Abstract
Alzheimer’s disease (AD) degrades the brain’s ability to remember, think, and carry out tasks. The exact cause is not known, but several risk factors have been identified, including diabetes mellitus (DM). DM causes elevated blood sugar levels due to reduced insulin production in the pancreas. The linkage between elevated glucose levels and the behavioral impairments are not fully understood, which was the focus of this study. Rats were trained to alternate directions in a maze to receive a reward on consecutive trials. After training, five rats were injected with streptozotocin (STZ), which induces hyperglycemia by injuring pancreatic beta cells. Three control animals received benign vehicle injections. All eight rats then underwent implant surgery and received an implant with 128 recording probes attached to an electronic interface board. The recording electrodes targeted the hippocampus and the anterior cingulate cortex (ACC), which are both associated with learning and memory processes. We found that STZ rats had reduced accuracy after long delay periods compared to the control rats. During task performance, there was a decrease in the power of theta activity and an increase in delta activity moments before starting a new trial. This was the opposite of control animals, who before starting new trials had higher theta power and less delta power as they focused. These findings imply that the STZ rats were impaired on longer delay periods. These findings are like reports from animal models of AD and may help explain why DM is a risk factor for AD.
Highlights
The experimental and control groups remained at a constant weight for the first two weeks but differed in the amount of weight after 4 weeks of the vehicle injections, with the STZ group losing more weight compared to the control group (Figure 6b). These results show that elevated blood glucose levels have the capability to affect working memory during longer delay periods
The memory deficits that preceded the hyperglycemic state mirror conditions seen in Alzheimer’s disease (AD) animal models and AD patients (Stopford et al, 2012)
Even though the effects of hyperglycemia and working memory have been identified, much is still unknown about diabetes mellitus (DM) and AD
Summary
Author Affiliations 1School of Life Sciences, University of Nevada, Las Vegas, Las Vegas, NV, USA. Author Contributions DCB: Wrote and revised the manuscript. LAC: Collected data, analyzed the electrophysiological and behavioral data, and wrote and revised the manuscript. RAW: Collected data, analyzed the electrophysiological and behavioral data, and wrote and revised the manuscript. AAO: Collected data, analyzed the protein assays, and wrote and revised the manuscript. JWK: Analyzed the protein assays, designed the experiment and provided funding support, and wrote and revised the manuscript. JMH: Analyzed electrophysiological and behavioral data, designed the experiment and provided funding support, and wrote and revised the manuscript. Spectra Undergraduate Research Journal, 1(2), 36-46. https://doi.org/10.9741/2766-7227.1008
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