Showing papers in "Journal of Neuroscience Research in 1988"

Axotomy of the rat facial nerve leads to increased CR3 complement receptor expression by activated microglial cells

Abstract: Axotomy of the rat facial nerve leads to mitotic divisions of microglial cells without developing into phagocytes. In order to study the functional characteristics of those activated, i.e., proliferating but nonphagocytic, microglia we investigated the expression of monocyte/macrophage antigens by these cells. Our results show that activated microglia lack monocyte/macrophage antigens recognized by the monoclonal antibodies Ox-41, ED1, ED2, and Ki-M2R but express high levels of CR3 complement receptors in situ.

Insulin-like growth factor I promotes cell proliferation and oligodendroglial commitment in rat glial progenitor cells developing in vitro.

Abstract: We investigated the mechanisms by which insulin-like growth factor I (IGF-I) acts to increase the number of oligodendrocytes that develop in cultures of cells explanted from perinatal rat cerebrum. Fluorescence-activated cell sorting was used to isolate bipotential A2B5-positive oligodendrocyte-type 2 astrocyte (O-2A) progenitor cells, which were then inoculated as single cells into microculture wells containing feeder layers of X-irradiated type 1 astrocytes. Addition of 100 ng/ml IGF-I to the culture medium increased the growth rate and the ultimate size reached by the resulting clones during the 18-day experimental period. Moreover, 75-80% of the cells in the IGF-I-treated clones differentiated into galactocerebroside (GC)-positive oligodendrocytes, whereas only 25-30% became oligodendrocytes in the absence of IGF-I. IGF-I did not increase the number of type 2 astrocytes that developed in the clones. IGF-I appeared to have the greatest effect on growth and differentiation at a stage when the majority of the cells in the clones were at an intermediate stage of development, characterized by the expression of A2B5 and O4 glycolipid antigens but not GC. Analysis of the effects of IGF-I on O4-positive, GC-negative intermediate precursor cells revealed a two to fivefold increase in the number of cells that incorporated 3H-thymidine into their DNA during a 5-h pulse. Moreover, IGF-I increased the number of cell sorter-purified O4-positive cells that developed into oligodendrocytes 4-8 days later. Therefore, IGF-I acts in two different ways to promote oligodendrocyte development: It promotes proliferation of precursor cells in the O-2A lineage, and it induces precursors to become committed to develop into oligodendrocytes.

Distribution of the mineralocorticoid and the glucocorticoid receptor mRNAs in the rat hippocampus.

Abstract: The cellular localization of mineralocorticoid receptor (MR) and glucocorticoid receptor (GR) gene expression in the rat hippocampus was studied by in situ hybridization using 35S-labeled RNA-probes, complementary to either 513 bases of the rat brain mineralocorticoid receptor (MR)-mRNA or 500 bases of the rat liver glucocorticoid receptor (GR)-mRNA. Neurons in CA1, CA2, and the dentate gyrus expressed both receptor genes at high levels. The MR-mRNA was demonstrated in all pyramidal cell fields (CA1-4) of the hippocampal formation and the granular neurons of the dentate gyrus. In contrast, GR-mRNA was mainly restricted to CA1 and CA2 pyramidal cell fields and the dentate gyrus. This pattern of hybridization was found to agree with the cellular distribution of the two types of corticosteroid receptors detected previously in the hippocampus by autoradiography of the radio-labeled receptors and by immunocytochemistry of the receptor protein. These observations suggest that the corticosteroid receptors described previously as type 1 and type 2 are encoded by MR- and GR-mRNA, respectively. Although both the MR and GR genes are co-expressed in some hippocampal neurons, the unique patterns of distribution of the two receptor mRNAs in the hippocampal formation suggest that the genes for these receptors are differentially regulated. Moreover, the microanatomy of MR and GR expression provides insight into molecular mechanisms underlying the characteristic action of various steroids on behaviors involved in stress and circadian regulation.

Rat beta-nerve growth factor sequence and site of synthesis in the adult hippocampus.

Abstract: A rat b-nerve growth factor (NGF) genomic sequence encoding the entire 3′ exon of preproNGF was cloned, and its nucleotide sequence was determined. Rat NGF shows very high homology with other known NGFs in both the prepropeptide and the 3′ untranslated regions. The presumptive signal sequence, the cysteine residues important for tertiary structure, possible glycosylation sites, and dibasic amino acids required for proteolytic cleavage to mature NGF are conserved across species. Comparison of the hydrophobicity plots and amino acid sequences revealed an evolutionary divergent domain on the external surface of NGF, which may account for the poor immunologic crossreactivities of the various NGFs. In situ hydridization with a rat-specific oligodeoxynucleotide indicated high levels of NGF mRNA synthesis in both hippocampal granule and pyramidal cell layers. These results are consistent with one role for NGF in the CNS as a neuronally released, retrogradely transported neurotrophic factor for basal forebrain cholinergic neurons.

Brain macrophages synthesize interleukin-1 and interleukin-1 mRNAs in vitro.

