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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recently, it was reported that nitric oxide (NO) directly controls intracellular iron metabolism by activating iron regulatory protein (IRP), a cytoplasmic protein that regulates
ferritin
translation. To determine whether intracellular iron levels themselves affect NO synthase (NOS), we studied the effect of iron on cytokine-inducible NOS activity and mRNA expression in the murine macrophage cell line J774A.1. We show here that NOS activity is decreased by about 50% in homogenates obtained from cells treated with interferon gamma plus lipopolysaccharide (IFN-gamma/LPS) in the presence of 50 microM ferric iron [Fe(3+)] as compared with extracts from cells treated with IFN-gamma/LPS alone. Conversely, addition of the iron chelator desferrioxamine (100 microM) at the time of stimulation with IFN-gamma/LPS increases NOS activity up to 2.5-fold in J774 cells. These effects of changing the cellular iron state cannot be attributed to a general alteration of the IFN-gamma/LPS signal, since IFN-gamma/LPS-mediated
major histocompatibility complex class II
antigen expression is unaffected. Furthermore, neither was the intracellular availability of the NOS cofactor tetrahydrobiopterin altered by treatment with Fe(3+) or desferrioxamine, nor do these compounds interfere with the activity of the hemoprotein NOS in vitro. We demonstrate that the mRNA levels for NOS are profoundly increased by treatment with desferrioxamine and reduced by Fe(3+). The half-life of NOS mRNA appeared not to be significantly altered by administration of ferric ion, and NOS mRNA stability was only slightly prolonged by desferrioxamine treatment. Nuclear run-off experiments demonstrate that nuclear transcription of cytokine-inducible NOS mRNA is strongly increased by desferrioxamine whereas it is decreased by Fe(3+). Thus, this transcriptional response appears to account quantitatively for the changes in enzyme activity. Our results suggest the existence of a regulatory loop between iron metabolism and the NO/NOS pathway.
...
PMID:Iron regulates nitric oxide synthase activity by controlling nuclear transcription. 752 Apr 77
With use of iron histochemistry and immunohistochemistry, regional changes in the appearance of iron,
ferritin
, transferrin, glial fibrillary acidic protein-positive astrocytes, and activated microglia were examined from 1 to 24 weeks after transient forebrain ischemia (four-vessel occlusion model) in rat brain. Expression of the C3bi receptor and the
major histocompatibility complex class II
antigen was used to identify microglia. Neuronal death was confirmed by hematoxylin-eosin staining only in pyramidal cells of the hippocampal CA1 region, which is known as the area most vulnerable to ischemia. Perls' reaction with 3,3'-diaminobenzidine intensification revealed iron deposits in the CA1 region after week 4, which gradually increased and formed clusters by week 24. Iron also deposited in layers III-V of the parietal cortex after week 8 and gradually built up as granular deposits in the cytoplasm of pyramidal cells in frontocortical layer V. An increasing astroglial reaction and the appearance of
ferritin
-immunopositive microglia paralleled the iron accumulation in the hippocampal CA1 region, indicating that iron deposition was probably produced in the process of gliosis. Neither neuronal death nor atrophy was found in the cerebral cortex. Nevertheless, an astroglial and
ferritin
-immunopositive microglial reaction became evident at week 8 in the parietal cortex. On the other hand, the granular iron deposition in the pyramidal neurons of frontocortical layer V was not accompanied by any glial reaction in the chronic stage of ischemia. Three different types of iron deposition in the chronic phase after transient forebrain ischemia were shown in this study. In view of the neuronal damage caused by iron-catalyzed free radical formation, the late-onset iron deposition may be relevant to the pathogenesis of the chronic brain dysfunction seen at a late stage after cerebral ischemia.
...
PMID:Regional differences in late-onset iron deposition, ferritin, transferrin, astrocyte proliferation, and microglial activation after transient forebrain ischemia in rat brain. 786 Jun 55
Blockade of B7/CD28 costimulation allows human haploidentical bone marrow transplantation without graft-versus-host disease. This study shows that blockade of B7/CD28 in anergizing mixed lymphocyte reaction (MLR) cultures of peripheral blood mononuclear cells results in the generation of alternatively activated macrophages (AAMphi). In contrast, priming MLR cultures result in generation of classically activated macrophages (CAMphi). AAMphi had enhanced expression of CD14,
major histocompatibility complex class II
, and CD23; produced alternative macrophage activation-associated CC-chemokine 1 (AMAC-1) chemokine; and displayed increased phagocytotic activity but decreased ability for antigen presentation. Suppression subtractive hybridization revealed that although AAMphi had undergone terminal maturation and differentiation, they entered a distinct gene expression program as compared with CAMphi and selectively expressed beta2-microglobulin, lysozyme,
ferritin
heavy and light chain, and the scavenger receptors macrophage mannose receptor and sortilin. Anergic T cells isolated from cultures that led to the development of AAMphi produced low amounts of interleukin-2 (IL-2), IL-4, and interferon-gamma, but high amounts of IL-10. Addition of anti-IL-10 neutralizing monoclonal antibody in anergizing cultures reversed the functional characteristics of AAMphi, indicating that at least one mechanism involved in the generation of AAMphi was mediated by IL-10. Importantly, when added in MLR cultures, AAMphi suppressed T-cell responses. Therefore, besides direct inhibition of T-cell costimulation, blockade of B7/CD28 may facilitate induction of T-cell unresponsiveness by generating AAMphi. Because in healthy individuals, AAMphi are found in the placenta and lung, where they protect from unwanted immune reactivity, the results suggest that AAMphi may play a critical role in the induction of transplantation tolerance.
...
PMID:Blockade of B7/CD28 in mixed lymphocyte reaction cultures results in the generation of alternatively activated macrophages, which suppress T-cell responses. 1183 May 1
Understanding the molecular and cellular mechanisms that mediate magnetosensation in vertebrates is a formidable scientific problem. One hypothesis is that magnetic information is transduced into neuronal impulses by using a magnetite-based magnetoreceptor. Previous studies claim to have identified a magnetic sense system in the pigeon, common to avian species, which consists of magnetite-containing trigeminal afferents located at six specific loci in the rostral subepidermis of the beak. These studies have been widely accepted in the field and heavily relied upon by both behavioural biologists and physicists. Here we show that clusters of iron-rich cells in the rostro-medial upper beak of the pigeon Columbia livia are macrophages, not magnetosensitive neurons. Our systematic characterization of the pigeon upper beak identified iron-rich cells in the stratum laxum of the subepidermis, the basal region of the respiratory epithelium and the apex of feather follicles. Using a three-dimensional blueprint of the pigeon beak created by magnetic resonance imaging and computed tomography, we mapped the location of iron-rich cells, revealing unexpected variation in their distribution and number--an observation that is inconsistent with a role in magnetic sensation. Ultrastructure analysis of these cells, which are not unique to the beak, showed that their subcellular architecture includes
ferritin
-like granules, siderosomes, haemosiderin and filopodia, characteristics of iron-rich macrophages. Our conclusion that these cells are macrophages and not magnetosensitive neurons is supported by immunohistological studies showing co-localization with the antigen-presenting molecule
major histocompatibility complex class II
. Our work necessitates a renewed search for the true magnetite-dependent magnetoreceptor in birds.
...
PMID:Clusters of iron-rich cells in the upper beak of pigeons are macrophages not magnetosensitive neurons. 2251 55
