Doesn’t an excessive intake of simple sugar affect higher brain function? – EurekAlert

image:Excessive sucrose intake during adolescence cause cellular damage in non-neuronal cell groups, inhibiting the uptake of glucose from the blood into the brain parenchyma, leading to dysfunctions of certain neurons that cause the major symptoms of psychiatric disorders. view more

Credit: TMIMS

There has been a remarkable increase in intake of simple sugar (sucrose, isomerized sugar (corn syrup)) from beverages and diets in modern society. The intake of simple sugars in adolescents in which mental disorders frequently occur is higher than any other generations. Moreover, patients with mental disorders consume approximately 2-fold more sugar than age-matched healthy individuals, and patients with schizophrenia who consume more sucrose exhibit more severe symptoms. Despite accumulating evidence, it is still unproven that excessive sugar intake contributes to the pathogenesis of psychiatric disorders among susceptible individuals. Doesn't an excessive intake of simple sugar affect higher brain function? We attempted to elucidate this causal relationship.

As a susceptibility gene for psychiatric disorder, we selected Glyoxylase-1 and Disrupted-in-schizophrenia-1. By combining the heterozygous mice with environmental factors of excessive sugar intake at the age of puberty, we successfully created a novel mouse model exhibiting various mental disorder-like symptoms, including decreased sensorimotor gating function, decreased working memory, hyperactivity, abnormal gamma-band component in EEG. In other words, this demonstrates a possibility that the excessive intake of simple sugar at the age of puberty could be an environmental risk factor of psychiatric disorders.

Furthermore, by analyzing this model mouse, we aimed to identify the new phenotypes and mechanisms of developing mental disorder. We found cerebral microvascular angiopathy. In order to verify the generality of this finding, we used a post-mortem brain from patients with schizophrenia and bipolar disorder, and identified angiopathy similar to the one seen in the model mice. We also found that the angiopathy was accompanied by an impaired glucose incorporation to brain parenchyma in our mice model. These phenotypes were prevented by continuous administration of non-steroidal anti-inflammatory drugs (NSAIDs) before the onset of the disease, and some psychiatric-like symptoms were also suppressed. Notably, the patients used in this study do not necessarily have a record of excessive sucrose intake. They developed psychiatric disorders under various stress circumstances, suggesting that psychiatric disorders are associated with angiopathy in the brain caused by various environmental stresses, including metabolic stress.

About the Tokyo Metropolitan Institute of Medical Science

The Tokyo Metropolitan Institute of Medical Science (TMIMS) is dedicated to advancing basic and medical research in order to improve human health and quality of life. Founded in 2011 through the consolidation of three medical institutes, TMIMS is funded by the Tokyo metropolitan government and supports basic research in molecular and cellular biology in areas including genome replication, protein degradation, and infectious and neurodegenerative diseases. TMIMS also supports the development of new technologies in areas such as genome editing, control of neural prostheses, and vaccine development, and clinical research in fields such as optimization of nursing care and development of new treatments for psychiatric, neurodegenerative and other diseases. By integrating top-down applied research with bottom-up basic research, a goal of TMIMS is to more efficiently translate basic research results into treatments beneficial for humankind. For more information about TMIMS, see http://www.igakuken.or.jp/english.

High-sucrose diets contribute to brain angiopathy with impaired glucose uptake and psychosis-related higher brain dysfunctions in mice

10-Nov-2021

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Doesn't an excessive intake of simple sugar affect higher brain function? - EurekAlert

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