Tracing the development of oligodendrocytes from precursor cells using monoclonal antibodies, fluorescence-activated cell sorting, and cell culture

We have used antibody and complement-mediated cell killing, fluorescence-activated cell sorting and tissue culture to study the development of rat oligodendrocytes. We show that (1) three ligands that bind to the majority of CNS neurons (the monoclonal antibodies A4 and A2B5 and tetanus toxin) also bind to immature oligodendrocytes and to precursor cells in 14-day embryonic rat brain that develop into oligodendrocytes in vitro; and (2) precursor cells in 17- to 18-day embryonic rat optic nerve can develop into oligodendrocytes in vitro in the absence of living neurons.     

Modulation of human fetal hepatocyte survival and differentiation by interactions with a rat liver epithelial cell line

Our recent studies have shown that chick embryo epiphyseal cartilage synthesizes three distinct species of proteoglycan (PG-H, PG-Lb, and PG-Lt) which are analogous in having glycosaminoglycan side chains of the chondroitin (dermatan) sulfate type but different from one another in regard to the structure of core protein. In the present report, the expression of PG-H and PG-Lb has been studied in developing chick hind limbs (stages 19-33), using antibodies specific for these substances in indirect immunofluorescence. At the onset of cartilage morphogenesis (stage 24), PG-H became recognizable in the cartilage primordia, whereas a parallel section stained for PG-Lb showed no reaction. The first evidence of PG-Lb appearance was seen in a stage 28 cartilage (e.g., tibia) in which the cells in the middiaphysis became elongated in a direction perpendicular to the long axis of the cartilage. The PG-Lb fluorescence was confined to the zone of these flattened, disc-like cells, whereas the fluorescence for PG-H was uniformly distributed throughout the cartilage. With further development of cartilage (stage 29 approximately), the zone of flattened cells spread proximally and distally, and simultaneously large hypertrophied cells appeared at the diaphyseal region. During these zonal changes of cell morphology, the PG-Lb fluorescence remained restricted to the zone of flattened cells. Parallel sections stained for PG-H, in contrast, showed an evenly distributed pattern of the PG-H fluorescence throughout the cartilage. The results indicate that the appearance of PG-Lb is closely associated with the zonal changes of cell shape and orientation along the proximal-distal axis of the developing limb cartilage, and further suggest that the flattened chondrocytes in this particular zone have undergone additional changes in gene expression to form an extracellular matrix of still another chemical property.     

An analysis of the fate of the chick wing bud apical ectodermal ridge in culture

Stages 20 and 25 chick apical ectodermal ridge have been cultured in nutrient medium containing fetal bovine serum and the tissues have been examined for dying cells at 0, 6, 12, 18, and 24 hr. By 12 hr, an average of 43% of the cells were dying. By 24 hr, stage 20 ridge had lost its integrity and stage 25 ridge contained an average of 50% dying cells. These results are in agreement with the observations of R. L. Searls and E. Zwilling (1964, Dev. Biol. 9, 38-55) on isolated stage 20 ridge. In subsequent experiments, ridge ectoderm was cultured in serum-containing medium to which insulin (5 micrograms/ml), transferrin (5 micrograms/ml), and selenium (5 ng/ml) or insulin (5 micrograms/ml) had been added. Under these conditions the ectoderms remained viable even after 24 hr in vitro.     

Cell free synthesis of rat brain myelin proteolipids and their identification by immunoprecipitation

Rat-brain poly(A)-containing RNAs were prepared by affinity chromatography on Poly(U)-Sepharose and translated in the rabbit reticulocyte lysate system in the presence of [³⁵S]-methionine. By using antimyelin proteolipids antibodies, immunoreactive polypeptides of 23.5 K and 19 K were isolated from the translation products : they had electrophoretic mobilities similar to those of the rat brain myelin proteolipids apoproteins.     

Tissue fractionation in rat brain, kidney and liver. I. Intracellular localization of a 5-methyltetrahydrofolic acid requiring enzyme.

The intracellular distribution of N-methyl-transferase requiring 5-methyl-tetrahydrofolic acid (5 MT-NMT) was studied in brain, kidney and liver of rats. Among these different tissues, the kidney displayed the highest enzyme activity, more than 20 times the activity detected in the brain. As the striatum and, to a lesser extent the hypothalamus, were found to contain slightly higher 5 MT-NMT than other cerebral regions, they were also selected for the study of the subcellular localization. Tissue fractionation was performed by differential centrifugation yielding five different fractions which were analyzed for their enzymatic content not only of 5 MT-NMT but also of marker enzymes, such as cytochrome oxidase, acid phosphatase and inosine diphosphatase. In all the tissues studied, 5 MT-NMT was recovered in the supernatant fraction. Therefore one may consider this enzyme to belong to the cytosol. Although a neuronal localization cannot be excluded, it is beyond doubt that the enzyme is contained in other cellular types. In the brain fractionation, the five fraction procedure seems to be very useful especially when the subcellular distribution of a given enzyme is compared to that obtained in other tissues like liver or kidney. Finally 5 MT-NMT may be considered a good marker enzyme for the supernatant fraction.     

