Your search keyword '"COPPER metabolism"' showing total 268 results

1. Amyotrophic Lateral Sclerosis and swim training affect copper metabolism in skeletal muscle in a mouse model of disease.

Author

Białobrodzka, Emilia, Flis, Damian Jozef, Akdogan, Banu, Borkowska, Andzelika, Wieckowski, Mariusz Roman, Antosiewicz, Jedrzej, Zischka, Hans, Dzik, Katarzyna Patrycja, Kaczor, Jan Jacek, and Ziolkowski, Wieslaw

Abstract

Introduction/Aims: Swim training and regulation of copper metabolism result in clinical benefits in amyotrophic lateral sclerosis (ALS) mice. Therefore, the study aimed to determine whether swim training improves copper metabolism by modifying copper metabolism in the skeletal muscles of ALS mice. Methods: SOD1G93A mice (n = 6 per group) were used as the ALS model, and wild‐type B6SJL (WT) mice as controls (n = 6). Mice with ALS were analyzed before the onset of ALS (ALS BEFORE), at baseline ALS (first disease symptoms, trained and untrained, ALS ONSET), and at the end of ALS (last stage disease, trained and untrained, ALS TERMINAL). Copper concentrations and the level of copper metabolism proteins in the skeletal muscles of the lower leg were determined. Results: ALS disease caused a reduction in the copper concentration in ALS TERMINAL untrained mice compared with the ALS BEFORE (10.43 ± 1.81 and 38.67 ± 11.50 μg/mg, respectively, p =.0213). The copper chaperon for SOD1 protein, which supplies copper to SOD1, and ATPase7a protein (copper exporter), increased at the terminal stage of disease by 57% (p =.0021) and 34% (p =.0372), while the CTR1 protein (copper importer) decreased by 45% (p =.002). Swim training moderately affected the copper concentration and the concentrations of proteins responsible for copper metabolism in skeletal muscles. Discussion: The results show disturbances in skeletal muscle copper metabolism associated with ALS progression, which is moderately affected by swim training. From a clinical point of view, exercise in water for ALS patients should be an essential element of rehabilitation for maintaining quality of life. [ABSTRACT FROM AUTHOR]

Published

2024

2. Unveiling the role of copper metabolism and STEAP2 in idiopathic pulmonary fibrosis molecular landscape.

Author

Wang, Yajun, Chen, Shuyang, Chen, Shujing, and Jiang, Jinjun

Subjects

IDIOPATHIC pulmonary fibrosis, COPPER, INTERSTITIAL lung diseases, IDIOPATHIC interstitial pneumonias, BIOINFORMATICS, METABOLISM, GENE regulatory networks

Abstract

Idiopathic pulmonary fibrosis (IPF) is a debilitating interstitial lung disease characterized by progressive fibrosis and poor prognosis. Despite advancements in treatment, the pathophysiological mechanisms of IPF remain elusive. Herein, we conducted an integrated bioinformatics analysis combining clinical data and carried out experimental validations to unveil the intricate molecular mechanism of IPF. Leveraging three IPF datasets, we identified 817 upregulated and 560 downregulated differentially expressed genes (DEGs). Of these, 14 DEGs associated with copper metabolism were identified, shedding light on the potential involvement of disrupted copper metabolism in IPF progression. Immune infiltration analysis revealed dysregulated immune cell infiltration in IPF, with a notable correlation between copper metabolism‐related genes and immune cells. Weighted gene co‐expression network analysis (WGCNA) identified a central module correlated with IPF‐associated genes, among which STEAP2 emerged as a key hub gene. Subsequent in vivo and in vitro studies confirmed the upregulation of STEAP2 in IPF model. Knockdown of STEAP2 using siRNA alleviated fibrosis in vitro, suggesting potential pathway related to copper metabolism in the pathophysiological progression of IPF. Our study established a novel link between immune cell infiltration and dysregulated copper metabolism. The revelation of intracellular copper overload and upregulated STEAP2 unravelled a potential therapeutic option. These findings offer valuable insights for future research and therapeutic interventions targeting STEAP2 and associated pathways in IPF. [ABSTRACT FROM AUTHOR]

Published

2024

3. Identification of a copper metabolism‐related gene signature for predicting prognosis and immune response in glioma.

Author

Li, Ling, Leng, Wenyuan, Chen, Junying, Li, Shaoying, Lei, Bingxi, Zhang, Huasong, and Zhao, Huiying

Subjects

*COPPER, *GLIOMAS, *GENE expression, *CELL death, *BRAIN tumors, *IMMUNE response, *PROGNOSIS, *BRAIN metastasis

Abstract

Background: Gliomas are highly refractory intracranial cancers characterized by genetic and transcriptional heterogeneity. However, therapeutic options are limited. In the last years, copper‐induced cell death is becoming a prospective treatment strategy for gliomas and other solid tumors, but copper metabolism‐related genes associated with cancer development remain unclear. Methods: We first collected gene expression data from The Cancer Genome Atlas (TCGA) to identify significantly differentially expressed copper metabolism‐related genes in gliomas. Using these genes, we performed COX regression and Least Absolute Shrinkage and Selection Operator (LASSO) regression to construct the prognostic model. The prognostic value of the model was further validated by CGGA testing set. Subsequently, functional analyses were carried out, including gene set enrichment analysis (GSEA), immune infiltration analysis, and mutation analysis. Finally, the expression levels of these genes were verified by immunohistochemical analysis. Results: The prognostic model consisted of 7 genes: CDK1, LOXL2, LOXL3, NFE2L2, SLC31A1, SUMF1 and FDX1. According to this prognosis model, glioma patients could be split into the high‐risk group or low‐risk group, and the low‐risk group showed significantly better prognostic survival (p < 0.001). Moreover, the high‐risk group had higher levels of immune cell infiltration, immune checkpoint genes expression, and higher tumor mutational burden (TMB), which indicates that they might benefit more from immunotherapy. Finally, we confirmed the expression level of FDX1, SUMF1, and SLC31A1 protein as significantly different in glioblastoma, lower‐grade glioma, and non‐tumor brain tissues by immunohistochemical analysis, and the high expression of FDX1 and SLC31A1 protein was related to poor survival in glioma patients. Conclusions: Our study could contribute to the prognosis prediction and decision‐making in patients with gliomas. [ABSTRACT FROM AUTHOR]

Published

2023

4. ATP7A‐related copper transport disorders: A systematic review and definition of the clinical subtypes.

Author

De Feyter, S., Beyens, A., and Callewaert, B.

Abstract

In patients with ATP7A‐related disorders, counseling is challenging due to clinical overlap between the entities, the absence of predictive biomarkers and a clear genotype‐phenotype correlation. We performed a systematic literature review by querying the MEDLINE and Embase databases identifying 143 relevant papers. We recorded data on the phenotype and genotype in 162 individuals with a molecularly confirmed ATP7A‐related disorder in order to identify differentiating clinical criteria, evaluate genotype‐phenotype correlations and propose management guidelines. Early seizures are specific for classical Menkes disease (CMD), that is characterized by early‐onset neurodegenerative disease with high mortality rates. Ataxia is an independent indicator for atypical Menkes disease, that shows better survival rates than CMD. Bony exostoses, radial head dislocations, herniations and dental abnormalities are specific for occipital horn syndrome (OHS) that may further present with developmental delay and connective tissue manifestations. Intracranial tortuosity and bladder diverticula, both with high risk of complications, are common among all subtypes. Low ceruloplasmin is a more sensitive and discriminating biomarker for ATP7A‐related disorders than serum copper. Truncating mutations are frequently associated with CMD, in contrast with splice site and intronic mutations which are more prevalent in OHS. [ABSTRACT FROM AUTHOR]

Published

2023

5. A Novel Cuproptosis-Associated Gene Signature to Predict Prognosis in Patients with Pancreatic Cancer.

Author

Du, Yan, Jiang, Wenkai, Hou, Shuang, Chen, Zhou, and Zhou, Wence

Subjects

COPPER metabolism, PANCREATIC tumors, DATABASES, STATISTICS, MEDICAL information storage & retrieval systems, APOPTOSIS, REGRESSION analysis, PEARSON correlation (Statistics), GENES, KAPLAN-Meier estimator, DESCRIPTIVE statistics, RESEARCH funding

Abstract

Background. Pancreatic cancer (PAAD) is a malignant tumor with a poor prognosis and lacks sensitive biomarkers for diagnosis and targeted therapy. Cuproptosis, a recently proposed form of cell death based on cellular copper ion concentration, plays a key role in cancer biology. This study is aimed at constructing a risk model for predicting the prognosis of PAAD patients based on cuproptosis-related genes. Methods. Pancreatic-related data from UCSC-TCGA and UCSC-GTEx databases were extracted for analysis, and TCGA-PAAD samples were randomly divided into the training and validation groups. Pearson correlation analysis was used to obtain cuproptosis-related genes coexpressed with 19 copper death genes. Univariate Cox and Lasso regression analyses were used to obtain cuproptosis-related prognostic genes. Multivariate Cox regression analysis was used to construct the final prognostic risk model. The risk score curve, Kaplan-Meier survival curves, and ROC curve were used to evaluate the predictive ability of the Cox risk model. Finally, the functional annotation of the risk model was obtained through enrichment analysis. Results. The Cox risk model has an eight prognostic cuproptosis-related gene signature. Kaplan-Meier survival curves demonstrated that the high-risk group had a shorter survival time. The ROC curve of the risk score was well created to predict one-, three-, and five-year survival rates, and AUC of the risk score was higher than other clinical characteristics. Cox regression analysis revealed that the risk score has an independent prognostic value for PAAD. GSEA reveals specific tumor pathways associated with the risk model (Myc targets v1, mTORC1 signaling, and E2F targets). Conclusions. We constructed a prognostic model containing eight cuproptosis-related genes (AKR1B10, KLHL29, PROM2, PIP5K1C, KIF18B, AMIGO2, MRPL3, and PI4KB) that can accurately predict the prognosis of PAAD patients. The results will provide new perspectives for individualized outcome prediction and new therapy development for PAAD patients. [ABSTRACT FROM AUTHOR]

Published

2023

6. Polarized trafficking and copper transport activity of ATP7B: A mutational approach to establish genotype–phenotype correlation in Wilson disease.