Abstract: Amoeboid microglial cells (brain macrophages) were purified from early post-natal mouse brain cultures. The percentage of cells stained with an anti-Mac-1 antibody was greater than 95%. Stimulation of these brain macrophages by lipopolysaccharides induced the synthesis of interleukin-1 (IL-1), which, in part, remained associated with the cell surface and, in part, was released into the culture medium. In contrast, pure primary astrocyte cultures and cell lines of transformed or immortalised astrocytes did not synthesise significant amounts of IL-1, demonstrating that amoeboid microglia and not astrocytes synthesise IL-1 in vitro. These physiological data were confirmed by RNA hybridisation studies showing that, on LPS treatment, brain macrophages synthesise significant amounts of IL-1 alpha and IL-1 beta mRNAs.

Volume regulation in astrocytes: a role for taurine as an osmoeffector.

Abstract: Astrocytes in culture regulate their volume under anisosmotic conditions by as yet unclear mechanisms. In a number of other cells this process involves a loss of intracellular osmotically active solutes, including taurine. The possibility that taurine participates as an osmoeffector in astrocytes was examined in cultured astrocytes exposed to hyposmolar conditions. Astrocytes responded to decreases in osmolarity by rapid swelling followed by a volume regulatory phase. Hyposmotic conditions induced a dramatic increase of 3H-taurine efflux, with a time course corresponding to the cell volume regulatory phase. Decreasing osmolarity from 310 to 254, 198 or 150 m osmoles resulted in the release of 8.2%, 17%, and 54%, respectively, of 3H-taurine previously accumulated by astrocytes. Endogenous taurine concentration decreased 64%. The efflux of 3-H GABA, 3H-glycine, or 3H-D-aspartate was much less affected under similar conditions. These results suggest a role for taurine as an osmoeffector in astrocytes.

Light-dependent subcellular movement of photoreceptor proteins.

Abstract: The intracellular localization of photoreceptor-specific proteins 33 kd, beta-transducin, and 48 kd, as determined by immunocytochemistry, is transient and dependent on the lighting environment to which the retina is exposed. Western analysis of the proteins in isolated rod outer segments from mouse retina demonstrates that beta-transducin actually moves from the outer segment to the inner segement in response to light and that 48 kd moves simultaneously in the opposite direction. The light-induced movements appear to be initiated by the absorption of light by rhodopsin because red light, which does not bleach rhodopsin, does not produce this redistribution of phototoreceptor proteins. Time course analysis of these movements suggests that the light-induced shift is detectable at the earliest time examined (30 seconds). The bidirectional movement suggests that the photoreceptor cells have at least two distinct dyneinlike or kinesin-like translocator molecules that act as microtubule-based motors. This movement appears to be a basic mechanism by which photoreceptor cells rapidly and radically alter the subcellular concentrations of photoreceptor-specific proteins, which in turn may affect the rapid changes in membrane potential that occur during phototransduction.

Dopamine and serotonin inhibition of neurite elongation of different identified neurons

Abstract: This study demonstrates that a second classical neurotransmitter, dopamine, can act to suppress regenerative neurite outgrowth. Single identified neurons were dissected from two central ganglia of the snail Helisoma, and growth cone motility was studied as neurites regenerated in cell culture. Both dopamine and serotonin inhibited growth cone motility and elongation of neurites. Outgrowth inhibition ranged from sustained arrest to a similar but transient response. The effects of dopamine and serotonin are neuron-selective. Specific neurons affected by dopamine and serotonin represent distinct sets. One neuron was found that responds to both agents. The implications of neurotransmitter regulation of the dynamics of neuronal morphology are discussed.

Gliogenesis in rat spinal cord: evidence for origin of astrocytes and oligodendrocytes from radial precursors.

Abstract: We have examined glial cell lineages during rat spinal cord development by using a variety of antibodies that react with immature and mature glia. Radial glia in embryonic cord bound (1) A2B5, an antibody that reacts with a glial precursor cell population in optic nerve; (2) AbR24, which is directed against GD3 ganglioside and binds to immature neuroectodermal cells and to developing oligodendrocytes in forebrain and cerebellum; and (3) an antibody to the intermediate filament, vimentin. With time, two different populations emerged, both of which seemed to be derivatives of radial cells. One cell type expressed the astrocyte intermediate filament, GFAP, in addition to vimentin. GFAP-containing cells eventually took on the forms of astrocytes in gray and white matter. The other type expressed carbonic anhydrase, an enzyme characteristic of oligodendrocytes and enriched in myelin. Carbonic anhydrase-positive cells eventually developed into small cells with oligodendrocyte morphology. Our observations suggest a common lineage for astrocytes and oligodendrocytes from radial cells during spinal cord gliogenesis.

Growth and differentiation properties of O-2A Progenitors purified from rat cerebral hemispheres