Opiate binding in rat hearts: modulation of binding after hemorrhagic shock

[3H] Diprenorphine was used to measure binding in sectioned rat hearts. Saturable binding for concentrations up to about 20 nM was obtained in the right atrium and ventricle. Unlabeled diprenorphine displaced bound [3H] diprenorphine most effectively in the right atrium (up to 55%), as compared to less than 27% in the right ventricle and the remaining parts of the heart. Scatchard analysis of the binding in the right atrium revealed cooperative binding. The delta agonist [D-Ala2,D-Leu3] enkephalin, the kappa agonist ethylketocyclazocine, and levorphanol, but not the mu agonist [D-ala2,MePhe4,Gly-(ol)5] enkephalin or dextrophan competed variably with [3H]diprenorphine for the binding in the right atrium and ventricle. A significant decrease in binding was observed in the right atrium (-66%) and ventricle (-45%) of hearts removed from rats 2 h after hemorrhagic shock; 24 h after shock, recovery of binding was found. This novel observation suggests that the diprenorphine binding sites in the heart may be physiologically active receptors, involved in regulation of peripheral cardiovascular processes.     

Oriented axon outgrowth from avian embryonic retinae in culture

The neural retina of avian embryos was spread on a membrane filter and cut in any desired orientation. Strips cut across the retina of 4- to 7-day chick or 3- to 6-day quail embryos were explanted onto collagen gels. Vigorous neurite outgrowth was seen for about 3 days, by which time many neurites were 3 mm long. Horseradish peroxidase (HRP) labeling showed that the cells producing the neurites were large and formed a layer near the inner limiting membrane, indicating that the neurites in vitro were axons of retinal ganglion cells. The size of the neurite population and the regions from which neurites emerged vaired with the donor age, while most neurites sprouted from the side of the explant formerly closest to the optic fissure. This pattern closely resembled that of axon growth in the normal retina, as revealed by SEM, silver staining, and HRP labeling. Mitotic inhibitors (Ara-C and FUdR) did not alter the neurite outgrowth. Pretreatment of retinae with trypsin or collagenase did not disorganize axons at the time of explantation, but tended to equalize neurite emergence on each side of the retinal strips. We suggest that microenvironmental factors, especially the enzyme-labile inner limiting membrane, are important for axon guidance in the retina.     

Kinin-forming activity in rat brain

The present study shows that rat brain contains a kinin-forming activity which is distinguishable from plasma kallikrein. Kinin-forming activity was found in an acetone powder of frozen brain tissue (between 27 and 175.5 ng generated bradykinin/g fresh brain tissue/h). Analysis by high pressure liquid chromatography (HPLC) indicated that the kinin formed chromatographed like true bradykinin (BK). After subcellular fractionation using differential centrifugation of homogenized fresh brain tissue the kinin-forming activity was found mainly in a microsomal (P-3) fraction after preincubation with 2 μM melittin. Further fractionation of P-3 fraction using discontinuous sucrose gradient centrifugation identified activity in both the 1 M sucrose layer (5.8 ± 3.1 ng kinin/mg protein/h) and at the interface between the 0.8 and 0.3 sucrose layers (9.4 ± 4 ng kinin/mg protein/h). Melittin pretreatment did not change these values. The distribution pattern of the kallikrein-like activity was different from that of cathepsin d-like acid protease. The two kinin-forming activities were equally sensitive to treatment with various trypsin inhibitors but were clearly distinguishable from plasma kallikrein: brain activity was inhibited completely by Trasylol but not by soybean trypsin inhibitor (SBTI) or ovomucoid while plasma kallikrein was completely inhibited by SBTI and partially by ovomucoid and Trasilol. Our results clearly distinguish between plasma kallikrein, brain cathepsin d-like acid protease activity and an apparent brain kinin-forming activity, but do not by themselves establish a central biosynthetic pathway for kinin generation.     

Ferritin synthesis in rat L-6 cells: response to iron challenge

The short term response of the L-6 cell line of rat skeletal myoblasts to elevated extracellular iron concentrations was studied. It was found in all cases that iron as the nitrilotriacetate (NTA) chelate was effective at donating iron to the cells and at stimulating ferritin synthesis. After 48 h in 50 microM ferric NTA, the cellular ferritin levels rose from an undetectable level to 1.11 (+/- 0.07) ng ferritin/microgram cell protein, or 0.1% of total cell protein. Similarly, the total iron in the cells rose under the same conditions from an unmeasurable level to plateau at over 10 fmol iron/cell. In addition, it was found that these cells synthesize ferritin in response to iron in a dose-dependent manner over a range of iron concentrations from 5-1000 microM. A sensitive and specific immunoradiometric assay for rat ferritin was used in these studies to quantitate ferritin in cell lysates.     