Author

Das, Santanu, Mohammed, Ameena, Mandal, Taniya, Maji, Saptarshi, Verma, Jay, Ruturaj, and Gupta, Arnab

Abstract

Mutation in ATP7B gene causes Wilson disease (WD) that is characterized by severe hepatic and neurological symptoms. ATP7B localizes at the trans‐Golgi Network (TGN) transporting copper to copper‐dependent enzymes and traffics in apically targeted vesicles upon intracellular copper elevation. To decode the cellular underpinnings of WD manifestation we investigated copper‐responsive polarized trafficking and copper transport activity of 15 WD causing point mutations in ATP7B. Amino‐terminal mutations Gly85Val, Leu168Pro, and Gly591Asp displayed TGN and subapical localization whereas, Leu492Ser mislocalized at the basolateral region. The actuator domain mutation Gly875Arg shows retention in the endoplasmic reticulum (ER), Ala874Val and Leu795Phe show partial targeting to TGN and post‐Golgi vesicles. The nucleotide‐binding domain mutations His1069Gln and Leu1083Phe also display impaired targeting. The C‐terminal mutations Leu1373Pro/Arg is arrested at ER but Ser1423Asn shows TGN localization. Transmembrane mutant Arg778Leu resides in ER and TGN while Arg969Gln is exclusively ER localized. Cellular Cu level does not alter the targeting of any of the studied mutations. Mutants that traffic to TGN exhibits biosynthetic function. Finally, we correlated cellular phenotypes with the clinical manifestation of the two most prevalent mutations; the early onset and more aggressive WD caused by Arg778Leu and the milder form of WD caused by mutation His1069Gln. [ABSTRACT FROM AUTHOR]

Published

2022

7. Identification of Cuproptosis-Related Patterns Predict Prognosis and Immunotherapy Response in Hepatocellular Carcinoma.

Author

Guo K, Wang T, Yin J, Yang S, Cui H, Cao Z, Zhao Q, Xie G, Lu J, Gu G, and Wu W

Subjects

Humans, Prognosis, Copper metabolism, Biomarkers, Tumor genetics, Glutaminase genetics, Glutaminase metabolism, Male, Cell Line, Tumor, Female, Cell Proliferation, Cell Movement, Gene Regulatory Networks, Carcinoma, Hepatocellular genetics, Carcinoma, Hepatocellular immunology, Carcinoma, Hepatocellular pathology, Carcinoma, Hepatocellular therapy, Liver Neoplasms genetics, Liver Neoplasms immunology, Liver Neoplasms pathology, Liver Neoplasms therapy, Immunotherapy methods, Gene Expression Regulation, Neoplastic

Abstract

A novel copper-dependent mode of death, cuproptosis, has been newly identified. This study developed a cuproptosis score (CS) based on the cuproptosis model to analyse the association of CS with prognosis, immune cell infiltration, drug sensitivity and immunotherapy response in hepatocellular carcinoma (HCC) patients. A typing model of cuproptosis was constructed based on the expression of 19 cuproptosis-related genes (CRGs). A total of 485 samples were divided into high scoring group (HSG) and low scoring group (LSG) according to CS, and the drug sensitivity and responsiveness to immunotherapy were evaluated by combining the immunophenotype score (IPS), oncoPredict, the tumour immune dysfunction and rejection (TIDE). The use of weighted gene coexpression network analysis (WGCNA) identified key prognostic genes for cuproptosis. Western blotting was used to detect the expression level of the key gene. The CRG key gene glutaminase (GLS) is highly expressed in HCC, and patients with high expression of GLS have a poorer prognosis. Furthermore, cell function experiments, such as proliferation, migration and invasion assays, confirmed that GLS knockdown significantly changed the incidence and progression of HCC. This study suggests that new biological markers associated with cuproptosis can be used in the clinical diagnosis of HCC patients to predict prognosis and therapeutic targets., (© 2024 The Author(s). Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published

2024

8. Copper homeostasis and cuproptosis-related genes: Therapeutic perspectives in non-alcoholic fatty liver disease.

Author

Tan W, Zhang J, Chen L, Wang Y, Chen R, Zhang H, and Liang F

Subjects

Humans, Animals, Non-alcoholic Fatty Liver Disease genetics, Non-alcoholic Fatty Liver Disease metabolism, Non-alcoholic Fatty Liver Disease therapy, Copper metabolism, Homeostasis genetics, Liver metabolism

Abstract

Non-alcoholic fatty liver disease (NAFLD), a metabolic-associated fatty liver disease, has become the most common chronic liver disease worldwide. Recently, the discovery of cuproptosis, a newly identified mode of cell death, further highlighted the importance of copper in maintaining metabolic homeostasis. An increasing number of studies have confirmed that liver copper metabolism is closely related to the pathogenesis of NAFLD. However, the relationship between NAFLD and copper metabolism, especially cuproptosis, remains unclear. In this review, we aim to summarize the current understanding of copper metabolism and its dysregulation, particularly the role of copper metabolism dysregulation in the pathogenesis of NAFLD. More importantly, this review emphasizes potential gene-targeted therapeutic strategies, challenges and the future of cuproptosis-related genes in the treatment of NAFLD. This review aims to provide innovative therapeutic strategies for NAFLD., (© 2024 The Author(s). Diabetes, Obesity and Metabolism published by John Wiley & Sons Ltd.)

Published

2024

9. Novel Insights Into DLAT's Role in Alzheimer's Disease-Related Copper Toxicity Through Microglial Exosome Dynamics.

Author

Ma X, Sun Y, Li C, Wang M, Zang Q, Zhang X, Wang F, Niu Y, and Hua J

Subjects

Animals, Humans, Male, Mice, Acetyltransferases metabolism, Acetyltransferases genetics, Mice, Inbred C57BL, Mice, Transgenic, Neurons metabolism, Neurons drug effects, Neurons pathology, Pyruvate Kinase metabolism, Pyruvate Kinase genetics, Mitochondrial Proteins, Alzheimer Disease metabolism, Alzheimer Disease pathology, Copper toxicity, Copper metabolism, Exosomes metabolism, Microglia metabolism, Microglia drug effects, Microglia pathology

Abstract

Background: Alzheimer's disease (AD) is a complex neurodegenerative disorder, with recent research emphasizing the roles of microglia and their secreted extracellular vesicles in AD pathology. However, the involvement of specific molecular pathways contributing to neuronal death in the context of copper toxicity remains largely unexplored., Objective: This study investigates the interaction between pyruvate kinase M2 (PKM2) and dihydrolipoamide S-acetyltransferase (DLAT), particularly focusing on copper-induced neuronal death in Alzheimer's disease., Methods: Gene expression datasets were analyzed to identify key factors involved in AD-related copper toxicity. The role of DLAT was validated using 5xFAD transgenic mice, while in vitro experiments were conducted to assess the impact of microglial exosomes on neuronal PKM2 transfer and DLAT expression. The effects of inhibiting the PKM2 transfer via microglial exosomes on DLAT expression and copper-induced neuronal death were also evaluated., Results: DLAT was identified as a critical factor in the pathology of AD, particularly in copper toxicity. In 5xFAD mice, increased DLAT expression was linked to hippocampal damage and cognitive decline. In vitro, microglial exosomes were shown to facilitate the transfer of PKM2 to neurons, leading to upregulation of DLAT expression and increased copper-induced neuronal death. Inhibition of PKM2 transfer via exosomes resulted in a significant reduction in DLAT expression, mitigating neuronal death and slowing AD progression., Conclusion: This study uncovers a novel pathway involving microglial exosomes and the PKM2-DLAT interaction in copper-induced neuronal death, providing potential therapeutic targets for Alzheimer's disease. Blocking PKM2 transfer could offer new strategies for reducing neuronal damage and slowing disease progression in AD., (© 2024 The Author(s). CNS Neuroscience & Therapeutics published by John Wiley & Sons Ltd.)

Published

2024

10. Cuproptosis: Mechanisms, biological significance, and advances in disease treatment-A systematic review.

Author

Pan C, Ji Z, Wang Q, Zhang Z, Wang Z, Li C, Lu S, and Ge P

Subjects

Humans, Animals, Cell Death drug effects, Cell Death physiology, Autophagy physiology, Autophagy drug effects, Copper metabolism, Copper toxicity

Abstract

Background: Copper is an essential trace element for biological systems, as it plays a critical role in the activity of various enzymes and metabolic processes. However, the dysregulation of copper homeostasis is closely associated with the onset and progression of numerous diseases. In recent years, copper-induced cell death, a novel form of cellular demise, has garnered significant attention. This process is characterized by the abnormal accumulation of intracellular copper ions, leading to cellular dysfunction and eventual cell death. Copper toxicity occurs through the interaction of copper with acylated enzymes in the tricarboxylic acid (TCA) cycle. This interaction results in subsequent protein aggregation, causing proteotoxic stress and ultimately resulting in cell death. Despite the promise of these findings, the detailed mechanisms and broader implications of cuproptosis remain underexplored. Therefore, our study aimed to investigate the role of copper in cell death and autophagy, focusing on the molecular mechanisms of cuproptosis. We also aimed to discuss recent advancements in copper-related research across various diseases and tumors, providing insights for future studies and potential therapeutic applications., Main Body: This review delves into the biological significance of copper metabolism and the molecular mechanisms underlying copper-induced cell death. Furthermore, we discuss the role of copper toxicity in the pathogenesis of various diseases, emphasizing recent advancements in the field of oncology. Additionally, we explore the therapeutic potential of targeting copper toxicity., Conclusion: The study highlights the need for further research to explore alternative pathways of copper-induced cell death, detailed mechanisms of cuproptosis, and biomarkers for copper poisoning. Future research should focus on exploring the molecular mechanisms of cuproptosis, developing new therapeutic strategies, and verifying their safety and efficacy in clinical trials., (© 2024 The Author(s). CNS Neuroscience & Therapeutics published by John Wiley & Sons Ltd.)

Published

2024

11. Gandouling ameliorates liver injury in Wilson's disease through the inhibition of ferroptosis by regulating the HSF1/HSPB1 pathway.