Abstract: We have used the monoclonal antibody A2B5 (which binds to subclasses of surface gangliosides) to select glial precursor cells from postnatal rat brain and compare their properties in culture with those of the bipotential O-2A progenitor cells of newborn optic nerve. Two methods, fluorescence-activated cell sorting (FACS) and differential adhesion, resulted in greater than 90% enrichment in A2B5-positive bipolar cells and multipolar cells with short processes. These cells expressed vimentin and reacted with yet another antibody (NSP4), which binds to O-2A progenitor cells of optic nerve. The 2-10% of the remaining cells consisted of type 1 astrocytes and/or microglial cells. When maintained in defined medium for 3 days, 28-40% of A2B5-positive cells incorporated thymidine, while most other cells became differentiated into galactocerebroside-positive oligodendrocytes. In the presence of 10% fetal calf serum for 3 days, over 50% of the cells developed a stellate phenotype and expressed GFAP, characteristic of type 2 astrocytes. This phenotypic plasticity of the A2B5 positive cells was also observed in clones derived from single cells grown on a layer of type 1 astrocytes. Thus, A2B5-positive cells from cerebrum are O-2A progenitors that can generate O-2A lineage cells. The effects of the two growth factors, insulin and platelet derived growth factor (PDGF) (which is synthesized by type 1 astrocytes), were tested on cerebrum O-2A progenitors. PDGF induced a doubling of the percentage of A2B5-positive cells incorporating thymidine during a 20-hr pulse and a large increase (up to 40-fold) of the progenitor population over 3 days. The largest number of O-2A lineage cells was obtained when purified progenitors were grown in the presence of PDGF and insulin. Thus, A2B5-positive glial cells from cerebrum overall behave as the O-2A progenitors of optic nerve, but they more readily divide than differentiate, as if they were at an earlier stage along the O-2A lineage pathway.

Major histocompatibility complex antigen expression on rat microglia following epidural kainic acid lesions.

Abstract: Vigorous expression of major histocompatibility complex (MHC) class I and class I surface glycoproteins was observed on reactive microglia but not on astrocytes in the rat brain following lesions induced by epidural kainic acid (KA) on the cerebral cortex. The monoclonal antibodies used were OX18 against MHC class I, OX6 against MHC class II, OX1 against leukocyte common antigen (LCA), and W3/13 against pan-T lymphocytes. Astrocytes were marked by antibodies to glial fibrillary acidic protein (GFA) and S100b protein. The lesion differentially affected four zones: the central area of the lesion where most cells died; the peripheral zone surrounding the lesion where selective damage occurred; projection tracts from the lesioned area; and terminal fields of damaged neurons. In nonlesioned animals, class I expression was confined to vascular endothelial cells and some small glial cells. Following KA treatment, class I-positive round cells appeared in the central zone at day 1, peaked about day 5, and then slowly declined. In the peripheral zone, class I-positive microglia were present fron day 2 on. They demonstrated classical morphology for such cells, and in some cases arranged themselves in pyramidal profiles surrounding neurons. Reactive microglia were also class I positive along tracts of damaged neurons and in the terminal areas. The reaction was reduced to control levels 16-20 weeks after lesioning although some vascular endothelial cells and a few round cells still stained positively in the cystic area, which was the remnant of the central zone. Class II antigen expression first appeared in the form of round cells in the central zone of the lesion on day 1. These peaked at 5-7 days and declined thereafter. In the peripheral zone on day 5, some positive round or ameboid cells were found intermingled with typical reactive microglia. This reaction peaked at about 1-2 weeks and decreased thereafter. Class II-positive microglia appeared in fiber tracts and in the terminal areas on day 5, peaked after 2-3 weeks, and declined thereafter. Double immunostaining for class I and II antigens showed that there were significantly fewer class II- than class I-positive cells, but the morphology of the two groups was similar. No astrocytes stained positively for either group I or group II antigen. In both the primary and secondary lesioned areas, LCA staining was observed on the surface of reactive microglia. In the primary lesions there were also LCA-positive round cells in the central zone, but these were rare in the peripheral zone and the secondary lesioned areas.(ABSTRACT TRUNCATED AT 400 WORDS)

Regional expression of myelin protein genes in the developing mouse brain: in situ hybridization studies.

Abstract: Expression of mRNAs for the two major myelin proteins, myelin basic protein (MBP) and proteolipid protein (PLP), was examined in a number of regions of the developing mouse brain using in situ hybridization. In general, MBP and PLP mRNAs were observed to be coexpressed during ontogeny, prior to the histological appearance of myelin. Expression of both mRNAs was detected as early as 6 hours postpartum in the medulla oblongata and, with development, expression of these mRNAs progressed in a caudal to rostral direction. Peak expression occurred at approximately postnatal day 20 in most regions examined, regardless of time of onset of expression. As myelination proceeded, two different labeling patterns were observed with the PLP and MBP 35S-labeled cDNA probes. In the earliest stages of myelinogenesis MBP mRNA labeling was restricted to oligodendrocyte cell bodies, but shortly after the gene began to be expressed the labeling became more diffuse. In contrast, PLP mRNA labeling remained over or surrounding oligodendrocyte cell bodies at all stages of myelinogenesis. These two distinctly different patterns of labeling are consistent with alternative intracellular trafficking of MBP and PLP mRNAs, in which PLP mRNAs remain associated with ribosomes within the cell soma and MBP mRNAs move from the cell soma to the oligodendrocyte processes at a specific stage early in myelinogenesis. However, there appeared to be a clear time lag between the onset of MBP mRNA expression and the movement of ribosomes carrying MBP mRNAs into the oligodendrocyte processes. Additionally, the in situ hybridization studies revealed a population of unidentified cells residing in cortical molecular layers that express PLP mRNA in the absence of MBP mRNA.