Arachidonic acid metabolim in rat pancreatic acinar cells: Calcium-mediated stimulation of the lipoxygenase system

Isolated rat pancreatic acini were employed to demonstrate that the exocrine pancreas can metabolize [¹⁴C]-arachidonic acid by way of the lipoxygenase pathway as well as the cyclooxygenase pathway. Analysis by high performance liquid chromtography delineated a monohydroxy acid, presumably 12-L-hydroxy-5,8–10,14-eicosatetraenoic acid (12-HETE) as the major lipoxygenase product. The formation of this hydroxy arachidonic derivative was stimulated by the calcium ionophore ionomycin. Stimulation of lipoxygenase pathway by ionomycin was confirmed by thin layer chromatography. In addition, 6-keto-PGF_1α, PGF_2α, and PGE₂ were identified; and ionomycin, carbamylcholine, and caerulein enhanced the formation of these metabolites of the cyclooxygenase pathway. Ionomycin induced stimulation of HETE formation was inhibited by ETYA and nordihydroguaiaretic acid, but spontaneous and evoked enzyme secretion was unaffected. Thus, although ionomycin, a pancreatic secretagogue, stimulates the lipoxygenase pathway, the precise role of these arachidonate metabolites in the physiology of the exocrine pancreas is still obscure.     

Changes of pyruvate dehydrogenase in brain during alloxan diabetes

Alloxan diabetes causes a decrease in the active form of pyruvate dehydrogenase in rat brain. The effect is severe in the cerebellum and brain stem compared to cerebral hemispheres. The changes observed in the total form are not as significant as those found in the active (dephosphorylated) form. The effects are reversed after administration of insulin to diabetic animals. The severity of diabetes was also found to affect the activity of pyruvate dehydrogenase with inverse correlation. There was a gradual increase in the proportion of active (dephosphorylated) form with increase of time after the onset of diabetes.     

Presence of nerve growth factor receptors and catecholamine uptake in subpopulations of chick sympathetic neurons: correlation with survival factor requirements in culture

The presence of nerve growth factor receptors and the imipramine-sensitive uptake of catecholamines in sympathetic neurons of chick embryos were investigated by autoradiography. Neurons were dissociated from paravertebral ganglia of different embryonic ages and receptors and catecholamine uptake were then determined both at the beginning of culture and after 2 days in culture, at which time the number of surviving neurons is determined by the survival factors present. It was found that while essentially all the neurons specifically bound 125I-NGF both after dissociation and at the end of the culture period, only 60% of the neurons take up [3H]norepinephrine after dissociation, and this proportion remained constant through the culture period under conditions where all the neurons survived. All of the neurons maintained by NGF in culture (35% of the total) displayed this uptake, and in contrast, only one-quarter of those maintained by heart cell-conditioned medium alone (60% of the total) took up catecholamines. The uptake was shown to be neither induced by NGF nor suppressed by heart cell-conditioned medium. These results support the hypothesis that chick sympathetic ganglia contain discrete subpopulations of neurons which may be selected in culture by virtue of their different requirements for survival factors.     

Fluorometric assay of kininase activities in rat tissues

A simple method for the assay of bradykinin (BK)-degrading enzymes was investigated. The procedure of the method includes enzymatic degradation of BK, separation of the residual BK on a small P-cellulose column (0.6 X 3 cm), and its fluorometrical determination based on the reaction with fluorescamine. BK was separated completely from its fragments produced during enzymatic reaction by the column chromatography. The recovery rate of BK was 96 +/- 3%. Quantitative determinations could be carried out on 0.2 nmol of BK, at least in the fluorometry. This method was available for the assay of the enzymes in tissue homogenates as well as in purified preparations, and its usefulness for the study of the enzymes is presented.     