Author

Zhao C, Chen J, Tian L, Wen Y, Wu M, Tang L, Zhou A, Xie W, and Dong T

Subjects

Animals, Mice, Heat-Shock Proteins metabolism, Heat-Shock Proteins genetics, Disease Models, Animal, Male, Iron metabolism, Copper metabolism, Mice, Inbred C57BL, Humans, Ferroptosis drug effects, Heat Shock Transcription Factors metabolism, Heat Shock Transcription Factors genetics, Hepatolenticular Degeneration drug therapy, Hepatolenticular Degeneration metabolism, Hepatolenticular Degeneration pathology, Molecular Chaperones metabolism, Liver metabolism, Liver drug effects, Liver pathology, Signal Transduction drug effects

Abstract

Ferroptosis, an iron-dependent form of cell death, plays a crucial role in the progression of liver injury in Wilson's disease (WD). Gandouling (GDL) has emerged as a potential therapeutic agent for preventing and treating liver injury in WD. However, the precise mechanisms by which GDL mitigates ferroptosis in WD liver injury remain unclear. In this study, we discovered that treating Toxic Milk (TX) mice with GDL effectively decreased liver copper content, corrected iron homeostasis imbalances, and lowered lipid peroxidation levels, thereby preventing ferroptosis and improving liver injury. Bioinformatics analysis and machine learning algorithms identified Hspb1 as a pivotal regulator of ferroptosis. GDL treatment significantly upregulated the expression of HSPB1 and its upstream regulatory factor HSF1, thereby activating the HSF1/HSPB1 pathway. Importantly, inhibition of this pathway by NXP800 reversed the protective effects of GDL on ferroptosis in the liver of TX mice. In conclusion, GDL shows promise in alleviating liver injury in WD by inhibiting ferroptosis through modulation of the HSF1/HSPB1 pathway, suggesting its potential as a novel therapeutic agent for treating liver ferroptosis in WD., (© 2024 The Author(s). Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published

2024

12. The physiological and pathophysiological roles of copper in the nervous system.

Author

Gale J and Aizenman E

Subjects

Humans, Animals, Homeostasis physiology, Nervous System metabolism, Copper metabolism

Abstract

Copper is a critical trace element in biological systems due the vast number of essential enzymes that require the metal as a cofactor, including cytochrome c oxidase, superoxide dismutase and dopamine-β-hydroxylase. Due its key role in oxidative metabolism, antioxidant defence and neurotransmitter synthesis, copper is particularly important for neuronal development and proper neuronal function. Moreover, increasing evidence suggests that copper also serves important functions in synaptic and network activity, the regulation of circadian rhythms, and arousal. However, it is important to note that because of copper's ability to redox cycle and generate reactive species, cellular levels of the metal must be tightly regulated to meet cellular needs while avoiding copper-induced oxidative stress. Therefore, it is essential that the intricate system of copper transporters, exporters, copper chaperones and copper trafficking proteins function properly and in coordinate fashion. Indeed, disorders of copper metabolism such as Menkes disease and Wilson disease, as well as diseases linked to dysfunction of copper-requiring enzymes, such as SOD1-linked amyotrophic lateral sclerosis, demonstrate the dramatic neurological consequences of altered copper homeostasis. In this review, we explore the physiological importance of copper in the nervous system as well as pathologies related to improper copper handling., (© 2024 The Authors. European Journal of Neuroscience published by Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2024

13. Kayser–Fleischer rings: The pathognomonic for Wilson's disease.

Author

Singh, Priyanka, Subedi, Bachaspati, Mahato, Devraj, and Karn, Mitesh

Subjects

*HEPATOLENTICULAR degeneration, *GENETIC disorders, *METABOLIC disorders

Abstract

Key Clinical Message: Wilson's disease is a genetic disorder of copper metabolism that primarily manifests with hepatic and neurological features. Kayser–Fleischer rings (KF rings) are pathognomonic of Wilson's disease and helps in establishing its diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

14. Determination of Renal Distribution of Zinc, Copper, Iron, and Platinum in Mouse Kidney Using LA-ICP-MS.

Author

Stepka, Petr, Kratochvilova, Monika, Kuchynka, Michaela, Raudenska, Martina, Polanska, Hana Holcova, Vicar, Tomas, Vaculovic, Tomas, Vaculovicova, Marketa, and Masarik, Michal

Subjects

ZINC metabolism, COPPER metabolism, IRON metabolism, NEPHROTOXICOLOGY, DIGITAL image processing, KIDNEYS, ANIMAL experimentation, LASERS, PLATINUM, CYTOCHEMISTRY, MASS spectrometry, CISPLATIN, DESCRIPTIVE statistics, TRACE elements, MICE, ABLATION techniques

Abstract

The main dose-limiting side effect of cisplatin is nephrotoxicity. The utilization of cisplatin is an issue of balancing tumour toxicity versus platinum-induced nephrotoxicity. In this study, we focused on intraorgan distribution of common essential trace elements zinc, copper, and iron in healthy mouse kidneys and distribution of platinum after cisplatin treatment. Renal distribution in 12 nontreated Nu-Nu mice (males) was assessed by laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). Furthermore, 9 Nu-Nu mice were treated with cisplatin. The order of elements concentration in kidneys was as follows: Fe > Zn > Cu. All three metals showed the higher concentrations at the cortex and medulla (28.60, 3.35, and 93.83 μg/g for Zn, Cu, and Fe, respectively) and lower concentration at the pelvis and the urinary tract (20.20, 1.93, and 62.48 μg/g for Zn, Cu, and Fe, respectively). No statistically significant difference between cortex and medulla was observed for these elements. After platinum treatment, the concentration of platinum in kidneys was enhanced more than 60-times, p < 0.001. Platinum significantly showed the highest accumulation in cortex (2.11 μg/g) with a gradient distribution. Platinum was less accumulated in medulla and pelvis than in cortex, and the lowest accumulation occurred in the urinary tract (1.13 μg/g). Image processing has been successfully utilized to colocalize metal distribution using LA-ICP-MS and histological samples images. [ABSTRACT FROM AUTHOR]

Published

2021

15. Regional distribution of cytochrome c oxidase activity and copper in sclerotic hippocampi of epilepsy patients.

Author

Opačić, Miloš, Ristić, Aleksandar J., Sokić, Dragoslav, Baščarević, Vladimir, Raičević, Savo, Savić, Slobodan, Zorović, Maja, Živin, Marko, Šelih, Vid Simon, Spasojević, Ivan, and Savić, Danijela

Subjects

*CYTOCHROME oxidase, *PEOPLE with epilepsy, *HIPPOCAMPUS (Brain), *PATHOLOGICAL physiology, *HIPPOCAMPUS physiology, *COPPER metabolism, *HOMEOSTASIS, *COPPER proteins

Abstract

Introduction: Disruption of copper homeostasis and dysfunction of mitochondria have been documented in sclerotic hippocampi (HS) of patients with mesial temporal lobe epilepsy (mTLE). However, a potential link between these pathological changes has not been tackled so far. Herein, we analyzed regional distribution of neuron somata density, copper concentration, and the activity of cytochrome c oxidase (CCO), a component of mitochondrial electron transport chain and copper‐containing metalloprotein, in HS. Methods: Histochemical staining and laser ablation inductively coupled plasma mass spectrometry were carried out to construct comparable maps of these parameters in coronal sections of hippocampi of 3 mTLE‐HS patients and 3 control subjects. Results: Copper levels were decreased in all regions of HS with pyramidal neuron somata. CCO activity was significantly reduced in stratum pyramidale (PY) 1 and cornu Ammonis field 4, the two regions with significant reduction in neuron somata density. CCO activity was also lower in layers that contain apical dendrites of pyramidal neurons and mossy fibers. It appears that copper deficiency in PY2 and PY3 comes before CCO activity reduction and neuronal loss. A strong positive correlation was found between neuron density, Cu concentration, and CCO activity. Conclusions: Presented results imply that pathological alterations in Cu and energy metabolism could be involved in the development of HS. A limitation of this study was the relatively small number of patients. However, presented results underline copper deficiency as a component of pathological mechanisms of epilepsy and warrant further investigation of cuproproteins and members of copper transport machinery. [ABSTRACT FROM AUTHOR]

Published

2021

16. Severe phenotype of ATP6AP1‐CDG in two siblings with a novel mutation leading to a differential tissue‐specific ATP6AP1 protein pattern, cellular oxidative stress and hepatic copper accumulation.

Author

Ondruskova, Nina, Honzik, Tomas, Vondrackova, Alzbeta, Stranecky, Viktor, Tesarova, Marketa, Zeman, Jiri, and Hansikova, Hana

Abstract

Congenital disorders of glycosylation (CDG) represent a wide range of >140 inherited metabolic diseases, continually expanding not only with regards to the number of newly identified causative genes, but also the heterogeneity of the clinical and molecular presentations within each subtype. The deficiency of ATP6AP1, an accessory subunit of the vacuolar H+‐ATPase, is a recently characterised N‐ and O‐glycosylation defect manifesting with immunodeficiency, hepatopathy and cognitive impairment. At the cellular level, the latest studies demonstrate a complex disturbance of metabolomics involving peroxisomal function and lipid homeostasis in the patients. Our study delineates a case of two severely affected siblings with a new hemizygous variant c.221T>C (p.L74P) in ATP6AP1 gene, who both died due to liver failure before reaching 1 year of age. We bring novel pathobiochemical observations including the finding of increased reactive oxygen species in the cultured fibroblasts from the older boy, a striking copper accumulation in his liver, as well as describe the impact of the mutation on the protein in different organs, showing a tissue‐specific pattern of ATP6AP1 level and its posttranslational modification. [ABSTRACT FROM AUTHOR]

Published

2020

17. Hepatic copper accumulation in a young cat with familial variations in the ATP7B gene.

Author

Asada, Hajime, Kojima, Mari, Nagahara, Takuro, Goto‐Koshino, Yuko, Chambers, James K., Nakagawa, Taisuke, Yokoyama, Nozomu, Uchida, Kazuyuki, Tsujimoto, Hajime, and Ohno, Koichi

Subjects

*PHYSIOLOGICAL effects of copper, *COPPER metabolism, *CAT diseases, *JAUNDICE, *LIVER cells

Abstract

A 9‐month‐old intact crossbred female cat was presented with jaundice, intermittent anorexia and lethargy, increased hepatic enzyme activities, and hyperammonemia. Abdominal ultrasound and computed tomographic examinations determined that the liver had a rounded and irregular margin, and histopathological examination identified excessive accumulation of copper hepatocytes in the liver. Concentrations of both blood and urine copper were higher than in healthy cats. The patient responded well to treatment with penicillamine. Clinicopathological abnormalities and clinical signs improved within 2 months, and the patient was alive for >9 months after starting treatment. Genetic examination determined that the patient and its littermate had a single‐nucleotide variation (SNV, p. T1297R) that impaired the function of the ATP7B gene product; the gene that is mutated in patients with Wilson's disease (WD). Hepatic copper accumulation was believed to be associated with the SNV of the ATP7B gene, and the patient had a genetic disorder of copper metabolism equivalent to WD in humans. [ABSTRACT FROM AUTHOR]

Published

2019

18. Hepatic copper concentrations in 546 dogs (1982–2015).

Author

Strickland, Jaimie M., Buchweitz, John P., Smedley, Rebecca C., Olstad, Katherine J., Schultz, Ryan S., Oliver, N. Bari, and Langlois, Daniel K.

