Immunocytochemical localization of reelin in the olfactory bulb of the heterozygous reeler mouse: an animal model for schizophrenia.

Because heterozygous reeler (HR) mice share some abnormal traits with schizophrenic patients, and schizophrenia is often accompanied by impairment of olfactory function, this study examines reelin in the olfactory bulb of the HR mouse. In the WT mouse, reelin immunoreactivity is found in the extracellular matrix, and in the cytoplasm of olfactory nerve fibers, GABAergic interneurons, and glutamatergic mitral cells. Western blot analysis reveals that reelin immunoreactivity in the HR mouse is reduced by 45% compared to WT mouse.

Proliferation of a subpopulation of reactive astrocytes following needle-insertion lesion in rat.

It is well known that traumatic injuries of the CNS induce a gliotic reaction, characterized by the presence of reactive astrocytes. Reactive astrocytes exhibit enhanced expression of the astrocyte-specific intermediate filament, glial fibrillary acidic protein (GFAP), hypertrophy, and thickened processes. Recently, we have demonstrated that injuries of the CNS induce a re-expression of an embryonic intermediate filament-associated protein, IFAP-70/280 kDa.

Reelin in the extracellular matrix and dendritic spines of the cortex and hippocampus: a comparison between wild type and heterozygous reeler mice by immunoelectron microscopy.

Reelin is a glycoprotein ( approximately 400 kDa) secreted by GABAergic neurons into the extracellular matrix of the neocortex and hippocampus as well as other areas of adult rodent and nonhuman primate brains. Recent findings indicate that the heterozygote reeler mouse (haploinsufficient for the reeler gene) shares several neurochemical and behavioral abnormalities with schizophrenia and bipolar disorder with mania. These include (1) a downregulation of both reelin mRNA and the translated proteins, (2) a decrease in the number of dendritic spines in cortical and hippocampal neurons, (3) a concomitant increase in the packing density of cortical pyramidal neurons, and (4) an age-dependent decrease in prepulse inhibition of startle.

Reelin function in neural stem cell biology.

In the adult brain, neural stem cells (NSC) must migrate to express their neuroplastic potential. The addition of recombinant reelin to human NSC (HNSC) cultures facilitates neuronal retraction in the neurospheroid. Because we detected reelin, alpha3-integrin receptor subunits, and disabled-1 immunoreactivity in HNSC cultures, it is possible that integrin-mediated reelin signal transduction is operative in these cultures.

Colocalization of integrin receptors and reelin in dendritic spine postsynaptic densities of adult nonhuman primate cortex.

The expression of telencephalic reelin (Reln) and glutamic acid decarboxylase mRNAs and their respective cognate proteins is down-regulated in postmortem brains of schizophrenia and bipolar disorder patients. To interpret the pathophysiological significance of this finding, immunoelectron microscopic experiments are required, but these cannot be carried out in postmortem human brains. As an alternative, we carried out such experiments in the cortex of rats and nonhuman primates.

Expression of reelin in adult mammalian blood, liver, pituitary pars intermedia, and adrenal chromaffin cells.

Reelin regulates telencephalic and cerebellar lamination during mammalian development and is expressed in several structures of the adult brain; however, only traces of reelin were believed to be in peripheral tissues. Because reelin structurally resembles extracellular matrix proteins, and because many of these proteins are expressed in blood, we hypothesized that reelin also might be detectable in the circulation. Reelin (420 kDa) and two reelin-like immunoreactive bands (310 and 160 kDa) are expressed in serum and platelet-poor plasma of rats, mice, and humans, but these three bands were not detectable in serum of homozygous reeler (rl/rl) mice.

Keratin expression in astrocytomas: an immunofluorescent and biochemical reassessment.

Several studies have shown that immunoenzymatic staining of formalin-fixed, paraffin-embedded astrocytomas with keratin antibodies frequently yields positive labelling, but no biochemical evidence of keratin expression in astrocytomas has been reported. We have investigated the presence of keratin in astrocytoma and normal brain tissues both by immunofluorescence on frozen sections and by 1D and 2D immunoblotting using seven monoclonal antibodies that, collectively, recognize most keratin polypeptides. Four of these antibodies did not stain neural tissues by immunofluorescence and were also negative by immunoblotting.

A subpopulation of reactive astrocytes at the immediate site of cerebral cortical injury.

We have identified an early-appearing intermediate filament-associated protein (IFAP-70/280 kDa) in radial glia and their immediate derivatives. This IFAP is absent in the adult CNS. In this study, we examined the reexpression of this early glial differentiation trait in rat reactive astrocytes induced by stab injury of the cerebrum.

Presence of a 300-kDa intermediate-filament-associated protein (IFAP-300kDa) in bovine chromaffin cells.

Intermediate filaments (IFs) are cell-type-specific filaments that constitute a major part of the cellular cytoskeleton. Neurofilaments (NFs) are representative of a class of IFs which are excellent markers for neurons. NFs are also present in some cells of neural crest origin.

