Alfonso López Díaz scite author profile

A high calorie intake can induce the appearance of the metabolic syndrome (MS), which is a serious public health problem because it affects glucose levels and triglycerides in the blood. Recently, it has been suggested that MS can cause complications in the brain, since chronic hyperglycemia and insulin resistance are risk factors for triggering neuronal death by inducing a state of oxidative stress and inflammatory response that affect cognitive processes. This process, however, is not clear. In this study, we evaluated the effect of the consumption of a high-calorie diet (HCD) on both neurodegeneration and spatial memory impairment in rats. Our results demonstrated that HCD (90 day consumption) induces an alteration of the main energy metabolism markers, indicating the development of MS in rats. Moreover, an impairment of spatial memory was observed. Subsequently, the brains of these animals showed activation of an inflammatory response (increase in reactive astrocytes and interleukin1-β as well as tumor necrosis factor-α) and oxidative stress (reactive oxygen species and lipid peroxidation), causing a reduction in the number of neurons in the temporal cortex and hippocampus. Altogether, these results suggest that a HCD promotes the development of MS and contributes to the development of a neurodegenerative process and cognitive failure. In this regard, it is important to understand the relationship between MS and neuronal damage in order to prevent the onset of neurodegenerative disorders.

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Vanadium and insulin: Partners in metabolic regulation

Treviño

Díaz

2020

Journal of Inorganic Biochemistry

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Aβ25-35 Injection into the Temporal Cortex Induces Chronic Inflammation that Contributes to Neurodegeneration and Spatial Memory Impairment in Rats

Díaz

Limón

Chávez

et al. 2012

JAD

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Amyloid-β (Aβ)25-35 is able to cause memory impairment and neurodegenerative events. Recent evidence has shown that the injection of Aβ25-35 into the temporal cortex (TCx) of rats increases the inflammatory response; however, it is unclear how the inflammatory process could be involved in the progression of Aβ25-35 toxicity. In this study we investigated the role of inflammation in the neuronal damage and spatial memory impairment generated by Aβ25-35 in rat TCx using immunohistochemistry, ELISA, and a behavioral test in the radial maze. Our findings show that Aβ25-35 -injection into the TCx induced a reactive gliosis (GFAP and CD11b-reactivity) and an increase of pro-inflammatory cytokines (IL-1β, IL-6, IL-17, and TNF-α) in the TCx and the hippocampus at 5, 15, and 30 days after injection. Thirty days after Aβ25-35 injection, we observed that the inflammatory reaction probably contributed to increase the immunoreactivity of inducible nitric oxide synthase and nitrite levels, as well as to the loss of neurons in TCx and hippocampus. Behavioral performance showed that the neurodegeneration evoked by Aβ25-35 delayed acquisition of learning and impaired spatial memory, because the Aβ25-35-treated animals showed a greater number of errors during the task than the control group. Previous administration of an interleukin receptor antagonist (IL-1ra) (10 and 20 μg/μL, into TCx), an anti-inflammatory agent, suppressed the Aβ25-35-induced inflammatory response and neurodegeneration, as well as memory dysfunction. This study suggests that the chronic inflammatory reaction could contribute to the progression of Aβ25-35 toxicity and cause cognitive impairment.

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