Manganese neurotoxicity: A focus on the neonate

Erikson, Keith M.; Thompson, Khristy J.; Aschner, Judy L.; Aschner, Michael

doi:10.1016/j.pharmthera.2006.09.002

Cited by 219 publications

(148 citation statements)

References 141 publications

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“…Excitotoxic neuronal injury induced by elevated glutamate levels is considered one of the main mechanisms of Mn-induced neurotoxicity (34,35). Our findings provide substantial evidence that YY1 is a mediator of Mn-induced repression of EAAT2.…”

Section: Discussionsupporting

confidence: 58%

Yin Yang 1 Is a Repressor of Glutamate Transporter EAAT2, and It Mediates Manganese-Induced Decrease of EAAT2 Expression in Astrocytes

Karki

Webb

Smith

et al. 2014

Molecular and Cellular Biology

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139

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c Impairment of astrocytic glutamate transporter (GLT-1; EAAT2) function is associated with multiple neurodegenerative diseases, including Parkinson's disease (PD) and manganism, the latter being induced by chronic exposure to high levels of manganese (Mn). Mn decreases EAAT2 promoter activity and mRNA and protein levels, but the molecular mechanism of Mn-induced EAAT2 repression at the transcriptional level has yet to be elucidated. We reveal that transcription factor Yin Yang 1 (YY1) is critical in repressing EAAT2 and mediates the effects of negative regulators, such as Mn and tumor necrosis factor alpha (TNF-␣), on EAAT2. YY1 overexpression in astrocytes reduced EAAT2 promoter activity, while YY1 knockdown or mutation of the YY1 consensus site of the EAAT2 promoter increased its promoter activity and attenuated the Mn-induced repression of EAAT2. Mn increased YY1 promoter activity and mRNA and protein levels via NF-B activation. This led to increased YY1 binding to the EAAT2 promoter region. Epigenetically, histone deacetylase (HDAC) classes I and II served as corepressors of YY1, and, accordingly, HDAC inhibitors increased EAAT2 promoter activity and reversed the Mn-induced repression of EAAT2 promoter activity. Taken together, our findings suggest that YY1, with HDACs as corepressors, is a critical negative transcriptional regulator of EAAT2 and mediates Mn-induced EAAT2 repression.

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Section: Discussionsupporting

confidence: 58%

Yin Yang 1 Is a Repressor of Glutamate Transporter EAAT2, and It Mediates Manganese-Induced Decrease of EAAT2 Expression in Astrocytes

Karki

Webb

Smith

et al. 2014

Molecular and Cellular Biology

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139

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“…The most obvious explanation is that these changes in presynaptic functioning are caused by Mn-induced neurotoxicity affecting dopamine terminals. General support for this explanation is provided by a large number of in vivo and in vitro studies showing that Mn is toxic to dopamine-containing cells of the basal ganglia (for reviews, see Hirata, 2002;Takeda, 2003;Erikson et al, 2007). Other classes of neurons (e.g., glutamatergic and GABAergic) in the basal ganglia also exhibit a neurotoxic response to Mn (Fitsanakis et al, 2006b), therefore loss of neuronal inputs might be secondarily responsible for some of the perturbations in presynaptic dopamine functioning.…”

Section: Discussionmentioning

confidence: 99%

Postnatal manganese exposure alters dopamine transporter function in adult rats: Potential impact on nonassociative and associative processes