Basic fibroblast growth factor and epidermal growth factor exert differential trophic effects on CNS neurons

Abstract: Epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF) are potent mitogenic proteins capable of inducing cell division in a wide variety of cell types. In addition to their mitogenic properties, both proteins have recently been shown to enhance survival and process outgrowth from neurons of central nervous system origin. The full spectrum of neuronal subtypes responding to these factors has not been elucidated. In the present study, EGF was found to enhance survival and process outgrowth of primary cultures of cerebellar neurons of neonatal rat brain. This effect was dose-dependent and was observed with EGF concentrations as low as 100 pg/ml. In marked contrast, bFGF was ineffective in enhancing survival or neurite elongation from cerebellar neurons when tested in the range of 0.1 to 10.0 ng/ml. However, within this concentration range, bFGF did prove effective in stimulating an increase in [3H]thymidine incorporation into primary cultures of cerebellar astrocytes, demonstrating that bFGF was active and that cells in the cerebellum do respond to bFGF. These results suggest that EGF or an EGF-like peptide may act as a neurite elongation and maintenance factor for cerebellar neurons. EGF has now been shown to support striatal, cortical, and cerebellar neurons, suggesting that this factor may have trophic activity throughout the central nervous system. bFGF, in contrast, appears to exert its effects on limited populations of neurons.

Intracellular messengers in the generation and degeneration of hippocampal neuroarchitecture.

Abstract: The actions and interactions of the neurotransmitter glutamate and the intracellular messengers calcium, cyclic AMP, and protein kinase C (PKC) in the regulation of neurite outgrowth and cell survival were examined in hippocampal pyramidal-like neurons in isolated cell culture. Low, subtoxic levels of glutamate (10-100 microM) caused the regression of dendrites but not axons; millimolar levels caused cell death. Calcium ionophore A23187 (50-100 nM) and the PKC activator phorbol-12-myristate-13-acetate (PMA; 10-50 nM) caused the regression of both axons and dendrites, whereas the adenylate cyclase activator forskolin enhanced outgrowth rates in both axons and dendrites. The effects of glutamate, A23187, PMA, and forskolin on outgrowth were mediated locally at the growth cones; dendrites were more sensitive than axons to each of these agents. High levels of A23187 (1 microM) or PMA (100 nM) significantly reduced cell survival. Co2+ and trifluoperazine each significantly reduced glutamate-induced dendritic regression and neurotoxicity suggesting that calcium influx and/or PKC activation mediated glutamate's actions. Fura-2 measurements showed that glutamate caused a rapid rise in intracellular calcium levels; this rise was prevented by Co2+. PMA and forskolin did not alter intracellular calcium levels, nor did these agents affect glutamate-induced calcium rises. Taken together, the results indicate that parallel intracellular messenger pathways that influence neurite outgrowth and cell survival are operative in hippocampal neurons; these messengers may play roles in the formation and modification of neuronal circuitry.

Distribution and function of tenascin during cranial neural crest development in the chick.

Abstract: Tenascin is a glycoprotein associated with the extra-cellular matrix and the surface of some cell types. Here, the distribution and possible function of tenascin have been examined along the pathways followed by cranial neural crest cells. During early stages of neural crest migration, tenascin was observed in a dense matrix surrounding premigratory cranial neural crest cells. Along the neural tube, tenascin immunoreactivity was observed in a dorsoventral gradient and was also noted under the ectoderm and around the notochord. During advanced neural crest migration, tenascin immunoreactivity colocalized with and appeared to be on the surface of migrating neural crest cells. At later stages, tenascin was present around the otic vesicles, retina, lens, and in an interstitial matrix in the region of the branchial arches. At the level of the occipital somites, tenascin immunoreactivity was observed around the neural tube, notochord, dermamyotome, and on the basal surface of the ectoderm. Tenascin was also observed in an interstitial matrix within the sclerotome. At early stages of vagal neural crest migration, immunoreactivity was uniform within the sclerotome, whereas at later stages tenascin colocalized with vagal neural crest cells within the rostral half of each sclerotome. The possible function of tenascin was tested by injecting antitenascin antibodies lateral to the mesencephalic neural tube. Two predominant defects were noted in injected embryos: (1) ectopic aggregates of cranial neural crest cells external to the neural tube and sometimes located on the apical side of the ectoderm; and (2) open and deformed neural tubes. Both the distribution and results of the perturbation experiment suggest that tenascin is required for proper cranial neural crest migration.

Modulation of tyrosine hydroxylase gene expression in rat brain and adrenals by exposure to cold

Abstract: The long-term changes in tyrosine hydroxylase (TH) activity induced by chronic exposure to cold in brain noradrenergic neurons of the locus coeruleus (LC) were analyzed and compared to those measured in a peripheral tissue such as adrenals This analysis was made possible at the level of one single tissue corresponding to one animal by the use of sensitive methods that allow assay of TH activity, protein, and mRNA levels in parallel from the same homogenate The three parameters were measured in brain structures and adrenals of rats maintained at 4 degrees C during 4 days and were compared to those of control animals kept at normal housing temperature (22 degrees C) LC of rats exposed to cold contained 200% more TH mRNA than controls The amount of TH protein in this area rose to as much as 164% that of controls Similarly, the activity of the enzyme increased to 140% of the normal value Thus, these observations show that 1) the increase in TH mRNA was much higher than the increase in protein levels, and that 2) the newly synthesized molecules have about the same activity as that present under normal conditions In contrast to the LC, no variation of these parameters was observed in the substantia nigra In the adrenals, the variations in the different parameters were qualitatively similar to that observed in the LC, although they were quantitatively higher: TH mRNA, TH protein, and TH activity levels were respectively 330%, 182%, and 167% that of control adrenals Altogether, these results demonstrate that exposure to cold induces an alteration in TH synthesis in brain noradrenergic neurons as well as in adrenals

Spread of Trypanosoma brucei to the nervous system: early attack on circumventricular organs and sensory ganglia.