Subjects

*HEPATITIS diagnosis, *COPPER metabolism, *DOG diseases, *COPPER poisoning, *LABRADOR retriever, *WEST Highland white terrier, *DOBERMAN pinscher, *TRACE elements

Abstract

Background: Copper associated hepatitis (CAH) has been increasingly recognized in dogs, and speculation exists that hereditary defects in copper metabolism have been exacerbated by increased environmental copper exposure. However, no broad epidemiological investigations have been performed to investigate quantitative hepatic copper concentrations ([Cu]H) over time in both dogs that are (predisposed breed [PB]), and are not (non‐predisposed breed [NPB]), considered at‐risk for CAH. Objectives: To investigate [Cu]H in dogs and explore temporal, demographic, and histologic associations spanning 34 years. Animals 546 archived liver specimens. Methods: Retrospective study. Searches of the Michigan State University Veterinary Diagnostic Laboratory database identified dogs that had undergone hepatic histopathologic assessment. Cases with archived tissue were reviewed and classified by breed, time period, and presence or absence of hepatitis. Inductively coupled plasma mass spectrometry was used to determine [Cu]H. Results: In time period 2009–2015, median [Cu]H were 101 μg/g and 313 μg/g greater than median [Cu]H in time period 1982–1988 for NPB and PB dogs, respectively (P <.001 for both comparisons). The proportion of dogs with [CU]H > 300 μg/g increased in NPB (28% to 49%) and PB dogs (48% to 71%) during these periods (P =.002 for both comparisons). Median [Cu]H in dogs with hepatitis increased 3‐fold over time in both NPB (P =.004) and PB populations (P <.001). Conclusions and Clinical Importance: The frequent recognition of CAH in recent years is likely due to the observed increases in [Cu]H over time. Importantly, effects are not limited to PB dogs. [ABSTRACT FROM AUTHOR]

Published

2018

19. For Cryptococcus neoformans, responding to the copper status in a colonization niche is not just about copper.

Author

Kosman, Daniel J.

Subjects

*CRYPTOCOCCUS neoformans, *FUNGI physiology, *TRANSCRIPTION factors, *COPPER bioaccumulation, *GENE expression, *COPPER metabolism, *CYSTEINE, *FUNGI

Abstract

Summary: Most fungi express two transcription factors that regulate the expression of genes associated with copper uptake for nutritional needs, and with copper resistance when copper approaches a cytotoxic level. These factors are characterized by cysteine‐rich motifs which are associated with copper‐sensing, DNA‐binding and release, and/or cytoplasmic retention. Cryptococcus neoformans differs from most in that it expresses a single such copper‐sensing trans‐factor, Cuf1, a protein that up‐regulates copper uptake when copper is scarce, and up‐regulates copper sequestration when cells become super‐replete. For C. neoformans this is an essential task in as much as copper is relatively bioavailable in lung airways while the brain interstitium can be copper‐limiting for growth. While fungal dependence on and sensitivity to copper have long been considered targets for anti‐fungal chemistry, fungi have proven adept at finding ‘work arounds’ by using a chelated form of copper as nutrient or adapting to a copper‐surfaced hospital bed by increased resistance. However, the cohort of Cuf1 targets identified in this report represent far more than just the uptake and sequestration machinery, but include additional loci that, perhaps, are less easily ‘defended’ by the fungus. Garcia‐Santamarina et al. provide that list and thus lay the ground‐work for developing novel anti‐fungal reagents. [ABSTRACT FROM AUTHOR]

Published

2018

20. Genome‐wide analysis of the regulation of Cu metabolism in Cryptococcus neoformans.

Author

Garcia‐Santamarina, Sarela, Festa, Richard A., Smith, Aaron D., Yu, Chen‐Hsin, Probst, Corinna, Ding, Chen, Homer, Christina M., Yin, Jun, Noonan, James P., Madhani, Hiten, Perfect, John R., and Thiele, Dennis J.

Subjects

*COPPER metabolism, *CRYPTOCOCCUS neoformans, *METALLOTHIONEIN, *PATHOGENIC microorganisms, *COPPER in the body, *TRANSCRIPTION factors

Abstract

Summary: The ability of the human fungal pathogen Cryptococcus neoformans to adapt to variable copper (Cu) environments within the host is key for successful dissemination and colonization. During pulmonary infection, host alveolar macrophages compartmentalize Cu into the phagosome and C. neoformans Cu‐detoxifying metallothioneins, MT1 and MT2, are required for survival of the pathogen. In contrast, during brain colonization the C. neoformans Cu+ importers Ctr1 and Ctr4 are required for virulence. Central for the regulation and expression of both the Cu detoxifying MT1/2 and the Cu acquisition Ctr1/4 proteins is the Cu‐metalloregulatory transcription factor Cuf1, an established C. neoformans virulence factor. Due to the importance of the distinct C. neoformans Cu homeostasis mechanisms during host colonization and virulence, and to the central role of Cuf1 in regulating Cu homeostasis, we performed a combination of RNA‐Seq and ChIP‐Seq experiments to identify differentially transcribed genes between conditions of high and low Cu. We demonstrate that the transcriptional regulation exerted by Cuf1 is intrinsically complex and that Cuf1 also functions as a transcriptional repressor. The Cu‐ and Cuf1‐dependent regulon in C. neoformans reveals new adaptive mechanisms for Cu homeostasis in this pathogenic fungus and identifies potential new pathogen‐specific targets for therapeutic intervention in fungal infections. [ABSTRACT FROM AUTHOR]

Published

2018

21. Black liver in a patient with Wilson's disease.

Author

Jiang, Wei, Zeng, Qingmin, Liu, Chang‐Hai, Wu, Dongbo, and Tang, Hong

Subjects

*HEPATOLENTICULAR degeneration, *BLACK people, *IRON overload, *CONGENITAL disorders, *IRON

Abstract

Wilson's disease is an autosomal recessive inherited disease with congenital copper metabolism disorder, characterized by decreased ceruloplasmin and increased urine copper, which can involve multiple organs. This case was complicated by iron overload, which is of great value in differentiating hereditary hemochromatism. When Wilson's disease presents increased serum iron and liver iron deposition, liver MRI shows black liver image, and liver pathology shows iron deposition in zone 2–3. At this time, it is necessary to identify with hereditary hemochromatism. [ABSTRACT FROM AUTHOR]

Published

2022

22. A 37-year-old Menkes disease patient-Residual ATP7A activity and early copper administration as key factors in beneficial treatment.

Author

Tümer, Z., Petris, M., Zhu, S., Mercer, J., Bukrinski, J., Bilz, S., Baerlocher, K., Horn, N., and Møller, L.B

Subjects

*KINKY hair syndrome, *MISSENSE mutation, *COPPER metabolism, *PROTEIN expression, *NEUROLOGICAL disorders

Abstract

Menkes disease (MD) is a lethal disorder characterized by severe neurological symptoms and connective tissue abnormalities; and results from malfunctioning of cuproenzymes, which cannot receive copper due to a defective intracellular copper transporting protein, ATP7A. Early parenteral copper-histidine supplementation may modify disease progression substantially but beneficial effects of long-term treatment have been recorded in only a few patients. Here we report on the eldest surviving MD patient (37 years) receiving early-onset and long-term copper treatment. He has few neurological symptoms without connective tissue disturbances; and a missense ATP7A variant, p.( Pro852Leu), which results in impaired protein trafficking while the copper transport function is spared. These findings suggest that some cuproenzymes maintain their function when sufficient copper is provided to the cells; and underline the importance of early initiated copper treatment, efficiency of which is likely to be dependent on the mutant ATP7A function. [ABSTRACT FROM AUTHOR]

Published

2017

23. Genetic variation spectrum in ATP7B gene identified in Latvian patients with Wilson disease.

Author

Zarina, Agnese, Tolmane, Ieva, Kreile, Madara, Chernushenko, Aleksandrs, Cernevska, Gunta, Pukite, Ieva, Micule, Ieva, Krumina, Zita, Krumina, Astrida, Rozentale, Baiba, and Piekuse, Linda

Subjects

*HUMAN genetic variation, *GENES, *GENETIC disorders, *ALLELES, *GENETIC mutation

Abstract

Background Wilson disease ( WD) is an autosomal recessive disorder of copper metabolism caused by allelic variants in ATP7B gene. More than 500 distinct variants have been reported, the most common WD causing allelic variant in the patients from Central, Eastern, and Northern Europe is H1069Q. Methods All Latvian patients with clinically confirmed WD were screened for the most common mutation p.H1069Q by PCR Bi- PASA method. Direct DNA sequencing of gene ATP7B (all 21 exons) was performed for the patients with WD symptoms, being either heterozygous for H1069Q or without it on any allele. Results We identified 15 different allelic variants along with eight non-disease-causing allelic variants. Based on the gene molecular analysis and patients' clinical data variant p.His1069Gln was found in 66.9% of WD alleles. Wide clinical variability was observed among individuals with the same ATP7B genotype. The results of our study confirm that neurological manifestations of WD are typically present later than the liver disease but no significant association between the presence/absence of the most common genetic variant and mode of initial WD presentation or age at presentation was identified. Conclusions (1) The most prevalent mutation in Latvian patients with Wilson disease was c.3207C>A (p.His1069Gln); (2) No significant phenotype-genotype correlation was found in Latvian patients with Wilson disease; (3) The estimated prevalence of Wilson disease in Latvia is 1 of 24,000 cases which is higher than frequently quoted prevalence of 1: 30,000. [ABSTRACT FROM AUTHOR]

Published

2017

24. Prediction of Cu(II) biosorption performances on wild mushrooms Lactarius piperatus using Artificial Neural Networks (ANN) model.

