Gender influence on manganese induced depression-like behavior and Mn and Fe deposition in different regions of CNS and excretory organs in intraperitoneally exposed rats

Abstract Manganese (Mn) is an essential metal for mammals. It can modulate the action of endogenous substances, as neurotransmitters, but in excess also can trigger known neurotoxic effects. Many studies have been conducted assessing Mn neurotoxicity. However, Mn bioaccumulation in different brain t...

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Bibliographic Details
Published in:Toxicology (Amsterdam) 2017-02, Vol.376, p.137-145
Main Authors: Yamagata, A.T, Guimarães, N.C, Santana, D.F, Gonçalves, M.R, Souza, V.C.O, Barbosa Júnior, F, Pandossio, J.E, Santos, V.S
Format: Article
Language:English
Subjects:
Animals
Bioaccumulation
Brain - drug effects
Brain - metabolism
Depression - chemically induced
Depression - metabolism
Depression-like behavior
Emergency
Female
Gender
Immobilization - methods
Injections, Intraperitoneal
Iron - metabolism
Iron - toxicity
Kidney - drug effects
Kidney - metabolism
Liver - drug effects
Liver - metabolism
Male
Manganese
Manganese - metabolism
Manganese - toxicity
Rats
Rats, Wistar
Sex Characteristics
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Summary:Abstract Manganese (Mn) is an essential metal for mammals. It can modulate the action of endogenous substances, as neurotransmitters, but in excess also can trigger known neurotoxic effects. Many studies have been conducted assessing Mn neurotoxicity. However, Mn bioaccumulation in different brain tissues and behavior effects involving gender-specific studies are conflicted in the literature. Therefore, the aim of this work was to compare Mn effects, after 30 days of intraperitoneal treatment, in male and female rats, submitted to forced swim and open field tests. After that, were evaluated Mn and Fe tissue levels in CNS, liver, and kidneys. Wistar rats were divided into saline, Mn 1 mg/kg, Mn 5 mg/kg, and imipramine (as forced swim control). Then, animals were euthanized by anesthesia overdose followed by decapitation and the collected tissue were striatum, hippocampus, brainstem, cortex, cerebellum, hepatic tissue, and renal tissue. Mn and Fe were determined by ICP-MS. There was a dose-dependent effect on accumulation of Mn in the cerebellum and brainstem to the dosage of 5 mg/kg. In hippocampus there were bioaccumulation differences between gender and dose, and an increase of Fe in the groups exposed to Mn. Excess metals in the brain dissected has a strong influence on memory and learning processes and suggests pro-depressive effects, possibly triggered by the reduction of monoamines due to excessive metal bioaccumulation. It was concluded that, under this experimental design, Mn exposure cause metal deposition on dissected CNS, liver and kidney. There an effect at lower doses that was gender-dependent and males had more pronounced behavioral damage compared to females, although with increasing dose, females had an indication of motor damage.
ISSN:0300-483X
1879-3185
DOI:10.1016/j.tox.2016.05.012