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Target Concepts:
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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
HFE mutations have traditionally been associated with the iron overload disorder known as
hemochromatosis
. Recently, it has become clear that the two most common mutations in the HFE gene, H63D and C282Y, may be genetic modifiers for risk of neurodegenerative disorders and cancer, respectively. We developed human
neuroblastoma
stable cell lines that express either wild-type (WT) or mutant HFE to determine the cellular consequences of the mutant forms of HFE. The presence of the C282Y mutation was associated with relatively higher labile iron pool and iron regulatory protein activity than WT or H63D HFE. Targeted gene arrays revealed that the signal transduction pathway was up-regulated in the C282Y cells. H63D cells had higher levels of lipid peroxidation, protein oxidation, and lower mitochondrial membrane potential, suggesting higher baseline stress. This cell line was also more vulnerable to exposure to oxidative stress agents and more responsive to iron chelation than the C282Y cells. These data demonstrate that the different mutations in the HFE gene have unique effects on the cells and provide insights into how the different mutations may have different clinical consequences. The results also raise multiple novel questions for future study about the function of the HFE protein.
...
PMID:Consequences of expressing mutants of the hemochromatosis gene (HFE) into a human neuronal cell line lacking endogenous HFE. 1719 93
The H63D variant of the
hemochromatosis
(HFE) gene, when expressed in carriers of the apolipoprotein E4 allele, is implicated as a risk factor for earlier onset of Alzheimer's disease (AD). We tested the hypothesis that like expression of apolipoprotein E4, expression of H63D-HFE disrupts cholesterol metabolism contributing to an increase in neurodegeneration and memory deficits. Analysis of SH-SY5Y human
neuroblastoma
cells transfected to stably express either wild type- (WT) or H63D-HFE indicated about a 50% reduction in cholesterol content in cells expressing H63D-HFE. This was accompanied by a significant decrease in expression of 3-hydroxy-3-methyl-glutaryl-CoA reductase, and a significant increase in expression of cholesterol 24-hydroxylase. Consistent with these studies, H67D-HFE (orthologous to human H63D-HFE) knock-in mice, showed a greater age dependent decline in brain cholesterol than WT-HFE animals and changes in expression of proteins regulating cholesterol metabolism. Brains of aged H67D-HFE mice also exhibited a significant decrease in expression of synapse proteins and a significant increase in caspase-3 expression relative to WT-HFE controls. H67D-HFE mice also had a greater reduction in brain volume and poorer recognition and spatial memory than WT-HFE mice, symptoms associated with AD. These results indicate that the alterations in cholesterol metabolism associated with expression of H63D-HFE may contribute to the development of AD.
...
PMID:H63D mutation in hemochromatosis alters cholesterol metabolism and induces memory impairment. 2443 78
Neuroblastoma
is the third most common childhood cancer, and timely diagnosis and sensitive therapeutic monitoring remain major challenges. Tumor progression and recurrence is common with little understanding of mechanisms. A major recent focus in cancer biology is the impact of exosomes on metastatic behavior and the tumor microenvironment. Exosomes have been demonstrated to contribute to the oncogenic effect on the surrounding tumor environment and also mediate resistance to therapy. The effect of genotype on exosomal phenotype has not yet been explored. We interrogated exosomes from human
neuroblastoma
cells that express wild-type or mutant forms of the HFE gene. HFE, one of the most common autosomal recessive polymorphisms in the Caucasian population, originally associated with
hemochromatosis
, has also been associated with increased tumor burden, therapeutic resistance boost, and negative impact on patient survival. Herein, we demonstrate that changes in genotype cause major differences in the molecular and functional properties of exosomes; specifically, HFE mutant derived exosomes have increased expression of proteins relating to invasion, angiogenesis, and cancer therapeutic resistance. HFE mutant derived exosomes were also shown to transfer this cargo to recipient cells and cause an increased oncogenic functionality in those recipient cells.
...
PMID:HFE genotype affects exosome phenotype in cancer. 2852 94