Abstract: The distribution of Trypanosoma brucei brucei in the nervous system of experimentally infected Sprague-Dawley rats and BALB/c and deer mice was examined with immunohistochemical techniques. The trypanosomes showed an early invasion in areas lacking a so-called blood-brain or blood-nerve barrier, i.e., in sensory ganglia and circumventricular organs including the area postrema, pineal gland, and median eminence. This distribution of trypanosomes may relate to the origin of cardinal symptoms of the disease, e.g., sensory disturbances, nausea, disturbed circadian rhythm, and neuroendocrinological dysfunctions. Trypanosome infections in rodents may provide a model for studies of how an infectious agent or factors released by the immune response may relatively selectively interfere with these functionally defined regions of the nervous system.

Fibroblast growth factor effects on peripheral nerve regeneration in a silicone chamber model.

Abstract: We have developed a silicone nerve regeneration chamber that is partitioned into two compartments by a strip of nitrocellulose paper. The modified two-compartment chamber allows the investigation of the effects on rat sciatic nerve regeneration of trophic or growth factors that are initially bound to the nitrocellulose partition. In this study we compared the effects of untreated nitrocellulose, a siliconized nitrocellulose strip, and a strip that had been soaked in a basic fibroblast growth factor (FGF) solution. FGF is a known angiogenic factor and a mitogen for endothelial cells, fibroblasts, and Schwann cells. All of these cell types are present in the peripheral nerve. In vitro analyses, using 3T3 cells as test cells, showed that some of the bound FGF remained active on the nitrocellulose paper for at least 8-10 days. In vivo experiments, examined at 16 days post-implantation, revealed that spatial migration of all cellular elements (perineurial-like cells, vasculature, and Schwann cells) across the chamber gap was slower with untreated nitrocellulose strips than with siliconized strips but was most advanced with FGF-treated ones. Most striking was the well-developed vascular arborization of the regenerate within the FGF chambers. Histologic sections from the proximal one-half of the chamber revealed that the regenerate in untreated strip chambers consisted of fibrin matrix and erythrocytes, whereas a well-developed structure with all the cellular elements of a regenerating nerve was seen in several of the FGF strip chambers. We conclude that FGF stimulates peripheral nerve regeneration in this model.

Fetal cortical astrocytes migrate from cortical homografts throughout the host brain and over the glia limitans

Abstract: The cerebral cortices from 14-day gestation rat embryos were prelabeled with Phaseolus vulgaris leucoagglutin (PHAL) and then homografted into freshly made implantation pockets in the host cerebral cortex. Animals were sacrificed at 30 and 60 days postimplantation (DPI). Paraffin sections were double labeled for the presence of glial fibrillary acidic protein (GFAP), a specific marker for astrocytes, and PHAL, utilized as a marker for transplant-derived cells. Transplant-derived astrocytes were found on the glia limitans along the entire circumference of the brain, in the hippocampal commissure, corpus callosum, internal capsule, entopeduncular nucleus, habenular commissure, brachium of the superior colliculus, optic tract, optic chiasm, and sensory root of the trigeminal nerve. Transplanted astrocytes entered the spaces of Virchow-Robin, and migrated along parenchymal blood vessels and between the ependymal and subependymal layers of the third and lateral ventricles. The presence of basal lamina or parallel nerve fiber bundles was a common factor for these migration routes.

Comparison of nerve growth factor's effects on development of septum, striatum, and nucleus basalis cholinergic neurons in vitro.

Abstract: In the central nervous system, nerve growth factor (NGF) affects basal forebrain cholinergic neurons during early development and in the adult mammalian brain. These neurons are located in medial septum, diagonal band of Broca, and nucleus basalis of Meynert. While the effects of NGF on the development of septal cholinergic neurons are well documented, only little is known about the influence of NGF on development of cholinergic neurons in the nucleus basalis. In addition to the basal forebrain cholinergic neurons, there are cholinergic interneurons in the corpus striatum, which form an anatomically and functionally distinct population of cholinergic neurons. These striatal interneurons have been reported to respond to NGF during early development; however, it is not known whether the effects of NGF on their development are similar to those on septal cholinergic neurons. We prepared cultures of dissociated cells from fetal rat septum, striatum, and nucleus basalis and investigated the development of cholinergic neurons localized in these three different areas in the presence or absence of NGF. We now report that, first, cholinergic neurons of striatum and nucleus basalis develop a more extensive fiber network and contain more acetylcholinesterase (AChE) per neuron than do cholinergic neurons of septum. The amount of choline acetyltransferase (ChAT) per cholinergic neuron is approximately the same in all three culture types when grown in the absence of NGF. Second, NGF treatment increases and anti-NGF treatment decreases the number of AChE-positive neurons in cultures of low plating density, suggesting that NGF is able to promote survival of cholinergic neurons of all three areas studied. Third, NGF increases the total length of fibers and the number of branching points of cholinergic neurons in septal cultures but not in cultures of striatum and nucleus basalis. Fourth, NGF treatment increases AChE activity in septal but not in nucleus basalis or striatal cultures, suggesting that AChE activity reflects the extent of the fiber network of cholinergic neurons of all areas. Fifth, NGF treatment produces severalfold elevations in ChAT activity in septal cultures and more modest increases in cultures of nucleus basalis and striatum, suggesting that NGF is able to stimulate ChAT activity also in the absence of a stimulatory effect on survival and fiber growth. Our results demonstrate that, during early development, NGF is able to affect survival and differentiation of all three populations of forebrain cholinergic neurons. However, the finding that the morphology of cholinergic neurons of nucleus basalis and their response to NGF differed from those of septal cholinergic neurons suggests that they represent functionally distinct neuronal populations. The development of cholinergic striatal interneurons in vitro was similar to that of nucleus basalis neurons, suggesting that determinants in the local environment influence their developmental fate in situ. It is speculated that the availability of endogenous NGF is one of the determinants involved in these developmental decisions.

