Brain Formaldehyde is Related to Water Intake behavior.

Weichuan Mo,Rongqiao He,Yingge He,Tao Su,Jihui Lu,Ting Li,Yan Wei

doi:10.14336/ad.2016.0323

Abstract

A promising strategy for the prevention of Alzheimer’s disease (AD) is the identification of age-related changes that place the brain at risk for the disease. Additionally, AD is associated with chronic dehydration, and one of the significant changes that are known to result in metabolic dysfunction is an increase in the endogenous formaldehyde (FA) level. Here, we demonstrate that the levels of uric formaldehyde in AD patients were markedly increased compared with normal controls. The brain formaldehyde levels of wild-type C57 BL/6 mice increased with age, and these increases were followed by decreases in their drinking frequency and water intake. The serum arginine vasopressin (AVP) concentrations were also maintained at a high level in the 10-month-old mice. An intravenous injection of AVP into the tail induced decreases in the drinking frequency and water intake in the mice, and these decreases were associated with increases in brain formaldehyde levels. An ELISA assay revealed that the AVP injection increased both the protein level and the enzymatic activity of semicarbazide-sensitive amine oxidase (SSAO), which is an enzyme that produces formaldehyde. In contrast, the intraperitoneal injection of formaldehyde increased the serum AVP level by increasing the angiotensin II (ANG II) level, and this change was associated with a marked decrease in water intake behavior. These data suggest that the interaction between formaldehyde and AVP affects the water intake behaviors of mice. Furthermore, the highest concentration of formaldehyde in vivo was observed in the morning. Regular water intake is conducive to eliminating endogenous formaldehyde from the human body, particularly when water is consumed in the morning. Establishing good water intake habits not only effectively eliminates excess formaldehyde and other metabolic products but is also expected to yield valuable approaches to reducing the risk of AD prior to the onset of the disease.

Highlights

As described by Luckey and Parsa, many people do not suspected to be the cause of a reduction in general body maintain water homeostasis as they age [1]
Increased brain formaldehyde levels and decreased water intake with aging To investigate the relationship between the formaldehyde levels and water intake behavior, wild-type C57 BL/6 mice were fed a regular diet and housed under pathogenfree conditions, and the brain formaldehyde concentrations were determined at different ages (3, 6 and 10 months)
Chronic dehydration is a common symptom observed in Alzheimer’s disease (AD) patients [4]

Summary

Introduction

As described by Luckey and Parsa, many people do not suspected to be the cause of a reduction in general body maintain water homeostasis as they age [1]. The relationship between FA and brain dysfunction has been intensively studied [23, 24], the effects of formaldehyde on water intake behavior and dehydration have not been investigated to date. AVP increases peripheral vascular resistance and exerts antidiuretic effects that promote water reabsorption in the collecting ducts of the kidney [32, 33, 34]. Due to their low serum AVP levels, mice with a familial ALSassociated SOD1 mutation exhibit significantly increased water intake compared with wild-type mice [35]. This paper is concerned with the relationship between increased endogenous formaldehyde levels and water intake behaviors with aging.

Methods

Results

Conclusion