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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression of receptors for
nerve growth factor
(
NGF
) on the cell surface was assayed by rosette formation with ligand-coated sheep red blood cells (SRBC). Cell clones derived from the murine C1300 neuroblastoma and from hybrids between a neuroblastoma clone and L cell clones showed a wide variation in the capacity to form rosettes with
NGF
-coated SRBC. All the neuroblastoma, L cell and hybrid clones formed rosettes with phytohemagglutinin-coated SRBC and none formed rosettes with cytochrome c- or
ferritin
-coated SRBC or with SRBC not coated with ligand.
...
PMID:Differences between murine C1300 neuroblastoma clones detected by rosette formation with nerve growth factor-coated sheep red blood cells. 18 19
A series of specific macromolecules (tetanus toxin, cholera toxin,
nerve growth factor
[NGF], and several lectins) have been shown to be transported retrogradely with high selectivity from terminals to cell bodies in various types of neurons. Under identical experimental conditions (low protein concentrations injected), most other macromolecules, e.g. horseradish peroxidase (HRP), albumin,
ferritin
, are not transported in detectable amounts. In the present EM study, we demonstrate selective binding of tetanus toxin to the surface membrane of nerve terminals, followed by uptake and subsequent retorgrade axonal transport. Tetanus toxin or albumin was adsorbed to colloidal gold particles (diam 200 A). The complex was shown to be stable and well suited as an EM tracer. 1-4 h after injection into the anterior eye chamber of adult rats, tetanus toxin-gold particles were found to be selectively associated with membranes of nerve terminals and preterminal axons. Inside terminals and axons, the tracer was localized mainly in smooth endoplasmic reticulum (SER)-like membrane compartments. In contrast, association of albumin-gold complexes with nervous structures was never observed, in spite of extensive uptake into fibroblasts. Electron microscope and biochemical experiments showed selective retrograde transport of tetanus toxin-gold complexes to the superior cervical ganglion. Specific binding to membrane components at nerve terminals and subsequent internalization and retrograde transport may represent an important pathway for macromolecules carrying information from target organs to the perikarya of their innervating neurons.
...
PMID:Selective binding, uptake, and retrograde transport of tetanus toxin by nerve terminals in the rat iris. An electron microscope study using colloidal gold as a tracer. 65 8
We investigated the role of microtubules in the compartmentation of motility and endocytosis in the neurite shaft and growth cone of cultured chick sensory neurons. As reported previously by Letourneau and Ressler (J. Cell Biol., 98 (1984) 1355-1362), stimulating microtubule polymerization with taxol inhibits growth cone motility. In neurons that had grown for 18-30 h, taxol treatment caused growth cones to round up forming an obvious varicosity (taxol bulb) at the terminal. Removal of taxol allowed nearly immediate resumption of cortical motility in all 17 neurons observed by time-lapse videomicroscopy. However, only one of the 17 neurites was observed to elongate measurably even after 5 h of observation. In 14 cases taxol was rinsed out and the concentration of
nerve growth factor
was increased 10x, 11/14 neurites retracted within the next hour. Endocytic activity was investigated by incubating control and taxol treated neurons in either cationized
ferritin
or horseradish peroxidase for 30 min. The number and area of label-containing vesicles was measured along with the total area of the growth cone or taxol bulb. We found that taxol treatment caused a 7-fold decrease in the ratio of the area of the labeled vesicles to the area of growth cone or taxol bulb. Conversely, in neurite shafts, normally relatively quiescent with respect to endocytosis, those regions devoid of microtubules in both control and nocodazole-treated cells contained a high concentration of label-containing vesicles. We conclude that the presence of microtubules plays a role in regulating endocytic activity by the overlying cell cortex.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Role of microtubules in the cytoplasmic compartmentation of neurons. II. Endocytosis in the growth cone and neurite shaft. 290 46
We have examined the effect of the trophic protein,
nerve growth factor
(
NGF
), on organotypic cultures of fetal rat striatum. Treatment of cultures with
NGF
for 10-11 days resulted in a 5- to 12-fold increase in the specific activity of the cholinergic enzyme choline acetyltransferase (CAT; EC 2.3.1.6). in a dose-dependent fashion. This effect was not elicited by insulin,
ferritin
, or cytochrome c, proteins similar in structure or physicochemical properties to
NGF
. The effect of
NGF
on CAT activity was specifically blocked by anti-
NGF
antiserum, whereas treatment with the antiserum alone did not have a significant effect on the enzyme. Immunocytochemical studies of the treated cultures, using a monoclonal antibody directed against CAT, revealed positively stained neurons exhibiting dendritic and axonal processes.
NGF
did not have an effect on total protein content of the striatal cultures, suggesting a highly specific effect. Moreover, levels of substance P, a peptide localized to other, noncholinergic neurons, were not altered by
NGF
. Substance P remained unchanged after treatment with
NGF
for 12 days, whereas CAT activity increased 12-fold in sister cultures. Although the mechanisms of action of
NGF
on striatal cholinergic interneurons remain to be determined, the marked, specific response of CAT suggests that this well-defined trophic protein may play a critical role in normal brain development.
...
PMID:Nerve growth factor promotes cholinergic development in brain striatal cultures. 386 96
Effectively, modern research has confirmed Hortega's view of the origin of the microgliacyte from circulating monocytes of the monocyte-macrophage series that invade the brain during embryonic and early postnatal life. Their phagocytic capacity is exercised during the brain remodelling that marks brain maturation. They then convert to the ramified resting microglial cell visualized in the silver carbonate staining technique of Hortega and by modern lectin-binding methods. In response to injury, reactive microglia exhibit hypertrophy and hyperplasia, and may or may not go on to form typical lipid-laden phagocytes. Activated microglia show upregulation of the many marker antigens they share with circulating monocytes, including the major histocompatibility class (MHC) class II antigens that bespeak their immunocompetent nature. However, MHC class I and II expression and development of immunohistochemical positivity for cytoplasmic and plasma membrane antigens that characterize the monocyte-macrophage do not necessarily indicate an immunological response though there is ample evidence that microglia can serve as antigen-presenting cells. Rather, microglia are extraordinarily sensitive to changes in the brain microenvironment, whatever the nature of the exciting mechanism or substance. They may be considered to serve an ever alert, protective and supportive function that can be assembled rapidly to deal with infections, physical injuries, physiologic changes and systemic influences. In addition to elaboration and secretion of cytokines with varied actions, e.g., suppression of astrogliosis, they secrete factors, including
nerve growth factor
, which are supportive of neurons. They have an important role in iron metabolism and the storage of iron and
ferritin
. They may promote central nervous system regeneration. They are prominently involved in such pathologic processes as the acquired immunodeficiency syndrome, multiple sclerosis, prion diseases and the degenerative disorders, e.g., Alzheimer's disease and Parkinson's disease. With aging, they grow more numerous, become richer in iron and
ferritin
and exhibit phenotypic alteration, e.g., the expression of MHC class II antigens that are not ordinarily demonstrable immunohistochemically in the resting state. The rate of growth of our knowledge of microglia during the last decade has been exponential and continues.
...
PMID:The microglial cell. A historical review. 884 46
