 32). After 5 weeks of diet, rats performed Pairwise Discrimination, Location Discrimination, or Progressive Ratio tasks on automated touchscreens, and performance compared between groups. RESULTS: Sucrose rats consumed all the sugar solution provided to them, and had significantly increased caloric intake, compared to controls (p < 0.0001). However, in all tests, we found no significant difference in cognitive performance between Sucrose and Control treated rats. This included the number of trials for acquisition, and reversal, in Pairwise Discrimination, and number of trials required to complete Location Discrimination (p > 0.05 for all outcomes). No differences were observed in perseverative behaviour, motivation levels, or processing speed. CONCLUSION: Our study found no evidence to suggest that chronic consumption of sucrose impairs cognition, including both spatial and non-spatial learning tasks. These findings suggest that not all aspects of spatial cognition are negatively impacted by high sugar diet in rodents, and that particular use of touchscreen technology may probe different aspects of cognition than traditional tasks.

New insights in the mode of action of (+)-erythravine and (+)-11α-hydroxy-erythravine alkaloids.

Erythrinian alkaloids ((+)-erythravine and (+)-11-α-hydroxy-erythravine) have been pointed as the main responsible agents for the anticonvulsant and anxiolytic properties of Erythrina mulungu Mart ex Benth. The present work provides a new set of information about the mode of action of these alkaloids by the use of a complementary approach of neurochemical and electrophysiological assays. We propose here that the antiepileptic and anxiolytic properties exhibited by both alkaloids appear not to be related to the inhibition of glutamate binding or GABA uptake, or even to the increase of glutamate uptake or GABA binding, as investigated here by the use of rat cortical synaptosomes. Similarly, and even in a high concentration, (+)-erythravine and (+)-11-α-hydroxy-erythravine did not modulate the main sodium and potassium channel isoforms checked by the use of voltage-clamp studies on Xenopus laevis oocytes. However, unlike (+)-11-α-hydroxy-erythravine, which presented a little effect, it was possible to observe that the (+)-erythravine alkaloid produced a significant inhibitory modulation on α4ß2, α4ß4 and α7 isoforms of nicotinic acetylcholine receptors also checked by the use of voltage-clamp studies, which could explain at least partially its anxiolytic and anticonvulsant properties. Since (+)-11-α-hydroxy-erythravine and (+)-erythravine modulated nicotinic acetylcholine receptors to different extents, it is possible to reinforce that small differences between the chemical structure of these alkaloids can affect the selectivity and affinity of target-ligand interactions, conferring distinct potency and/or pharmacological properties to them, as previously suggested by differential experimental comparison between different erythrinian alkaloids.

Anxiolytic-like effect of a novel peptide isolated from the venom of the social wasp Synoeca surinama.

Pathological anxiety is among the most common psychiatric illnesses, but current treatment is highly limited. In this study, we investigated the potential anxiolytic-like effects of a peptide isolated from Synoeca surinama venom. Rats treated with this peptide spent more time exploring the open arms of elevated plus maze, which indicates an anxiolytic-like profile for this peptide. This study is the first to show the pharmacological use of S. surinama venom in the treatment of anxiety.