Immunomicroscopy of neurofilaments in chromaffin cells of the adult bovine adrenal gland.

Neurofilaments (NFs) represent a class of intermediate filaments which are highly specific for neurons. The most abundant of the native NFs is the 68 kD subunit (NF-L). Chromaffin cells of the adrenal medulla express NF subunits under culture conditions.

The fine structure of large dense-core organelles in human locus coeruleus neurons.

Protein bodies, the characteristic spherical organelles present in human monoamine neurons, have been shown in previous electron microscope studies to originate as dense bodies in mitochondria. This study was designed to investigate the presence of catecholamine reaction products in the dense bodies of locus coeruleus neurons, in frozen fresh post-mortem brain tissue with the use of potassium permanganate (KMnO4) fixation. This fixation procedure forms a dense KMnO4/catecholamine reaction product, visible in the electron microscope, in the large dense-core vesicles of experimental animals.

Proteins of the intermediate filament cytoskeleton as markers for astrocytes and human astrocytomas.

There is a pressing need for a more accurate system of classifying human astrocytomas, one that is based on morphologic characteristics and that could also make use of distinctive biochemical markers. However, little is known about the phenotypic characteristics of astrocytomas. Recent studies have shown that the expression of proteins comprising the intermediate filament (IF) cytoskeleton of astrocytic cells is developmentally regulated.

Immunotyping of radial glia and their glial derivatives during development of the rat spinal cord.

The differentiation of glia in the central nervous system is not well understood. A major problem is the absence of an objective identification system for involved cells, particularly the early-appearing radial glia. The intermediate filament structural proteins vimentin and glial fibrillary acidic protein have been used to define the early and late stages, respectively, of astrocyte development.

Expression and distribution of cytoskeletal IFAP-300kD as an index of lens cell differentiation.

By their implication in the organization of the intermediate filament (IF) cytoskeleton, IF-associated proteins (IFAPs) can delineate subsets of the same IF type within a cell; moreover, they are proving useful as markers of the differentiation states of certain cells. For these reasons the expression of the vimentin-associated IFAP-300kD was investigated in the constantly differentiating cell lineage of the adult bovine lens. Immunofluorescence microscopy and immunoblot analysis were employed using a monoclonal anti-IFAP-300kD and a rabbit anti-lens vimentin.

Localization of ATPase activity in dendritic spines of the cerebral cortex.

An ATPase activity has been demonstrated in dendritic spines of the adult rat cerebral cortex using cerium to capture inorganic phosphate that is liberated during the enzymatic hydrolysis of ATP. Small pieces of cerebral cortex were fixed and incubated in a standard incubation medium containing both Ca2+ and Mg2+ at pH 7.2; other modifications of the incubation medium are described below.

Carboxypeptidase M in Madin-Darby canine kidney cells. Evidence that carboxypeptidase M has a phosphatidylinositol glycan anchor.

Carboxypeptidase M, a plasma membrane-bound enzyme, is present in many human organs and differs from other carboxypeptidase that cleave basic COOH-terminal amino acids. Cultured Madin-Darby canine kidney (MDCK) distal tubular cells contain a kininase I-type enzyme that inactivates bradykinin by releasing Arg9. We found the properties of this kininase to be identical with carboxypeptidase M.

Calcium channel blocker influences the density of alpha-actinin labeling at the rat neuromuscular junction.

Alpha-actinin is a muscle protein located along the Z-disc. Incubation of frog muscle with the calcium ionophore, A23187, can decrease the immunogold labelling of alpha-actinin. Pyridostigmine (PYR) is an inhibitor of acetylcholinesterase, which causes disruption of Z-discs only in the region of the motor endplate.

Immunocytochemical localization of alpha-actinin in frog muscle treated with the ionophore A23187.

Incubation of frog skeletal muscle with the ionophore A23187 induces severe damage in the muscle. At the level of the Z line, the ionophore induces redistribution and release of the protein alpha-actinin, as shown by immunocytochemical techniques. The ionophore does not induce damage in denervated preparations or in preparations pretreated with d-tubocurarine, which indicates that the effect is indirect and neurally mediated.

Fine structural localization of Ca2+-ATPase activity at the frog neuromuscular junction.

Ca2+-ATPase activity has been shown to be associated with the nerve terminal plasma membrane at the frog neuromuscular junction. Using a modification of the Wachstein-Meisel procedure for localization of phosphatases, a dense reaction product forms at the neuronal plasma membrane/Schwann cell interface. It has been determined that this reaction product is associated with the plasma membrane of the nerve terminal and not the plasma membrane of the Schwann cell.

The effect of 2450 MHz microwave radiation on the ultrastructure of snail neurons.

An electron microscopical study of snail neurons was undertaken to verify whether any ultrastructural alterations accompany microwave-induced electrophysiological changes observed in these neurons. Subesophageal ganglia from Helix aspersa snails were exposed to 2450 MHz microwave radiation in vitro at SAR 12.9 mW/g for 60 minutes.