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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cerebrospinal fluid (CSF)
ferritin
was measured in patients with benign inflammatory and noninflammatory
neurologic disorders
and in patients with malignant disease with and without documented central nervous system (CNS) involvement. CSF
ferritin
levels were increased in the majority of patients with inflammatory neurologic disease and in patients with malignant involvement of the CNS. In contrast, in patients with noninflammatory
neurologic disorders
and in malignant disease without CNS involvement, CSF
ferritin
levels were normal. These findings indicate that although the specificity of CSF
ferritin
measurement is limited, it is a highly sensitive test that may be useful in the initial evaluation of patients with malignant CNS involvement, and in assessing their response to therapy.
...
PMID:Cerebrospinal fluid ferritin in malignant CNS involvement. 374 59
To evaluate the potential diagnostic value of the
ferritin
concentration in cerebrospinal fluid (CSF), measurements were performed with an immunoradiometric assay in 23 control patients and in 65 patients with various
neurologic disorders
. The geometric mean
ferritin
level of 3.5 micrograms/L in controls was approximately 10% of the level in normal serum with an upper cutoff level of 10 micrograms/L. Only modest elevations in CSF
ferritin
concentration were observed in patients with viral meningitis and in those with various non-infectious
neurologic disorders
. On the other hand, marked elevations ranging between 27 and 322 micrograms/L (geometric mean, 90 micrograms/L) were observed in patients with bacterial or fungal meningitis. Results of the study indicate that CSF
ferritin
levels are a valuable adjunct in the early evaluation of patients presenting with meningism.
...
PMID:Cerebrospinal fluid ferritin levels in screening for meningism. 377 61
Ferritin is the major iron storage protein and accounts for the majority of the iron in the brain. Thus,
ferritin
is a key component in protecting the brain from iron induced oxidative damage. The high lipid content, high rate of oxidative metabolism, and high iron content combine to make the brain the organ most susceptible to oxidative stress. The role of oxidative damage and disruption of brain iron homeostasis is considered clinically important to normal aging and a potential pathogenic component of a number of
neurologic disorders
including Alzheimer's disease and Parkinson's disease. Little is known, however, of the mechanism by which the brain maintains iron homeostasis at either the whole organ or cellular level. In this study we report the cellular distribution of the two isoforms of
ferritin
in the brain of adult subhuman primates. A subset of neurons immunolabel specifically for the H-chain
ferritin
protein, whereas cells resembling microglia are immunolabeled only after exposure to the L-chain
ferritin
antibody. Only one cell type immunostains for both H- and L-chain
ferritin
; these cells are morphologically similar and have the same distribution pattern as oligodendrocytes. Neither
ferritin
isoform is usually detected in astrocytes. These data indicate considerable differences in iron sequestration and use between neurons and glia and among neuronal and glial subtypes. This information will be essential in determining the role of each of these cells in maintaining general brain iron homeostasis and the relative abilities of these cells to withstand oxidative stress.
...
PMID:Isoforms of ferritin have a specific cellular distribution in the brain. 802 70
Iron imbalances in the brain, including excess accumulation and deficiency, are associated with
neurological disease
and dysfunction; yet, their origins are poorly understood. Using systems genetics analysis, we have learned that large individual differences exist in brain iron concentrations, even in the absence of
neurological disease
. Much of the individual differences can be tied to the genetic makeup of the individual. This genetic-based differential regulation can be modeled in genetic reference populations of rodents. The work in our laboratory centers on iron regulation in the brain and our animal model consists of 25 BXD/Ty recombinant inbred mouse strains. By studying naturally occurring variation in iron phenotypes, such as tissue iron concentration, we can tie that variability to one or more genes by way of quantitative trait loci (QTL) analysis. Moreover, we can conduct genetic correlation analyses between our phenotypes and others previously measured in the BXD/Ty strains. We have observed several suggestive QTL related to ventral midbrain iron content, including one on chromosome 17 that contains btbd9, a gene that in humans has been associated with restless legs syndrome and serum
ferritin
. We have also observed gene expression correlations with ventral midbrain iron, including btbd9 expression and dopamine receptor expression. In addition, we have observed significant correlations between ventral midbrain iron content and dopamine-related phenotypes. The following is a discussion of iron regulation in the brain and the contributions a systems genetics approach can make toward understanding the genetic underpinnings and relation to
neurological disease
.
...
PMID:Systems genetics analysis of iron regulation in the brain. 1939 85
Our objective was to measure serum
ferritin
levels, which reflect iron metabolism, in ALS patients versus healthy and disease controls, and determine whether serum
ferritin
levels correlate with survival. We retrospectively analyzed data from 138 ALS patients, 152 healthy controls, and 82 disease controls. Gender, age, site of onset, and dates of symptom onset and death were recorded. Survival was defined as the time from symptom onset to death. Serum
ferritin
levels were measured using immunoassay. ANOVA and Pearson's correlation were used to compare
ferritin
levels between groups and test the association between
ferritin
levels and age and survival. Ferritin levels were categorized into high and low groups, and Kaplan-Meier analysis performed. Results showed that gender proportions differed between ALS patients versus healthy and disease controls, and gender affected serum
ferritin
levels. Ferritin comparisons were stratified for gender. In both males and females,
ferritin
levels were higher in ALS patients versus healthy and disease controls. However,
ferritin
levels were unrelated to survival in either gender, by tests of association or survival analysis. In conclusion, ALS patients have altered iron metabolism that is not simply due to the presence of
neurological disease
. Serum
ferritin
levels alone are not sufficient to predict survival.
...
PMID:Serum ferritin is elevated in amyotrophic lateral sclerosis patients. 2552 51
Restless legs syndrome is a sleep-related sensorimotor
neurological disease
affecting up to 10% of the population. Genetic analyses have identified Myeloid Ecotropic viral Integration Site 1 (MEIS1), a transcriptional regulator, to be associated with not only the restless legs syndrome but also self-reported symptoms of insomnia and sleep. This study is to determine if Meis1 deficiency in mice can lead to restless legs syndrome-like phenotypes, and if it is the case, what the underlying mechanisms are. We used two genetic model systems, Caenorhabditis elegans and mice. Egg retention assay and fluorescent reporters were used with C. elegans. For mice, we performed behavioral tests, serum and brain iron detection, qRT-PCR, western blot, immunohistochemistry, and in vitro brain-slice recording. Our results showed that with C. elegans, the function of dop-3, an orthologue of DRD2, was diminished after the knockdown of unc-62, an ortholog of MEIS1. Additionally, unc-62 knockdown led to enhanced transcription of the orthologue of tyrosine hydroxylase, cat-2. Meis1 knockout mice were hyperactive and had a rest-phase-specific increased probability of waking. Moreover, Meis1 knockout mice had increased serum
ferritin
and altered striatal dopaminergic and cholinergic systems. Specifically, Meis1 knockout mice showed an increased mRNA level but decreased protein level of tyrosine hydroxylase in the striatum. Furthermore, Meis1 knockout mice had increased striatal dopamine turnover and decreased spontaneous firing regularity of striatal cholinergic interneurons. Our data suggest that Meis1 knockout mice have restless legs syndrome-like motor restlessness and changes in serum
ferritin
levels. The symptoms may be related to dysfunctional dopaminergic and cholinergic systems.
...
PMID:Deficiency of Meis1, a transcriptional regulator, in mice and worms: Neurochemical and behavioral characterizations with implications in the restless legs syndrome. 3291 Apr 73
