Cognitive dysfunction and anxiety resulting from synaptic downscaling, hippocampal atrophy and ventricular enlargement with intracerebroventricular streptozotocin injection in male Wistar rats

Abstract

AbstractInsulin-resistant brain state is proposed to be the early sign of Alzheimer’s disease(AD), which can be studied in intracerebroventricular streptozotocin (ICV-STZ) rodent model. ICV-STZ is reported to induce sporadic AD with the majority of the disease hallmarks as phenotype. On the other hand, Available experimental evidence has used varying doses of STZ (<1 to 3mg/kg) and studied its effect for different study durations, ranging from 14-270 days. Though these studies suggest 3mg/kg of ICV-STZ to be the optimum dose for progressive pathogenesis, the reason for such is elusive.Here we sought to investigate the mechanism of action of 3mg/kg ICV-STZ on cognitive and non-cognitive aspects at a follow-up interval of two weeks for two months. On 60th day, we examined layer thickness, cell density, ventricular volume, spine density, protein expression related to brain metabolism and mitochondrial function by histological examination. Findings suggest progressive loss of spatial, episodic, avoidance memory with increase in anxiety in a span of two month. Furthermore, hippocampal neurodegeneration, ventricular enlargement, diffused amyloid plaque deposition, loss of spine in dentate gyrus and imbalance in energy homeostasis was found on 60th day post injection. Interestingly, AD rats showed a uniform fraction of time spent in four quadrants of water maze with change in strategy when they were exposed to height. Our findings reveal that ICV-STZ injection at a dose of 3mg/kg can cause cognitive and neuropsychiatric abnormalities due to structural loss both at neuronal as well as synaptic level, which is tightly associated with change in neuronal metabolism.