Effects of Forced Running Exercise on Cognitive Function and Its Relation to Zinc Homeostasis-Related Gene Expression in Rat Hippocampus

Hóng, Ní; Li, Chao; Feng, Xing

doi:10.1007/s12011-010-8793-z

Cited by 13 publications

(5 citation statements)

References 28 publications

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“…investigated the effects of different zinc concentrations in the diet on long-term neurobehavioral and seizure thresholds following lithium chloride/pilocarpine-induced developmental seizures. They found that zinc supplementation for 4 weeks significantly improved injury-related changes, and rescued abnormalities in GPR39, ZnT-3, and MBP expression in the hippocampus, which suggests that the role of zinc ions in developmental convulsive brain injury may not be purely excitotoxic as previously thought ( 7 – 9 ), but may play a protective role in the brain as mentioned earlier ( 10 ). In a perspective article by Doenyas , a more comprehensive approach termed the “gut-immune-endocrine-brain” axis, is taken, based on which a personalized treatment plan for autism spectrum disorder (ASD) is presented.…”

Section: Introductionsupporting

confidence: 54%

Editorial: Endocrine Modulators of Neurological Processes: Potential Treatment Targets of Pediatric Neurological Diseases

et al. 2021

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Section: Introductionsupporting

confidence: 54%

Editorial: Endocrine Modulators of Neurological Processes: Potential Treatment Targets of Pediatric Neurological Diseases

et al. 2021

Self Cite

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“…Forced physical exercise improves cognitive ability and mobilizes mRNA expression of zinc transporters (ZnT-2, ZnT-4, ZnT-5, ZnT-6, ZnT-7), metallothioneins, divalent cation transporter-1 and Zrt-Irt like proteins-7 [34]. …”

Section: Discussionmentioning

confidence: 99%

Maternal Zinc Supplementation Improves Spatial Memory in Rat Pups

Piechal

Blecharz-Klin

Pyrzanowska

et al. 2012

Biol Trace Elem Res

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A large body of evidence supports an opinion that adequate dietary zinc is essential for prenatal and postnatal brain development. Behavioural effects of maternal supplementation with ZnSO 4 were analysed in rat pups with the Morris water task performance, a hole board and a T-maze. Wistar females during pregnancy and lactation received a drinking water solution of ZnSO 4 at doses of 16 mg/kg (group Zn16) or 32 mg/kg (group Zn32). Behavioural tests were conducted on the 4-week-old male rat pups. Zinc concentration in the serum, hippocampus and prefrontal cortex of offsprings was determined by means of atomic absorption techniques. The Newman-Keuls multiple comparison test revealed an increase of climbing in the Zn16 group in comparison to the control group (Con) and the Zn32 group during the hole board test. ANOVA for repeated measures showed a significant memory improvement in both supplemented groups compared to the control in the probe trial on day 5 of the water maze test. ZnSO 4 treatment significantly elevated zinc levels in the rat serum. Follow-up data on brain content of zinc in the hippocampus revealed significant differences between the groups and in supplemented groups correlated with crossings above the original platform position. These findings suggest that pre-and postnatal zinc supplementation may improve cognitive development in rats.

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“…The human seizures frequently occur early in life. Zn 2+ is one of the most abundant divalent metal ions in the CNS (Chimienti et al, 2003; Devirgiliis et al, 2007), and zinc transporters show dynamic expression pattern in animal seizure model (Ni et al, 2010, 2011a, b). Zinc transporters ZnT3, ZnT4, and ZIP7 are upregulated in cultured HT22 cells and flurothyl-induced recurrent neonatal seizures, and these altered expressions were reversed by leptin treatment (Jin et al, 2018; Li et al, 2018).…”

Section: Neuroprotective Roles Of Leptinmentioning

confidence: 99%

The Effects of Leptin on Glial Cells in Neurological Diseases

Fujita

Yamashita

2019

Front. Neurosci.

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It is known that various endocrine modulators, including leptin and ghrelin, have neuroprotective roles in neurological diseases. Leptin is a hormone produced by adipocytes and was originally identified as a gene related to obesity in mice. The leptin receptors in the hypothalamus are the main target for the homeostatic regulation of body weight. Recent studies have demonstrated that leptin receptors are also expressed in other regions of the central nervous system (CNS), such as the hippocampus, cerebral cortex, and spinal cord. Accordingly, these studies identified the involvement of leptin in the regulation of neuronal survival and neural development. Furthermore, leptin has been shown to have neuroprotective functions in animal models of neurological diseases and demyelination. These observations also suggest that dysregulation of leptin signaling may be involved in the association between neurodegeneration and obesity. In this review, we summarize novel functions of leptin in animal models of neurodegenerative diseases. Specifically, we focus on the emerging evidence for the role of leptin in non-neuronal cells in the CNS, including astrocytes, microglia, and oligodendrocytes. Understanding leptin-mediated neuroprotective signals and molecular mechanisms underlying remyelination will be helpful to establish therapeutic strategies against neurological diseases.

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Effects of Forced Running Exercise on Cognitive Function and Its Relation to Zinc Homeostasis-Related Gene Expression in Rat Hippocampus

Cited by 13 publications

References 28 publications

Editorial: Endocrine Modulators of Neurological Processes: Potential Treatment Targets of Pediatric Neurological Diseases

Editorial: Endocrine Modulators of Neurological Processes: Potential Treatment Targets of Pediatric Neurological Diseases

Maternal Zinc Supplementation Improves Spatial Memory in Rat Pups

The Effects of Leptin on Glial Cells in Neurological Diseases

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