The induction of acetylcholine synthesis in primary cultures of dissociated rat sympathetic neurons : II. Developmental aspects

Dissociated sympathetic neurons from the neonatal rat, grown in cell culture in the virtual absence of other cell types, can develop many of the properties expected of differentiated adrenergic neurons including the ability to synthesize and accumulate catecholamines (CA)². However, in the presence of high concentrations of appropriately conditioned medium (CM), the cultures develop the ability to synthesize and accumulate acetylcholine (ACh); correspondingly, their ability to synthesize CA decreases. In this paper several developmental aspects of the CM effect are described. The time course of development of cultures grown with or without CM was followed using synthesis and accumulation of [³H]CA from [³H]tyrosine and production of [³H]ACh from [³H]choline as assays for adrenergic and cholinergic differentiation. The ability to produce CA or ACh developed along parallel time courses in the two sets of cultures, rising primarily during the second week in vitro and reaching a plateau during the fourth week. When CM was used as a cholinergic developmental signal, the sympathetic neurons showed a decreasing response to addition of CM as they matured adrenergically; addition of CM during the third or fourth 10 days in vitro was not as effective in inducing ACh production as addition during the first or second 10 days. Similarly, removal of CM at various times from cultures previously grown in CM showed that the cholinergic induction caused by CM was not easily reversible in older cultures. Thus, as with the adrenergic decision, the cholinergic decision becomes less reversible as the phenotype becomes fully expressed.     

Carnitine uptake and fatty acid utilization by diploid cells aging in culture

Uptake of carnitine by cultured human fetal lung flbroblasts (WI-38 and IMR-90) and by smooth muscle cells from calf aorta and from human uterus was found to be temperature dependent and saturable. IMR-90 cells showed an apparent K_m of 6–8 μM and a V of 21–28 pmol/h/10⁶ cells for l-carnitine. Transport was abolished by N-ethylmaleimide and was inhibited variably by octanoyl-d-carnitine, d-carnitine, and carbonyl cyanide p-trifluoromethoxyphenylhydrazone. Although WI-38 and IMR-90 cells accumulate lipids as they age in culture, they take up carnitine as rapidly as do smooth muscle cells of aorta and uterus that do not exhibit such accumulation. Comparison of the rates of carnitine uptake by IMR-90 fibroblasts during the logarithmic phase of growth shows no difference between “young” and “old” cultures. In contrast, when confluent or postconfluent monolayers were compared and uptake expressed as a function of cell number, cells grown from late passages took up carnitine more rapidly than did cells grown from early passages. However, when account was taken of cell size, and carnitine expressed as a function of cell volume, the differences in carnitine uptake between early and late passages were no longer apparent for the confluent or postconfluent monolayers examined. Moreover, late passage fibroblasts took up and oxidized radioactive palmitate at least as rapidly as did cells from early passages. Our results suggest that accumulation of lipid in aging fibroblasts is not due to decreased carnitine uptake or fatty acid oxidation.     

Inhibition of plasma prolactin in the rat by amantadine

A single iv injection of 15 or 30 but not 7.5 mg/kg BW of an antiviral drug, amantadine, significantly (P less than 0.05) decreased plasma prolactin (PRL) concentrations in male rats. This effect was dose-dependent, with the highest dose producing a longer-lasting decrease in plasma PRL. The amantadine-induced decrease was unaffected by a simultaneous injection of 5-hydroxytryptophan (30 mg/kg BW) but was completely blocked by a simultaneous injection of haloperidol (0.05 mg/kg BW). It is concluded that this novel effect of amantadine on PRL is produced by an interaction with the dopaminergic system.     

Influence of ganglion age,nonneuronal cells and substratum on neurite outgrowth in culture

This study characterizes the outgrowth patterns of superior cervical ganglia (SCG) obtained from embryonic (E15), perinatal (E20–21), and adult (P35) rats when placed in culture on various substrata. Outgrowth morphology, degree of fasciculation, and outgrowth length were examined on collagen (COL), polyornithine (PO), polylysine (PL), fibronectin (FN), and nonneuronal cells (NNCs) from the ganglion. COL and FN supported extensive neuritic outgrowth; PO and PL provided poor support. Outgrowth pattern, degree of fasciculation, neurite growth rate, and the number of NNCs in the outgrowth varied considerably depending upon the COL configuration. When undiluted COL (～5 mg/ml) was air dried, a three-dimensional loose fibrillar network was formed. Upon COL dilution or gelling undiluted COL by ammoniation, an essentially two-dimensional layer was formed. On two-dimensional COL, NNCs were able to proliferate and migrate extensively from ganglia of all ages; their presence influenced the form and extent of neurite growth. E15, E20, and P35 neurites responded differently to their endogenous NNCs. E15 neurites extended in relation to NNC surfaces and were predominantly nonfasciculated. E20 neurites became more fasciculated in the presence of NNCs that exhibited morphological and behavioral differences from those migrating from E15 ganglia. E20 neurite bundles became defasciculated when they extended into E15 outgrowth. Far fewer neurites grew from P35 explants in the presence of their NNCs. Three-dimensional COL greatly slowed NNC migration and thus allowed investigation of neurite outgrowth from ganglia of differing age in the absence of NNCs. We conclude that neuritic outgrowth patterns on varying substrata reflect not only neurite differences depending upon ganglion age but also variation in the behavior of accompanying NNCs.