Expression of an engrailed -like gene during development of the early embryonic chick nervous system

Abstract: The engrailed gene has been identified in Drosophila as an important developmental gene involved in the control of segmentation. Here we describe the embryonic expression of a chicken gene, ChickEn (Darnell et al.: J Cell Biol 103(5):311a, 1986), which contains homology to the Drosophila engrailed gene. Northern blots of early chick embryo tissue poly(A)+ RNA resulted in hybridization to at least three bands expressed predominantly in the brain/head region when probed with ChickEn genomic fragments. Eight cDNA clones generated from embryonic day 6 (stage 29-30) chick brain poly(A)+ RNA are identical in their nucleotide sequence with the ChickEn genomic clone. In situ hybridization to sections of 4-day (stage 24) embryos indicated that ChickEn transcripts were concentrated in the posterior mesencephalon and anterior metencephalon. In cultures of chick cranial neural crest cells (eight to nine somites; stage 9) ChickEn transcripts were localized in a subset (approx. 8%) of cells examined after 2 days in culture. A mouse monoclonal antibody, inv-4D9D4, made by Coleman and Kornberg recognizes the engrailed-like homeo domain of the engrailed and invected proteins (Martin-Blanco, Coleman, and Kornberg, personal communication). Patel, Coleman, Kornberg and Goodman (unpublished) have shown that this antibody binds to the hindbrain of 2-day-old chick embryos. We have confirmed these results and shown that this antibody binds to the same region of 4-day (stage 24) chick brains that in situ hybridization showed contained ChickEn transcripts. This antibody also recognizes a homeo domain-containing ChickEn peptide expressed as a beta-galactosidase fusion protein in Drosophila cell culture. We have not detected ChickEn protein in any tissue prior to eight to nine somites (stage 9). These results delineate the major expression pattern of the ChickEn gene during early (prior to stage 30) embryonic development in the chick.

Insulin and insulinlike growth factor receptors regulating neurite formation in cultured human neuroblastoma cells.

Abstract: The functional role of brain insulin and insulinlike growth factor (IGF) receptors is being sought. Recently it has been found that these ligands are members of a newly identified family of neuritogenic polypeptides. We studied the relationship between 125I-insulin and 125I-IGF binding and their capacity to enhance neurite formation in cultured human neuroblastoma SH-SY5Y cells. The binding of 125I-insulin was temperature-dependent and heterogeneous. The Scatchard plot and dissociation rate were both consistent with the presence of two types of sites. There appeared to be about 900 high affinity sites per cell with a Kd of about 3 nM. This compared favorably with the half-maximal concentration of 4 nM for enhancement of neurite formation. The type I IGF sites were also present. Physiologic concentrations of insulin clearly enhanced neurite formation through the insulin sites, whereas physiologic concentrations of IGF-I and IGF-II enhanced through the IGF sites. Cross-occupancy of sites was observed at supraphysiologic concentrations, providing a reasonable explanation for the broad dose-response curves for these ligands. These results support the suggestion that one function of insulin and IGF receptors in neural tissues may be to modulate neurite formation.

Tyrosine hydroxylase and serotonin containing cells in embryonic rat rhombencephalon: a whole-mount immunocytochemical study.

Abstract: Rhombencephala from rat embryos were processed as whole-mounts for immunocytochemical detection of monoaminergic cell populations, using antibodies to tyrosine hydroxylase (TH) and serotonin (5-HT). Specific advantages of the whole-mount technique over the classical serial-section method were that even isolated immunoreactive (IR) cells could be detected easily, and three-dimensional relationships could be ascertained without the need for serial reconstruction. Embryos between embryonic days (E) 12 and 16 (the day following nocturnal mating being considered as E1) were used in this study. Both TH and 5-HT immunoreactivities were already detectable at E12, even in the smallest embryos (crown-rump length: 6mm), but there was a striking difference in the number and regional distribution of these two types of IR cells. TH was expressed in several cell groups located in the rostral rhombencephalon (the presumed anlage of the A4-7 complex) as well as in the caudal rhombencephalon (the presumed anlagen of groups A1-2 and C1-3), whereas 5-HT was expressed in very few cells located near the rostral border of the rhombencephalon (presumed anlage of the B4-9 complex). Although the three-dimensional distribution of the TH-IR cell groups underwent some modifications during the period studied, its general pattern remained relatively stable after E12. This contrasted with the sequential appearance of the 5-HT-IR cell groups and their spatial transformations during this period. Using the rhombencephalic isthmus as a landmark, we found that conspicuous 5-HT-IR fibre bundles penetrated into the mesencephalon from E13 onwards, but that the 5-HT IR cell bodies were exclusively located caudal to the borderline between the mesencephalon and the rhombencephalon (the rhombencephalic isthmus). We therefore suggest the term “rostral rhombencephalic raphe nuclei” for the rostral 5-HT cell groups instead of “mesencephalic raphe nuclei,” which is a misnomer. Close spatial association between TH and 5-HT-IR elements was observed mainly in the caudal rhombencephalon, where 5-HT-IR fibres coursed through an area containing numerous TH-IR cell bodies (the presumed anlagen of groups A1-2 and C1-3).