Author

Indolean, Cerasella, Măicăneanu, Andrada, and Cristea, Vasile‐Mircea

Subjects

COPPER metabolism, EDIBLE mushrooms, COPPER isotopes absorption & adsorption

Abstract

This work investigates the possible usage of edible mushrooms as support for metabolic quantities of copper. Biosorption potential of natural and biodegradable matrix formed from wild Lactarius piperatus mushrooms, in suspension (LP) and alginate immobilized based beads (LPAB), was explored. The effects of biomass quantity, Cu(II) concentration, and temperature were assessed. LPAB showed better adsorption capacity (7.67 mg/g) by comparison to LP biosorbent (6.43 mg/g). Also, biosorption efficiencies up to 76 and 99 % for LP and LPAB (for the same quantity of biomass, 2 g), respectively, were obtained. Furthermore, a multilayer feed forward Artificial Neural Network (ANN) model was developed in order to predict the biosorption efficiency. The trained ANNs, for LP and LAPB biosorbents, showed good correlation (R = 0.998) between the predicted and experimental biosorption efficiency, associated to reduced mean relative errors and demonstrated that the ANN has a good generalization potential. 1-2 g of Lactarius piperatus mushroom, as powder or in alginate-based beads containing Cu(II), could be used as a dietary supplement in order to supply the daily copper demand of the organism. [ABSTRACT FROM AUTHOR]

Published

2017

25. Prevalence and Clinical Relevance of Exon 2 Deletion of COMMD1 in Bedlington Terriers in Korea.

Author

Kim, Y.G., Kim, S.Y., Kim, J.H., Lee, K.K., and Yun, Y.M.

Subjects

*COPPER metabolism, *COPPER in the body, *DOG diseases, *DISEASE prevalence, *VETERINARY medicine

Abstract

Background Deletion of exon 2 of copper metabolism domain containing 1 ( COMMD1) results in copper toxicosis in Bedlington terriers ( CT- BT). Objectives This study was conducted to identify the prevalence and clinical relevance of the COMMD1 mutation in Bedlington terriers in Korea. Animals A total of 105 purebred Bedlington terriers (50 males, 55 females) from the kennels and pet dog clubs in Korea were examined during the period 2008-2013. Methods A multiplex PCR was carried out to detect exon 2 deletion of COMMD1. Clinical analysis was performed on each genetic group, and clinical status of the dogs was followed up to estimate survival probability. Results Of the 105 samples, 52 (49%) were wild-type homozygote, 47 (45%) were heterozygote, and 6 (6%) were mutant-type homozygote. Plasma alanine aminotransferase ( ALT) activity was increased in the mutant-type homozygous group >2 years of age ( P < .0001). The survival probability of 6 mutant-type homozygotes surviving 2.5 years was 0.67, and 4 years was 0.5. Conclusions and Clinical Importance Results show the prevalence and clinical relevance of exon 2 deletion of COMMD1 and could help establish a structured selective breeding program to prevent CT- BT in Korea. [ABSTRACT FROM AUTHOR]

Published

2016

26. Functional ionotropic glutamate receptors on peripheral axons and myelin.

Author

Christensen, Pia Crone, Welch, Nicole Cheryl, Brideau, Craig, and Stys, Peter K.

Subjects

*CALCIUM metabolism, *COPPER metabolism, *PROTEIN metabolism, *BACTERIAL protein metabolism, *ANIMAL experimentation, *BACTERIAL proteins, *FLUORESCENCE spectroscopy, *MICE, *MICROSCOPY, *NERVE tissue, *NEURONS, *NEUROTRANSMITTER receptors, *NONPARAMETRIC statistics, *PROTEINS, *RESEARCH funding

Abstract

Introduction: Neurotransmitter-dependent signaling is traditionally restricted to axon terminals. However, receptors are present on myelinating glia, suggesting that chemical transmission may also occur along axons.Methods: Confocal microscopy and Ca(2+) -imaging using an axonally expressed FRET-based reporter was used to measure Ca(2+) changes and morphological alterations in myelin in response to stimulation of glutamate receptors.Results: Activation of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) or N-methyl-D-aspartate (NMDA) receptors induced a Ca(2+) increase in axon cylinders. However, only the latter caused structural alterations in axons, despite similar Ca(2+) increases. Myelin morphology was significantly altered by NMDA receptor activation, but not by AMPA receptors. Cu(2+) ions influenced the NMDA receptor-dependent response, suggesting that this metal modulates axonal receptors. Glutamate increased ribosomal signal in Schwann cell cytoplasm.Conclusions: Axon cylinders and myelin of peripheral nervous system axons respond to glutamate, with a consequence being an increase in Schwann cell ribosomes. This may have implications for nerve pathology and regeneration. Muscle Nerve 54: 451-459, 2016. [ABSTRACT FROM AUTHOR]

Published

2016

27. Transcriptome analysis of copper homeostasis genes reveals coordinated upregulation of SLC31A1, SCO1, and COX11 in colorectal cancer.

Author

Barresi, Vincenza, Trovato-Salinaro, Angela, Spampinato, Giorgia, Musso, Nicolò, Castorina, Sergio, Rizzarelli, Enrico, and Condorelli, Daniele Filippo

Subjects

GENETICS of colon cancer, POINT mutation (Biology), CYTOCHROME c, COPPER metabolism, TRANSCRIPTION factors, GENE expression

Abstract

Copper homeostasis and distribution is strictly regulated by a network of transporters and intracellular chaperones encoded by a group of genes collectively known as copper homeostasis genes ( CHGs). In this work, analysis of The Cancer Genome Atlas database for somatic point mutations in colorectal cancer revealed that inactivating mutations are absent or extremely rare in CHGs. Using oligonucleotide microarrays, we found a strong increase in mRNA levels of the membrane copper transporter 1 protein [ CTR1; encoded by the solute carrier family 31 member 1 gene ( SLC31A1 gene)] in our series of colorectal carcinoma samples. CTR1 is the main copper influx transporter and changes in its expression are able to induce modifications of cellular copper accumulation. The increased SLC31A1 mRNA level is accompanied by a parallel increase in transcript levels for copper efflux pump ATP7A, copper metabolism Murr1 domain containing 1 ( COMMD1), the cytochrome C oxidase assembly factors [synthesis of cytochrome c oxidase 1 ( SCO1) and cytochrome c oxidase copper chaperone 11 ( COX11)], the cupric reductase six transmembrane epithelial antigen of the prostate ( STEAP3), and the metal-regulatory transcription factors ( MTF1, MTF2) and specificity protein 1 ( SP1). The significant correlation between SLC31A1, SCO1, and COX11 mRNA levels suggests that this transcriptional upregulation might be part of a coordinated program of gene regulation. Transcript-level upregulation of SLC31A1, SCO1, and COX11 was also confirmed by the analysis of different colon carcinoma cell lines (Caco-2, HT116, HT29) and cancer cell lines of different tissue origin ( MCF7, PC3). Finally, exon-level expression analysis of SLC31A1 reveals differential expression of alternative transcripts in colorectal cancer and normal colonic mucosa. [ABSTRACT FROM AUTHOR]

Published

2016

28. Resistance of Cu(Aβ4-16) to Copper Capture by Metallothionein-3 Supports a Function for the Aβ4-42 Peptide as a Synaptic CuII Scavenger.

Author

Wezynfeld, Nina E., Stefaniak, Ewelina, Stachucy, Kinga, Drozd, Agnieszka, Płonka, Dawid, Drew, Simon C., Krężel, Artur, and Bal, Wojciech

Subjects

*COPPER spectra, *METALLOTHIONEIN, *PEPTIDES, *ALZHEIMER'S disease, *ZINC metabolism, *COPPER metabolism, *NEUROPROTECTIVE agents

Abstract

Aβ4-42 isamajor species of Aβ peptide in the brains of both healthy individuals and those affected by Alzheimer's disease. It has recently been demonstrated to bind CuII with an affinity approximately 3000 times higher than the commonly studied Aβ1-42 and Aβ1-40 peptides, which are implicated in the pathogenesis of Alzheimer's disease. Metallothionein-3, a protein considered to orchestrate copper and zinc metabolism in the brain and provide antioxidant protection, was shown to extract CuII from Aβ1-40 when acting in its native Zn7MT-3 form. This reaction is assumed to underlie the neuroprotective effect of Zn7MT-3 against Aβ toxicity. In this work, we used the truncated model peptides Aβ1-16 and Aβ4- 16 to demonstrate that the high-affinity CuII complex of Aβ4-16 is resistant to Zn7MT-3 reactivity. This indicates that the analogous complex of the full-length peptide Cu(Aβ4-42) will not yield copper to MT-3 in the brain, thus supporting the concept of a physiological role for Aβ4-42 as a CuII scavenger in the synaptic cleft. [ABSTRACT FROM AUTHOR]

Published

2016

29. Possible protective effect of zinc administration on renal and cognitive changes occurring in uninephrectomized adult male Wistar rats.

Author

Basta M, Yassin HA, Aly RG, and El Sayed NS

Subjects

Rats, Male, Adult, Humans, Animals, Rats, Wistar, Zinc pharmacology, Zinc metabolism, Copper metabolism, Copper pharmacology, Kidney metabolism, Nephrectomy methods, Cognition, Brain-Derived Neurotrophic Factor metabolism, Kidney Diseases

Abstract

New Findings: What is the central question of this study? Are renal changes occurring post-nephrectomy accompanied by cognitive changes, and does early administration of zinc supplements such as ZnSO 4 to uninephrectomized rats ameliorate the renal and cognitive changes if present? What is the main finding and its importance? Uninephrectomy-induced renal changes were accompanied by species-atypical behaviour in rats in both Morris water maze and T maze tests, together with hypozincaemia and hippocampal inflammatory and oxidative changes. Early zinc administration to uninephrectomized rats ameliorated the renal, behavioural, hippocampal and serum zinc changes., Abstract: Cognitive impairment is increasingly recognized as an important consequence of kidney disease in humans. Kidney donation is a safe procedure but is known to increase the long-term risk of cardiovascular and kidney disease. Whether kidney donation impairs cognitive function is not known. In the present study, we examined whether the renal changes occurring post-nephrectomy were accompanied by cognitive changes as well, and whether early administration of zinc supplements such as ZnSO 4 to uninephrectomized (UNX) rats could ameliorate the renal and cognitive changes if present. The present study included 30 adult male Wistar rats that were randomly assigned to three groups (n = 10 per group): sham-operated rats, UNX and UNX treated with ZnSO 4 for 20 weeks. Before termination, rats were subjected to 24-h urine collection and behavioural testing with the Morris water maze and T maze tests. UNX induced significant proteinuria, renal functional, fibrotic and oxidative changes, as well as increased renal desmin expression. UNX rats also showed significant behavioural changes indicating spatial learning and memory affection, together with decreased hippocampal brain derived neurotrophic factor (BDNF) and antioxidant capacity, and increased glial fibrillary acidic protein (GFAP), nitric oxide and malondialdehyde. In addition, UNX induced significant hyperglycaemia and dyslipidaemia, as well as significant reduction in serum zinc, copper and selenium. Early administration of ZnSO 4 starting 1 week post-nephrectomy significantly ameliorated renal and behavioural changes, as well as hippocampal oxidative, BDNF and GFAP changes. Additionally, Zn recovered serum changes of triglycerides, cholesterol, zinc and copper. Therefore, early administration of zinc to humans undergoing nephrectomy may be of benefit and should be considered in human trials., (© 2022 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2023