McDougall¹,

Reichel²,

Farley³

et al. 2008

Neuroscience

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In the present study, we examined whether exposing rats to a high-dose regimen of manganese chloride (Mn) during the postnatal period would depress presynaptic dopamine functioning and alter nonassociative and associative behaviors. To this end, rats were given oral supplements of Mn (750 μg/day) on postnatal days (PD) 1-21. On PD 90, dopamine transporter (DAT) immunoreactivity and [ 3 H]dopamine uptake were assayed in the striatum and nucleus accumbens, while in vivo microdialysis was used to measure dopamine efflux in the same brain regions. The effects of postnatal Mn exposure on nigrostriatal functioning were evaluated by assessing rotorod performance and amphetamine-induced stereotypy in adulthood. In terms of associative processes, both cocaineinduced conditioned place preference (CPP) and sucrose-reinforced operant responding were examined. Results showed that postnatal Mn exposure caused persistent declines in DAT protein expression and [ 3 H]dopamine uptake in the striatum and nucleus accumbens, as well as long-term reductions in striatal dopamine efflux. Rotorod performance did not differ according to exposure condition, however Mn-exposed rats did exhibit substantially more amphetamine-induced stereotypy than vehicle controls. Mn exposure did not alter performance on any aspect of the CPP task (preference, extinction, or reinstatement testing), nor did Mn affect progressive ratio responding (a measure of motivation). Interestingly, acquisition of a fixed ratio task was impaired in Mn-exposed rats, suggesting a deficit in procedural learning. In sum, these results indicate that postnatal Mn exposure causes persistent declines in various indices of presynaptic dopaminergic functioning. Mninduced alterations in striatal functioning may have long-term impact on associative and nonassociative behavior.

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“…Consistent with reports of previous researchers, we found that the affected infants were more immature Early amino-acid support and cholestasis M Steinbach et al and had lower birth weight than the non-affected group. 5,[7][8][9] Other investigations have also described an association between cholestasis and the quantity and formulation of amino acids administered parenterally, excess caloric intake of fats and carbohydrates, 10,11 toxicity of trace minerals, [12][13][14][15][16] male gender, 17 perinatal asphyxia, 18 phototoxicity of multivitamin 2 Aggressive administration of parenteral amino acids to improve protein accretion rates in very preterm neonates has been supported in the literature. [24][25][26][27] Although tolerance of high-dose amino acids has been described, researchers acknowledge that sensitive tests to monitor amino-acid toxicity are not readily available in the clinical setting.…”

Section: Discussionmentioning

confidence: 99%

Demographic and nutritional factors associated with prolonged cholestatic jaundice in the premature infant

et al. 2007

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Objective: The primary aim of this study was to determine if an association exists between amino-acid levels and development of cholestasis. The secondary aim of our amino-acid dose comparison trial was to identify factors associated with the development of prolonged cholestatic jaundice.Study Design: We compared demographic characteristics and amino-acid levels in neonates who developed cholestasis with those who did not. Parenteral-associated cholestatic liver disease was defined as a direct serum bilirubin above 5 mg per 100 ml any time during the first 28 days after birth in neonates with no history of biliary atresia or viral hepatitis. We obtained filter paper blood spots for amino acid and acylcarnitine measurements on the day of randomization and days 7 and 28 of age to identify a profile of values that could be used to identify neonates with evidence of abnormal liver function. Result:We enrolled 122 neonates in our study; 13 (10.7%) developed cholestasis. Neonates who developed cholestasis were more immature, had lower birth weight, were exposed to parenteral nutrition for a longer period, had a higher cumulative dose of amino acids, were less often on enteral nutrition by day 7 of age, more often had a patent ductus arteriosus and severe intraventricular hemorrhage and were more commonly treated with steroids by 28 days of age. Amino acid and acylcarnitine values were not different for the two groups on the day of randomization. On day 7 (parenteral phase of nutrition), blood urea nitrogen, citrulline, histidine, methionine and succinyl carnitine were higher, and serine, glutamate and thyroxine levels were lower in the neonates who developed cholestasis than in who did not. Conclusion:Cholestasis remains an important complication of parenteral nutrition, and several clinical and biochemical factors may be helpful in identifying high-risk patients.

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Manganese neurotoxicity: A focus on the neonate

Cited by 219 publications

References 141 publications

Yin Yang 1 Is a Repressor of Glutamate Transporter EAAT2, and It Mediates Manganese-Induced Decrease of EAAT2 Expression in Astrocytes

Yin Yang 1 Is a Repressor of Glutamate Transporter EAAT2, and It Mediates Manganese-Induced Decrease of EAAT2 Expression in Astrocytes

Postnatal manganese exposure alters dopamine transporter function in adult rats: Potential impact on nonassociative and associative processes

Demographic and nutritional factors associated with prolonged cholestatic jaundice in the premature infant

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