Nerve growth factor binding in aged rat central nervous system: effect of acetyl-L-carnitine.

Abstract: The nerve growth factor protein (NGF) has been demonstrated to affect neuronal development and maintenance of the differentiated state in certain neurons of the peripheral and central nervous system (CNS) of mammals. In the CNS, NGF has sparing effects on cholinergic neurons of the rodent basal forebrain (BF) following lesions where it selectively induces choline acetyltransferase (ChAT). NGF also induces ChAT in the areas to which BF provides afferents. In aged rats, there is a reduction in the NGF-binding capacity of sympathetic ganglia. Here, we wish to report that there is a decrrease in the NGF-binding capacity of the hippocampus and basal forebrain of aged (26-month-old) rats as compared to 4-month-old controls but no change in NGF binding in cerebellum. In all instances, equilibrium binding dissociation constants did not differ significantly. Treatment of rats with acetyl-L-carnitine, reported to improve cognitive performance of aged rats, ameliorates these age-related deficits.

Demonstration of glucocorticoid receptor-like immunoreactivity in glucocorticoid-sensitive vasopressin and corticotropin-releasing factor neurons in the hypothalamic paraventricular nucleus.

Abstract: Many parvocellular neurons in the paraventricular nucleus of the hypothalamus express high levels of corticotropin releasing factor (CRF) or vasopressin following adrenalectomy. To determine whether glucocorticoids feed back directly on these neurons, a mouse monoclonal antibody directed against the rat liver glucocorticoid receptor was used in combination with polyclonal antisera directed against either vasopressin or CRF to permit simultaneous visualization of either peptide with glucocorticoid receptor-like immunoreactivity (IR). Rats were adrenalectomized (ADX) for 2 weeks to optimize numbers of vasopressin - and CRF-IR neurons. Six hours prior to sacrifice, a separate group of adrenalectomized rats was treated with corticosterone (40 mg/kg). This short-term replacement resulted in nuclear localization of glucocorticoid receptor-like-IR but did not attenuate the increased numbers of CRF- and vasopressin-IR neurons observed after adrenalectomy. It was therefore possible to visualize vasopressin- or CFR-IR and nuclear glucocorticoid receptor-like-IR simultaneously. Cell counts of double-labeled neurons in the paraventricular nucleus of the hypothalamus (PVH) demonstrated that glucocorticoid receptor-like-IR is colocalized in virtually all the CRF and vasopressin immunoreactive parvocellular neurons studied, which respond to adrenalectomy by increased peptide expression. These data suggest that a major feedback effect of glucocorticoids on the hypothalamic-pituitary-adrenal axis is exerted directly within nuclei of CRF and vasopressin neurons.

Organization and expression of the human myelin basic protein gene.

Abstract: The human brain contains four isoforms of myelin basic protein (MBP), previously identified by cDNA cloning. We have now isolated and characterized genomic clones encoding the human MBP gene. The gene is 45 kb in extent and consists of seven exons. Alternative splicing of the primary MBP transcript can account for all four human MBP isoforms. The intron-exon boundaries of the gene have also been determined, and all conform to the known consensus splice sequences. These sequences, however, do not explain the alternative splicing pattern found in human brain. Transcription of the human MBP gene begins at a single site within the MBP promoter, and all four MBP isoforms are transcribed from this same site. The promoter region does not contain any known sequence elements, but does have a 12-bp sequence also found in the JC virus 98-bp tandem repeat. A relative gradient of MBP transcription is found from caudal to rostral within the developing human brain, which parallels the known sequence of myelination found in these areas. RNase protection of brain RNA demonstrates more of the 21.5-kD and 20.5-kD MBP mRNAs in neonatal brain than in the adult frontal cortex, which suggests that alternative splicing of the primary MBP transcript is also regulated temporally during myelin development. These data show that regulation of myelination is complex, involving regional cellular interactions and trans activation of transcription, as well as modulation of alternative splicing. Comparison of the human and mouse data also suggests that alternative splicing plays an important role in myelin biogenesis.

Estrogen concentration by substance P-immunoreactive neurons in the medial basal hypothalamus of the female rat.

Abstract: We used the combined technique of steroid autoradiography and immunohistochemistry to simultaneously visualize estrogen-concentrating and substance P-immunoreactive (sP-IR) cells. A substantial proportion (26.1%) of sP-IR cells that bound estrogen was found in the anterior two thirds of the arcuate nucleus with a rapidly diminishing number of cases (8.7%) in the posterior extent of this nucleus. Highest proportions (42.9%) of sP-IR cells retaining estrogen were found in the ventrolateral part of the ventromedial hypothalamic nucleus. The ventral premammillary nucleus was observed to have both populations but coexistence was comparatively infrequent (2.4%). Occasional cases of coexistence were also found in the lateral hypothalamic area. These results provide anatomical evidence that a subset of sP-IR neurons are directly regulated by estrogen and support the hypothesis that sP-containing cells participate in the transduction of hormonal information into a CNS circuitry that regulates gonadotropin secretion and sexual behavior.

