Objectives: This study seeks to characterize the progressive course of physiological and behavioural outcomes in rodents following excessive caloric intake through the chronic consumption of a highly palatable diet, the cafeteria (CAF) diet.
Methods: Male Sprague Dawley rats were maintained on either CAF or chow (CON) diets for 20 weeks. Metabolic and physiological parameters were monitored throughout the feeding period. From week 18, rats were subjected to behavioural testing, which included the Morris water maze (MWM) and novel object recognition (NOR) tasks.
Results: CAF rats consistently showed higher food intakes and consumed six times the energy of chow-fed rats, being significantly heavier by week 5. CAF rats further exhibited greater abdominal widths, fat pads, and larger fatty livers, as well as compromised glucose tolerance. Hyperinsulinemia and dyslipidaemia with elevated serum cholesterol and triglyceride levels and reduced HDL cholesterol were also evident along with a pro-inflammatory profile in the CAF rats. Cognitive decline in CAF rats manifested as a decline in long-term retention memory in the MWM. Further, CAF rats exhibited deficits in recognition memory as they spent less time exploring the novel object than chow-fed rats in the NOR task.
Discussion: This model of obesity is a robust paradigm for producing an obese animal phenotype that closely mimics the evolution of human obesity, complete with metabolic dysfunctions that are indicative of pre-diabetes. Additionally, chronic CAF-diet induced obesity promotes cognitive impairments in hippocampal-dependent reference and working memory.
Keywords: Biochemistry; Neuroscience; Physiology.