30. Poster Presentations.

Subjects

*RADIOPHARMACEUTICALS, *COPPER metabolism, *APROTININ

Abstract

No abstract is available for this article. [ABSTRACT FROM AUTHOR]

Published

2015

31. Syntheses, Structures and Anticancer Activity of NNO-Tridentate Schiff Base Copper(II) Complexes.

Author

Lin, Rong‐Kai, Hsu, Cho‐Han, Chiu, Chin‐I, Lai, Ying‐Ju, Lai, a Feng‐Jie, Chien, Ching‐Ming, and Lin, Chu‐Chieh

Subjects

*COPPER metabolism, *COPPER analysis, *SCHIFF bases, *HETEROLEPTIC compounds, *ANTIBODY-dependent cell cytotoxicity, *NITRIC oxide synthesis

Abstract

A series of heteroleptic copper(II) complexes [Cu( R QYMP)(Py]] ( 1a- 4d) supported on NNO-tridentate Schiff base ( R QYMP-H) and bipyridine (Py=bpy, a; phen, b; dpq, c; dppz, d) co-ligands have been synthesized and characterized. X-ray crystal structural studies of complexes 1b, 2c, 3d and 4a displays that these complexes are mononuclear with a distorted square pyramidal geometry around the copper center. Cytotoxicity results indicate that all of these complexes have much higher activity against HeLa, SCC15, BCC and Ca9-22 cancer cell lines as compared to cisplatin. Further, copper complex bearing suitable bulky group Schiff base ligands with dppz co-ligand could be considered in designing efficient metalbased anticancer agents. [ABSTRACT FROM AUTHOR]

Published

2014

32. Impaired copper and iron metabolism in blood cells and muscles of patients affected by copper deficiency myeloneuropathy.

Author

Spinazzi, Marco, Sghirlanzoni, Angelo, Salviati, Leonardo, and Angelini, Corrado

Subjects

*IRON metabolism, *COPPER metabolism, *ANEMIA, *COPPER deficiency, *GASTRECTOMY, *FERRITIN

Abstract

Aims Severe copper deficiency leads in humans to a treatable multisystem disease characterized by anaemia and degeneration of spinal cord and nerves, but its mechanisms have not been investigated. We tested whether copper deficit leads to alterations in fundamental copper-dependent proteins and in iron metabolism in blood and muscles of patients affected by copper deficiency myeloneuropathy, and if these metabolic abnormalities are associated with compensatory mechanisms for copper maintenance. Methods We evaluated the expression of critical copper enzymes, of iron-related proteins, and copper chaperones and transporters in blood and muscles from five copper-deficient patients presenting with subacute sensory ataxia, muscle paralysis, liver steatosis and variable anaemia. Severe copper deficiency was caused by chronic zinc intoxication in all of the patients, with an additional history of gastrectomy in two cases. Results The antioxidant enzyme SOD1 and subunit 2 of cytochrome c oxidase were significantly decreased in blood cells and in muscles of copper-deficient patients compared with controls. In muscle, the iron storage protein ferritin was dramatically reduced despite normal serum ferritin, and the expression of the haem-proteins cytochrome c and myoglobin was impaired. Muscle expression of the copper transporter CTR1 and of the copper chaperone CCS, was strikingly increased, while antioxidant protein 1 was diminished. Conclusions copper-dependent enzymes with critical functions in antioxidant defences, in mitochondrial energy production, and in iron metabolism are affected in blood and muscles of patients with profound copper deficiency leading to myeloneuropathy. Homeostatic mechanisms are strongly activated to increase intracellular copper retention. [ABSTRACT FROM AUTHOR]

Published

2014

33. The Copper Balance of Cities.

Author

Kral, Ulrich, Lin, Chih‐Yi, Kellner, Katharina, Ma, Hwong‐wen, and Brunner, Paul H.

Subjects

*MATERIALS management, *EMISSIONS (Air pollution), *ENVIRONMENTAL protection, *COPPER metabolism

Abstract

Material management faces a dual challenge: on the one hand satisfying large and increasing demands for goods and on the other hand accommodating wastes and emissions in sinks. Hence, the characterization of material flows and stocks is relevant for both improving resource efficiency and environmental protection. This article focuses on the urban scale, a dimension rarely investigated in past metal flow studies. We compare the copper (Cu) metabolism of two cities in different economic states, namely, Vienna (Europe) and Taipei (Asia). Substance flow analysis is used to calculate urban Cu balances in a comprehensive and transparent form. The main difference between Cu in the two cities appears to be the stock: Vienna seems close to saturation with 180 kilograms per capita (kg/cap) and a growth rate of 2% per year. In contrast, the Taipei stock of 30 kg/cap grows rapidly by 26% per year. Even though most Cu is recycled in both cities, bottom ash from municipal solid waste incineration represents an unused Cu potential accounting for 1% to 5% of annual demand. Nonpoint emissions are predominant; up to 50% of the loadings into the sewer system are from nonpoint sources. The results of this research are instrumental for the design of the Cu metabolism in each city. The outcomes serve as a base for identification and recovery of recyclables as well as for directing nonrecyclables to appropriate sinks, avoiding sensitive environmental pathways. The methodology applied is well suited for city benchmarking if sufficient data are available. [ABSTRACT FROM AUTHOR]

Published

2014

34. Positron emission tomography for measurement of copper fluxes in live organisms.

Author

Peng, Fangyu

Subjects

*POSITRON emission tomography, *COPPER isotopes, *RADIOACTIVE tracers, *COPPER metabolism disorders, *COPPER in the body, *LABORATORY mice

Abstract

Copper is an essential nutrient for the physiology of live organisms, but excessive copper can be harmful. Copper radioisotopes are used for measurement of copper fluxes in live organisms using a radioactivity assay of body fluids or whole-body positron emission tomography (PET). Hybrid positron emission tomography-computed tomography (PET/CT) is a versatile tool for real-time measurement of copper fluxes combining the high sensitivity and quantification capability of PET and the superior spatial resolution of CT for anatomic localization of radioactive tracer activity. Kinetic analysis of copper metabolism in the liver and extrahepatic tissues of Atp7b−/− knockout mice, a mouse model of Wilson's disease, demonstrated the feasibility of measuring copper fluxes in live organisms with PET/CT using copper-64 chloride (64CuCl2) as a radioactive tracer (64CuCl2-PET/CT). 64CuCl2-PET/CT holds potential as a useful tool for the diagnosis of inherited and acquired human copper metabolism disorders and for monitoring the effects of copper-modulating therapy. [ABSTRACT FROM AUTHOR]

Published

2014

35. Radiocopper for the imaging of copper metabolism.

Author

Hueting, Rebekka

Subjects

*COPPER metabolism, *TRANSITION metals, *OXIDATION-reduction reaction, *TRACE elements, *POSITRON emission tomography

Abstract

The redox-active transition metal copper is an essential trace element for growth and development and serves as a structural or catalytic cofactor for many enzymes in a range of physiological processes. Mammalian copper homeostasis is tightly regulated, and an imbalance in copper metabolism is implicated in various pathological disorders. Radioactive copper isotopes, in particular 64Cu ( t1/2 = 12.7 h) and 67Cu ( t1/2 = 62.01 h), have made important contributions to the understanding of copper metabolism in health and disease. This review gives a brief account of how radiolabelled copper(II) salts and bioreductive copper complexes have been used to trace copper uptake, transport and efflux in vitro and in vivo. Recently, positron emission tomography (PET) has emerged as a noninvasive tool to image copper metabolism in living subjects and 64Cu-PET is investigated for the study of copper-related neurological disorders, genetic diseases and cancer. Copyright © 2014 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

36. Recent developments in PET and SPECT imaging.

Author

Pascu, Sofia and Dilworth, Jon

Subjects

*POSITRON emission tomography, *CARBONYLATION, *COPPER metabolism

Abstract

An introduction is presented in which the editors discussed various reports within the issue on topics including positron emission tomography, rhodium-mediated carbonylation, and copper metabolism.

Published

2014

37. Compliant treatment with anti-copper agents prevents clinically overt Wilson's disease in pre-symptomatic patients.

Author

Dzieżyc, K., Karliński, M., Litwin, T., and Członkowska, A.

Subjects

*HEPATOLENTICULAR degeneration, *COPPER metabolism, *PATIENT compliance, *ZINC sulfate, *PENICILLAMINE, *ANTIARTHRITIC agents, *KAPLAN-Meier estimator

Abstract

Background and purpose Wilson's disease ( WD) is an inherited copper metabolism disorder that leads to dysfunction of affected tissues, mostly in the liver and brain. Anti-copper treatment should prevent clinically overt WD in pre-symptomatic patients but this has not been supported by strong evidence. Our aim was to evaluate the long-term effectiveness of treatment in clinically pre-symptomatic patients, with particular emphasis on patient compliance with treatment. Methods Data were analyzed for 87 consecutive patients with no clinical symptoms of WD who were identified between 1957 and 2009 by family screening. All of them since diagnosis were treated with either zinc sulphate ( Zn) (66.7%) or D-penicillamine ( DPA) (33.3%). Results During a median follow-up of 12 years (range 3-52), 55 (63%) patients remained without clinical symptoms, 13 (15%) developed neuropsychiatric symptoms and 21 (24%) developed hepatic dysfunction, including five deaths from hepatic failure. Non-compliance for at least three consecutive months was observed in 39 patients, and in 29 cases this extended for more than 12 months. Multivariate analysis showed that the odds of developing symptomatic WD were independently increased by non-compliance (odds ratio 24.0, 95% confidence interval 6.0-99.0). According to Kaplan- Meier analysis patients who were compliant to treatment had a significantly higher likelihood of remaining symptom-free, and their overall survival was similar to the survival rate observed in the general population. Conclusion The use of anti-copper agents in clinically pre-symptomatic patients diagnosed with WD allows clinically overt disease to be effectively prevented. However, compliance with therapy is extremely important. [ABSTRACT FROM AUTHOR]

Published

2014

38. Copper chaperones. The concept of conformational control in the metabolism of copper.

Author

Palumaa, Peep

Subjects

*MOLECULAR chaperones, *CONFORMATIONAL analysis, *COPPER metabolism, *OLIGOMERS, *OXIDATION-reduction reaction, *COPPER proteins

Abstract

Abstract: Copper chaperones compose a specific class of proteins assuring safe handling and specific delivery of potentially harmful copper ions to a variety of essential copper proteins. Copper chaperones are structurally heterogeneous and can exist in multiple metal-loaded as well as oligomeric forms. Moreover, many copper chaperones can exist in various oxidative states and participate in redox catalysis, connected with their functioning. This review is focused on the analysis of the structural and functional properties of copper chaperones and their partners, which allowed us to define specific regulatory principles in copper metabolism connected with copper-induced conformational control of copper proteins. [Copyright &y& Elsevier]

Published

2013

39. Evaluation of effects of copper histidine on copper transporter 1-mediated accumulation of platinum and oxaliplatin-induced neurotoxicity in vitro and in vivo.

