Liraglutide (Victoza®) is a once-daily glucagon-like peptide-1 (GLP-1) mimetic currently prescribed as a therapy for type-2 diabetes⁽Reference Knudsen¹⁾. Liraglutide mimics all of the glucoregulatory, insulin-releasing and extra-pancreatic actions of GLP-1, especially the glucose-dependent stimulation of insulin secretion⁽Reference Lovshin and Drucker²⁾. Recent studies have shown that Liraglutide crosses the blood-brain-barrier when administered peripherally⁽Reference McClean, Gault and Harriott³⁾ and GLP-1R deficient mice exhibit impaired memory and learning⁽Reference Abbas, Faivre and Holscher⁴⁾. Therefore, the present study examined the effects of daily treatment with Liraglutide on the cognitive function in an animal model of diet-induced obesity which exhibits compromised cognitive performance.

Young Swiss TO mice (6–8 weeks old; n 10 per group) maintained on high-fat diet (45% fat, 20% protein and 35% carbohydrate) for 20 weeks received twice-daily injections of Liraglutide (200 μg/kg bw; sc) or saline vehicle over 28 d. An additional group of mice on standard diet (10% fat, 30% protein, 60% carbohydrate) received twice-daily saline injections. Energy intake, bodyweight and plasma glucose and insulin concentrations were monitored at regular intervals. Glucose tolerance, open field assessment, object recognition testing and electrophysiological long-term potentiation (LTP) were performed at the termination of the study.

Treatment with Liraglutide significantly reduced bodyweight (1.1-fold; P<0.05) and energy intake (1.5-fold; P<0.01), while improving non-fasting glucose (50–230% reduction; P<0.01 to P<0.001), insulin (30–50% increase; P<0.05 to P<0.01) and normalising glucose tolerance (40–50% improvement; P<0.05) compared to high fat controls. During the object recognition trial, mice on high-fat diet demonstrated a significant decrease in recognition index (RI), whereas mice treated with Liraglutide exhibited a significant increase in RI (1.4-fold; P<0.05) indicative of enhanced memory and learning ability. Interestingly, the RI for Liraglutide-treated mice was broadly similar to that observed for healthy age-matched normal mice, highlighting a reversal in the cognitive decline following Liraglutide treatment in this model. In vivo hippocampal LTP was completely abolished following high-fat diet. However, daily treatment with Liraglutide ameliorated (P<0.001 to P<0.0001) the detrimental effects of high-fat diet on LTP formation and maintenance.

In conclusion, this study demonstrates that prolonged GLP-1R activation with Liraglutide exhibits beneficial effects on the cognitive function and hippocampal synaptic plasticity in a mouse model of high-fat diet-induced obesity. Given the increasing awareness of a negative impact of obesity-diabetes on brain function, possible protective effects of GLP-1 mimetics on cognitive parameters need to be assessed in the rising numbers of obese type-2 diabetes patients taking incretin therapeutics.