Stimulation of oligodendrocyte differentiation in culture by growth in the presence of a monoclonal antibody to sulfated glycolipid.

Abstract: Perturbation of myelinogenesis by monoclonal antibodies against galactolipids is being used to study the role of these lipids in oligodendrocyte differentiation. We report here a marked stimulatory effect on oligodendrocyte differentiation when mixed primary cultures initiated from 19-21 day fetal rat telencephala are grown in the presence of a monoclonal antibody against sulfogalactolipids. When such cultures were grown in the presence of the IgM antibody 04 [Sommer and Schachner, Dev Biol 83:311-327 1981], the oligodendrocytes formed aggregates connected by fasciculated processes. Immunofluorescence microscopy and biochemical analyses of treated cultures demonstrated 2-3 fold increases in the fraction of 04-positive cells expressing myelin basic protein, and in the levels of myelin basic protein RNA, myelin basic protein, 2',3'-cyclic nucleotide 3'-phosphohydrolase activity, and 35SO4 incorporation into sulfatide. Greater than 90% of the cells positive for myelin basic protein in treated cultures were in aggregates. The specific activities of oligodendrocyte markers were unaffected in control cultures grown with nonspecific myeloma IgM. Since there was no increase in the total number of 04-positive cells in treated cultures, the increases in the specific activities of the myelin protein markers appears to be due to an increase in the fraction of cells expressing these markers. Time course studies demonstrated that both the rate and extent of oligodendrocyte differentiation were enhanced in treated cultures. These data are discussed with regard to possible mechanisms of the stimulation, considering not only potential direct effects of the antibody on the cell physiology, but also possible indirect effects due to antibody-induced aggregation.

Effect of epidermal growth factor and insulin on DNA, RNA, and cytoskeletal protein labeling in primary rat astroglial cell cultures

Abstract: The effect of epidermal growth factor (EGF) and insulin on DNA, RNA, and cytoskeletal protein labeling in primary rat astroglial cell cultures was investigated. Cultures were grown for 15–30 days in vitro in 10% fetal calf serum (FCS)-supplemented medium and then maintained in serum-free basal medium (DMEM) supplemented with fatty acid-free bovine serum albumin (BSA) for a starvation period of 24 hr before the addition of factors. The effect of factors was tested at different times (4, 10, 22, and 28 hr). At each time, [methyl-3H]thymidine or [5, 6 -3H]uridine was added to the control and treated cells; the incubation time after the addition of labeled precursors was 2 hr at 37°C. The results obtained indicated that the addition of EGF or FCS significantly stimulated [methyl-3H]thymidine incorporation into DNA, reaching the maximum effect after 22 hr. EGF alone significantly stimulated [3H]uridine incorporation into RNA, and this effect was already maximum at 4 hr and remained constant up to 22 hr. The addition of insulin alone caused a slight increase in nucleic acid labeling for short times (4–10 hr). In contrast with EGF, no detectable stimulation of incorporation of labeled precursors after insulin treatment for 22 hr was observed. On the other hand, the addition of insulin in the presence of EGF induced an increase of the values observed with EGF alone on macromolecular synthesis at all the times studied. Furthermore, a decrease in cell number was observed in confluent cultures maintained for 1 week in medium containing DMEM + BSA in comparison to serum-supplemented (DMEM + BSA + FCS) cultures. The addition of EGF to DMEM + BSA significantly increased cell number, while addition of insulin had no effect. The highest values for cell number were observed when insulin and transferrin were added together with EGF. Moreover, EGF treatment in the presence of serum significantly increased the incorporation of labeled amino acids into vimentin, glial fibrillary acidic protein, and actin.

Lipids of the developing human retina. I. Total fatty acids, plasmalogens, and fatty acid composition of ethanolamine and choline phosphoglycerides

Abstract: The total fatty acid composition of the human retina was studied during early normal development and compared to that found in infancy and in adulthood. The retina of an infant undernourished prenatally and of two malnourished postnatally were also studied and compared to the normal values for the age. The fatty acid patterns of ethanolamine phosphoglycerides (EPG) and choline phosphoglycerides (CPG) were also studied. Total and ethanolamine plasmalogens (EP) were estimated by the aldehyde dimethyl acetal (DMA) content of total lipids and of EPG, respectively. After acid methanolysis, analyses of fatty acid methyl esters (FAME) and of DMA were effected by capillary GLC on a single 30 m long, SP-2330, capillary column. The main developmental fatty acid changes were an increase in 22:6 omega 3, 22:5 omega 3 and 20:3 omega 6 and a decrease in 20:4 omega 6. The 22:6 omega 3/20:4 omega 6 ratio increased in a very significant, parabolical way throughout development. In contrast to the brain, the proportion of ethanolamine plasmalogens decreased with maturation, whereas the ratio 18DMA/16DMA increased. The two postnatally malnourished infants had a very significant increase in retinal 22:5 omega 6, but only the child that had been fed on a very unbalanced omega 3/omega 6 diet since 25 weeks of gestation showed an important decrease in retinal 22:6 omega 3.