Author

Ip, Virginia, Liu, Johnson J, and McKeage, Mark J

Subjects

*HISTIDINE, *COPPER in the body, *BIOACCUMULATION, *PLATINUM, *OXALIPLATIN, *NEUROTOXICOLOGY, *CANCER chemotherapy, *COPPER metabolism

Abstract

The purpose of the present study was to determine whether copper histidine could inhibit copper transporter 1 (Ctr1)-mediated transport of oxaliplatin in vitro and thereby limit the accumulation of platinum and neurotoxicity of oxaliplatin in dorsal root ganglion (DRG) tissue in vivo., In HEK293 cells overexpressing rat Ctr1, copper histidine was shown to be transported by Ctr1 and to inhibit their Ctr1-mediated uptake of oxaliplatin., Pilot in vivo dose-finding studies showed that copper histidine at doses up to 2 mg/kg, p.o., daily for 5 days/week could be added to maximum tolerated doses of oxaliplatin (1.85 mg/kg, i.p., twice weekly) for 8 week combination treatment studies in female Wistar rats., After treatment, rats showed significant changes in sensory neuron size profiles in DRG tissue induced by oxaliplatin that were not altered by its coadministration with copper histidine., The expression of copper transporters (Ctr1 and copper-transporting P-type ATPase 1 (Atp7a)) in DRG tissue appeared unchanged following treatment with oxaliplatin given alone or with copper histidine., Platinum and copper tissue levels were higher in DRG than in most other tissues, but were unaltered by the addition of copper histidine to oxaliplatin treatment., In conclusion, copper histidine inhibited cellular uptake of oxaliplatin mediated by Ctr1 in vitro without altering the accumulation of platinum or neurotoxicity of oxaliplatin in DRG tissue in vivo at doses tolerated in combination with oxaliplatin treatment. [ABSTRACT FROM AUTHOR]

Published

2013

40. Effects of Copper and/or Cholesterol Overload on Mitochondrial Function in a Rat Model of Incipient Neurodegeneration.

Author

Arnal, Nathalie, Castillo, Omar, de Alaniz, María J. T., and Marra, Carlos A.

Subjects

*COPPER metabolism, *MITOCHONDRIAL physiology, *CHOLESTEROL metabolism, *ANIMAL experimentation, *BIOLOGICAL models, *NEURODEGENERATION, *RATS, *RESEARCH funding, *STATISTICS, *DATA analysis, *DATA analysis software, *DESCRIPTIVE statistics

Abstract

Copper (Cu) and cholesterol (Cho) are both associated with neurodegenerative illnesses in humans and animalsmodels.We studied the effect in Wistar rats of oral supplementation with trace amounts of Cu (3 ppm) and/or Cho (2%) in drinking water for 2 months. Increased amounts of nonceruloplasmin-bound Cu were observed in plasma and brain hippocampus together with a higher concentration of ceruloplasmin in plasma, cortex, and hippocampus. Cu, Cho, and the combined treatment Cu + Cho were able to induce a higher Cho/phospholipid ratio in mitochondrial membranes with a simultaneous decrease in glutathione content. The concentration of cardiolipin decreased and that of peroxidation products, conjugated dienes and lipoperoxides, increased. Treatments including Cho produced rigidization in both the outer and inner mitochondrial membranes with a simultaneous increase in permeability. No significant increase in Cyt C leakage to the cytosol was observed except in the case of cortex from rats treated with Cu and Cho nor were there any significant changes in caspase-3 activity and the Bax/Bcl2 ratio. However, the Aβ(1- 42)/(1-40) ratio was higher in cortex and hippocampus. These findings suggest an incipient neurodegenerative process induced by Cu or Cho that might be potentiated by the association of the two supplements. [ABSTRACT FROM AUTHOR]

Published

2013

41. Sensorimotor Cortex Reorganization in Alzheimer's Disease and Metal Dysfunction: A MEG Study.

Author

Salustri, C., Tecchio, F., Zappasodi, F., Tomasevic, L., Ercolani, M., Moffa, F., Cassetta, E., Rossini, P. M., and Squitti, R.

Subjects

*COPPER metabolism, *ALZHEIMER'S disease, *ANALYSIS of variance, *GOODNESS-of-fit tests, *MAGNETIC resonance imaging, *MAGNETICS, *NEUROPLASTICITY, *RESEARCH funding, *STATISTICAL power analysis, *REPEATED measures design, *CASE-control method, *DESCRIPTIVE statistics

Abstract

Objective. To verify whether systemic biometals dysfunctions affect neurotransmission in living Alzheimer's disease (AD) patients. Methods. We performed a case-control study using magnetoencephalography to detect sensorimotor fields of AD patients, at rest and during median nerve stimulation. We analyzed position and amount of neurons synchronously activated by the stimulation in both hemispheres to investigate the capability of the primary somatosensory cortex to reorganize its circuitry disrupted by the disease. We also assessed systemic levels of copper, ceruloplasmin, non-Cp copper (i.e., copper not bound to ceruloplasmin), peroxides, transferrin, and total antioxidant capacity. Results. Patients' sensorimotor generators appeared spatially shifted, despite no change of latency and strength, while spontaneous activity sources appeared unchanged. Neuronal reorganization was greater in moderately ill patients, while delta activity increased in severe patients. Non-Cp copper was the only biological variable appearing to be associated with patient sensorimotor transmission. Conclusions. Our data strengthen the notion that non-Cp copper, not copper in general, affects neuronal activity in AD. Significance.High plasticity in the disease early stages in regions controlling more commonly used body parts strengthens the notion that physical and cognitive activities are protective factors against progression of dementia. [ABSTRACT FROM AUTHOR]

Published

2013

42. Decreased Copper in Alzheimer's Disease Brain Is Predominantly in the Soluble Extractable Fraction.

Author

Rembach, Alan, Hare, Dominic J., Lind, Monica, Fowler, Christopher J., Cherny, Robert A., McLean, Catriona, Bush, Ashley I., Masters, Colin L., and Roberts, Blaine R.

Subjects

*COPPER metabolism, *ALZHEIMER'S disease, *ANALYSIS of variance, *RESEARCH funding, *STATISTICS, *DATA analysis, *DATA analysis software, *DESCRIPTIVE statistics

Abstract

Alzheimer's disease (AD) is the leading cause of dementia and represents a significant burden on the global economy and society. The role of transition metals, in particular copper (Cu), in AD has become of significant interest due to the dyshomeostasis of these essential elements, which can impart profound effects on cell viability and neuronal function. We tested the hypothesis that there is a systemic perturbation in Cu compartmentalization in AD, within the brain as well as in the periphery, specifically within erythrocytes. Our results showed that the previously reported decrease in Cu within the human frontal cortex was confined to the soluble (P < 0.05) and total homogenate (P < 0.05) fractions. No differences were observed in Cu concentration in erythrocytes. Our data indicate that there is a brain specific alteration in Cu levels in AD localized to the soluble extracted material, which is not reflected in erythrocytes. Further studies using metalloproteomics approaches will be able to elucidate the metabolicmechanism(s) that results in the decreased brain Cu levels during the progression of AD. [ABSTRACT FROM AUTHOR]

Published

2013

43. Iron metabolism and the role of HFE gene polymorphisms in Wilson disease.

Author

Pfeiffenberger, Jan, Gotthardt, Daniel N., Herrmann, Thomas, Seeßle, Jessica, Merle, Uta, Schirmacher, Peter, Stremmel, Wolfgang, and Weiss, Karl Heinz

Subjects

*GENETIC disorders, *COPPER metabolism, *NEUROBEHAVIORAL disorders, *GENETIC polymorphisms, *MEDICAL research

Abstract

Wilson disease ( WD) is a rare inherited disorder of copper metabolism, which can lead to severe liver failure and to a variety of neuropsychiatric symptoms. Previous animal studies and case reports suggest that hepatic iron overload and alterations in iron processing are associated with WD. The aim of this study was the assessment of iron metabolism and of the frequency of the most common HFE gene polymorphisms in WD patients. Patients and methods Data from 143 patients with WD were analysed. Clinical presentation, liver function and iron metabolism parameters were recorded. Blood samples of the patients were analysed for HFE gene alterations (H63D; C282Y). Twenty-seven liver biopsies of these patients were studied with regard to iron content and fibrosis score. Results Contrary to previous reports of HFE gene polymorphisms in WD patients, in our cohort the allele frequencies (C282Y: 2.1%; H63D: 7.3%) were in line with frequencies obtained for general population. Male WD patients with decreased serum ceruloplasmin ( Cp), showed increased serum ferritin levels. Hepatic iron content was normal in most cases. Discussion Male patients with very low Cp serum concentrations showed slightly elevated median serum ferritin concentrations, probably related to lack of ferroxidase acitivity. However, in consideration of absolute numbers of ferritin concentrations, these changes seem to be of minor clinical relevance. [ABSTRACT FROM AUTHOR]

Published

2012

44. Copper incorporation into ceruloplasmin is regulated by Niemann-Pick C1 protein.

Author

Yanagimoto, Chikatoshi, Harada, Masaru, Kumemura, Hiroto, Abe, Mitsuhiko, Koga, Hironori, Sakata, Masahiro, Kawaguchi, Takumi, Terada, Kunihiko, Hanada, Shinichiro, Taniguchi, Eitaro, Ninomiya, Haruaki, Ueno, Takato, Sugiyama, Toshihiro, and Sata, Michio

Subjects

*COPPER metabolism, *CERULOPLASMIN, *NIEMANN-Pick diseases, *ADENOSINE triphosphatase, *ENDOSOMES, *LIVER cells, *ALBUMINS, *GENE expression

Abstract

Wilson disease is a genetic disorder of copper metabolism characterized by impaired biliary copper excretion. Wilson disease gene product (ATP7B) functions in copper incorporation to ceruloplasmin (Cp) and biliary copper excretion. Our previous study showed the late endosome localization of ATP7B and described the copper transport pathway from the late endosome to trans-Golgi network (TGN). However, the cellular localization of ATP7B and copper metabolism in hepatocytes remains controversial. The present study was performed to evaluate the role of Niemann-Pick type C (NPC) gene product NPC1 on intracellular copper transport in hepatocytes. We induced the NPC phenotype using U18666A to modulate the vesicle traffic from the late endosome to TGN. Then, we examined the effect of NPC1 overexpression on the localization of ATP7B and secretion of holo-Cp, a copper-binding mature form of Cp. Overexpression of NPC1 increased holo-Cp secretion to culture medium of U18666A-treated cells, but did not affect the secretion of albumin. Manipulation of NPC1 function affected the localization of ATP7B and late endosome markers, but did not change the localization of a TGN marker. ATP7B co-localized with the late endosome markers, but not with the TGN marker. These findings suggest that ATP7B localizes in the late endosomes and that copper in the late endosomes is transported to the secretory compartment via an NPC1-dependent pathway and incorporated into Cp. [ABSTRACT FROM AUTHOR]

Published

2011

45. Association between the c. 2495 A>G ATP7B Polymorphism and Sporadic Alzheimer's Disease.

Author

Bucossi, Serena, Mariani, Stefania, Ventriglia, Mariacarla, Polimanti, Renato, Gennarelli, Massimo, Bonvicini, Cristian, Pasqualetti, Patrizio, Scrascia, Federica, Migliore, Simone, Vernieri, Fabrizio, Rossini, PaoloM., and Squitti, Rosanna

Subjects

*GENETICS of Alzheimer's disease, *COPPER metabolism, *CHI-squared test, *CONFIDENCE intervals, *EPIDEMIOLOGY, *GENETIC polymorphisms, *GENETIC techniques, *POLYMERASE chain reaction, *RESEARCH funding, *T-test (Statistics), *DATA analysis, *CASE-control method, *DATA analysis software, *DESCRIPTIVE statistics

Abstract

Nonceruloplasmin-bound copper ("free") is reported to be elevated in Alzheimer's disease (AD). In Wilson's disease (WD) Cu- ATPase 7B protein tightly controls free copper body levels. To explore whether the ATP7B gene harbours susceptibility loci for AD, we screened 180 AD chromosomes for sequence changes in exons 2, 5, 8, 10, 14, and 16, where most of the Mediterranean WD causing mutations lie. No WD mutation, but sequence changes corresponding to c.1216 T>G Single-Nucleotide Polymorphism (SNP) and c.2495 A>G SNP were found. Thereafter, we genotyped 190 AD patients and 164 controls for these SNPs frequencies estimation. Logistic regression analyses revealed either a trend for the c.1216 SNP (P = .074) or a higher frequency for c.2495 SNP of the GG genotype in patients, increasing the probability of AD by 74%(P = .028). Presence of the GG genotype in ATP7B c.2495 could account for copper dysfunction in AD which has been shown to raise the probability of the disease. [ABSTRACT FROM AUTHOR]

Published

2011

46. Copper Inhibits NMDA Receptor-Independent LTP and Modulates the Paired-Pulse Ratio after LTP in Mouse Hippocampal Slices.

Author

Salazar-Weber, Nina L. and Smith, Jeffrey P.

Subjects

*COPPER metabolism, *HIPPOCAMPUS physiology, *ANIMAL experimentation, *BIOLOGICAL models, *CELL receptors, *ELECTROPHYSIOLOGY, *MICE, *RESEARCH funding

Abstract

Copper misregulation has been implicated in the pathological processes underlying deterioration of learning and memory in Alzheimer's disease and other neurodegenerative disorders. Supporting this, inhibition of long-term potentiation (LTP) by copper (II) has been well established, but the exact mechanism is poorly characterized. It is thought that an interaction between copper and postsynaptic NMDA receptors is a major part of the mechanism; however, in this study, we found that copper (II) inhibited NMDA receptor-independent LTP in the CA3 region of hippocampal slices. In addition, in the CA3 and CA1 regions, copper modulated the paired-pulse ratio (PPR) in an LTP-dependent manner. Combined, this suggests the involvement of a presynaptic mechanism in the modulation of synaptic plasticity by copper. Inhibition of the copper-dependent changes in the PPR with cyclothiazide suggested that this may involve an interaction with the presynaptic AMPA receptors that regulate neurotransmitter release. [ABSTRACT FROM AUTHOR]

Published

2011

47. Iron and Mechanisms of Neurotoxicity.

Author

Salvador, Gabriela A., Uranga, Romina M., and Giusto, Norma M.

Subjects

*COPPER metabolism, *IRON metabolism, *NEURAL physiology, *PROTEIN metabolism, *AGING, *ALZHEIMER'S disease, *BRAIN, *CELLULAR signal transduction, *IRON, *NEURODEGENERATION, *NEUROLOGICAL disorders, *PARKINSON'S disease, *ZINC, *OXIDATIVE stress

Abstract

The accumulation of transition metals (e.g., copper, zinc, and iron) and the dysregulation of their metabolism are a hallmark in the pathogenesis of several neurodegenerative diseases. This paper will be focused on the mechanism of neurotoxicity mediated by iron. This metal progressively accumulates in the brain both during normal aging and neurodegenerative processes. High iron concentrations in the brain have been consistently observed in Alzheimer's (AD) and Parkinson's (PD) diseases. In this connection, metalloneurobiology has become extremely important in establishing the role of iron in the onset and progression of neurodegenerative diseases. Neurons have developed several protective mechanisms against oxidative stress, among them, the activation of cellular signaling pathways. The final response will depend on the identity, intensity, and persistence of the oxidative insult. The characterization of the mechanisms mediating the effects of iron-induced increase in neuronal dysfunction and death is central to understanding the pathology of a number of neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published

2011

48. The Cellular Prion Protein Prevents Copper-Induced Inhibition of P2X4 Receptors.

Author

Lorca, Ramón A., Varela-Nallar, Lorena, Inestrosa, Nibaldo C., and Huidobro-Toro, J. Pablo

Subjects

*COPPER metabolism, *PROTEIN metabolism, *ANIMAL experimentation, *ANURA, *BIOLOGICAL models, *CELL receptors, *PRION diseases, *PRIONS, *RESEARCH funding, *T-test (Statistics), *U-statistics, *DATA analysis software

Abstract

Although the physiological function of the cellular prion protein (PrPC) remains unknown, several evidences support the notion of its role in copper homeostasis. PrPC binds Cu2+ through a domain composed by four to five repeats of eight amino acids. Previously, we have shown that the perfusion of this domain prevents and reverses the inhibition by Cu2+ of the adenosine triphosphate (ATP)- evoked currents in the P2X4 receptor subtype, highlighting amodulatory role for PrPC in synaptic transmission through regulation of Cu2+ levels. Here, we study the effect of full-length PrPC in Cu2+ inhibition of P2X4 receptor when both are coexpressed. PrPC expression does not significantly change the ATP concentration-response curve in oocytes expressing P2X4 receptors. However, the presence of PrPC reduces the inhibition by Cu2+ of the ATP-elicited currents in these oocytes, confirming our previous observations with the Cu2+ binding domain. Thus, our observations suggest a role for PrPC in modulating synaptic activity through binding of extracellular Cu2+. [ABSTRACT FROM AUTHOR]

Published

2011

49. On the Involvement of Copper Binding to the N-Terminus of the Amyloid Beta Peptide of Alzheimer's Disease: A Computational Study on Model Systems.

Author

Azimi, Samira and Rauk, Arvi

Subjects

*COPPER metabolism, *PROTEIN metabolism, *ALZHEIMER'S disease, *COMPUTER simulation, *MATHEMATICAL models, *RESEARCH funding, *THEORY

Abstract

Density functional and second order Moller-Plesset perturbation theoretical methods, coupled with a polarizable continuum model of water, were applied to determine the structures, binding affinities, and reduction potentials of Cu(II) and Cu(I) bound to models of the Asp1, Ala2, His6, and His13His14 regions of the amyloid beta peptide of Alzheimer's disease. The results indicate that the N-terminal Asp binds to Cu(II) together with His6 and either His13 or His14 to form the lower pH Component I of Aβ. Component II of Aβ is the complex between Cu(II) and His6, His13, and His14, to which an amide O (of Ala2) is also coordinated. Asp1 does not bind to Cu(II) if three His residues are attached nor to any Cu(I) species to which one or more His residues are bound. The most stable Cu(I) species is one in which Cu(I) bridges the Nδ of His13 and His14 in a linear fashion. Cu(I) binds more strongly to Aβ than does Cu(II). The computed reduction potential that closely matches the experimental value for Cu(II)/Aβ corresponds to reduction of Component II (without Ala2) to the Cu(I) complex after endergonic attachment of His6. [ABSTRACT FROM AUTHOR]

Published

2011

50. Correlation of Copper Interaction, Copper-Driven Aggregation, and Copper-Driven H2O2 Formation with Aβ40 Conformation.

Author

Chia-Anne Yang, Yung-Han Chen, Shyue-Chu Ke, Yi-Ru Chen, Hsien-Bin Huang, Ta-Hsien Lin, and Yi-Cheng Chen

Subjects

*COPPER metabolism, *PROTEIN metabolism, *ALZHEIMER'S disease, *BIOPHYSICS, *HYDROGEN peroxide, *RESEARCH methodology, *RESEARCH funding, *SPECTRUM analysis

Abstract

The neurotoxicity of Aβ is associated with the formation of free radical by interacting with redox active metals such as Cu2+. However, the relationship between ion-interaction, ion-driven free radical formation, and Aβ conformation remains to be further elucidated. In the present study, we investigated the correlation of Cu2+ interaction and Cu2+-driven free radical formation with Aβ40 conformation. The Cu2+-binding affinity for Aβ40 in random coiled form is 3-fold higher than that in stable helical form. Unexpectedly but interestingly, we demonstrate in the first time that the stable helical form of Aβ40 can induce the formation of H2O2 by interacting with Cu2+. On the other hand, the H2O2 generation is repressed at Aβ/Cu2+ molar ratio 1 when Aβ40 adopts random coiled structure. Taken together, our result demonstrates that Aβ40 adopted a helical structure that may play a key factor for the formation of free radical with Cu2+ ions. [ABSTRACT FROM AUTHOR]

Published

2011