Axolemma is a mitogen for human Schwann cells

The mechanisms responsible for the induction of Schwann cell proliferation in peripheral nerves undergoing wallerian degeneration and segmental demyelination are not understood. To determine whether contact with axolemma stimulates mitosis of human Schwann cells, cultured Schwann cells from spinal roots obtained postmortem and from sural nerve biopsy specimens were incubated with axolemmal fractions prepared from human spinal cord or from adult rat central nervous system. Schwann cell proliferation was estimated by autoradiographic assay of tritiated thymidine incorporation. Schwann cell labeling indices after exposure to human or rat axolemmal fractions ranged from 26.7 to 59.9%; labeling indices of Schwann cells cultured without axolemmal fraction were 9.8 to 22.4%. The stimulation index, or ratio of Schwann cell labeling index with axolemmal fraction to that without axolemmal fraction, ranged from 1.97 to 3.40. This study demonstrates that both human and rat axolemma are capable of stimulating human Schwann cell replication in vitro.     

Adhesion of axolemmal fragments to Schwann cells: a signal- and target-specific process closely linked to axolemmal induction of Schwann cell mitosis

Radioiodinated rat CNS axolemmal fragments adhered to cultured rat Schwann cells by a time-, temperature-, and concentration-dependent process independent of extracellular ionized calcium. Adhesion showed target and signal specificity; axolemmal fragments adhered to endoneurial or dermal fibroblasts to a much lesser extent than to Schwann cells, and plasma membrane fragments from skeletal muscle, erythrocytes, or PNS myelin adhered to Schwann cells to a lesser extent than did axolemmal fragments. Brief trypsinization removed 94 to 97% of bound radioactivity from Schwann cells previously incubated with 125I-axolemmal fragments for up to 24 hr, indicating that adhesion was largely a surface phenomenon rather than the result of rapid internalization of axolemmal fragments by the Schwann cells. When adhesion was compared to the axolemmal mitogenic response of Schwann cells, the concentration of axolemmal fragments yielding half-maximal adhesion was the same as the concentration producing half-maximal stimulation of Schwann cell mitosis. Trypsin digestion, homogenization, or heating of axolemmal fragments before application to cultured Schwann cells diminished adhesion and axolemmal fragment-induced stimulation of Schwann cell mitosis in a parallel fashion. Whereas adhesion of axolemmal fragments to the surfaces of the cultured Schwann cells reached completion within 4 hr in this assay system, induction of Schwann cell mitosis by the fragments required contact with Schwann cells for a minimum of 6 to 8 hr and reached a maximum when the axolemmal fragments had adhered to the Schwann cells for 24 hr or more.     

Binding of [125I]insulin to specific receptors and stimulation of nucleotide incorporation in cells cultured from rat brain

The occurrence of insuling receptors and biological responses to insulin has been investigated in trypsin-dissociated fetal rat brain cells maintained in culture for 8 days. Binding of [¹²⁵]insulin to brain cells in culture was time- and pH-dependent and 85–90% specific. Porcine insulin competed for [¹²⁵]insulin binding in a dose-dependent manner. Unrelated polypeptides, including angiotensin II, glucagon, bovine growth hormone, and bovine prolactin did not compete for [¹²⁵]insulin binding. The half-life of [¹²⁵]insulin dissociation from receptors at 24°C was 15 min and a plot of ln[B/Bo] vs time suggested two dissociation rate constants of2.7 × 10⁻⁴ sec⁻¹ and5.0 × 10⁻⁵ sec⁻¹. Scatchard analysis of the binding data gave a curvelinear plot which may indicate negative cooperativity or the occurrence of both high affinity(K_a = 2 × 10¹¹M⁻¹) and low affinity(K_a = 4 × 10¹⁰M⁻¹) sites. Of the estimated total of 4.9 × 10⁴ binding sites per cell, 28–30% appear to be high affinity sites.

Incubation of cultures with insuling caused a time- and dose-dependent stimulation of [³H]thymidine and [³H]uridine incorporation into TCA-precipitable material. Maximum stimulation of thymidine incorporation (2–5-fold) occured 11 h after incubation with 167 nM insulin. The same concentration of insulin caused a 2.2-fold increase in [³H]uridine incorporation in 2 h. These results indicate that cells cultured from rat brain contain specific insulin receptors capable of mediating effects of insulin on macromolecular synthesis in the central nervous system.     

Histamine H1-receptors mediate phosphoinositide hydrolysis in astrocyte-enriched primary cultures

Astrocyte-enriched primary cultures of newborn rat brain hemispheres, prelabeled with [³H]inositol, accumulated [³H]inositol phosphate but not [³H]inositol bis-and tris-phosphate, after exposure to histamine for 60 min in the presence of 10 mM LiCl. The response to histamine was not a function of contaminating meningeal fibroblasts since no accumulation of [³H]inositol phosphate was elicited by histamine in meningeal cultures. The stimulation of phosphoinositide hydrolysis by histamine in astrocytes was dose-dependent (EC₅₀ = 1.7 μM, maximal effect = 345% over basal levels) and was mimicked by several H₁-receptor agonists. The use of selectiver receptor antagonists confirmed that the histamine response was the result of activation of H₁-receptors. The histamine-induced [³H]inositol phosphate accumulation was completely abolished by omission of Ca²⁺ from the incubation medium. Astrocyte membranes specifically bound the radiolabeled H₁-antagonist, [³H]mepyramine with an affinity (K_d = 5.9 nM) and a density of binding sites (B_max = 113 fmol/mg protein) similar to rat brain. These results demonstrate the presence of functional histamine H₁-receptors in rat brain astrocytes and suggest a role for histamine as a neuromodulator of astrocyte function.     

Astroglial proliferation and phenotype are modulated by neuronal plasma membrane

The rate of proliferation of rat astroglia cultured in a serum-free medium, estimated by tritiated thymidine radioautography, was diminished by more than 50% by addition of rat central nervous system axolemmal fragments to the culture medium. Addition of the axolemmal fragments also induced a phenotypic alteration of the cultured astroglia, from cells of irregular shape containing a fine meshwork of intracytoplasmic glial fibrils to star-shaped cells with thicker, cable-like glial fibrils.     

Studies on cultured rat Schwann cells. I. Establishment of purified populations from cultures of peripheral nerve

We have previously reported that in dissociated cultures of neonatal rat sciatic nerve, all of the cells could be identified by indirect immunofluorescence with two antisera to cell surface antigens. The Schwann cells, but not the fibroblasts, expressed the Ran-1 antigen, while the fibroblasts, but not the Schwann cells, expressed the Thy-1 antigen. We have exploited this difference to derive pure populations of Schwann cells. A combination of [3H]thymidine autoradiography and immunofluorescence marking showed that in Modified Eagle's Medium with 10% foetal calf serum, the Schwann cells divided slowly while the fibroblasts divided rapidly. Accordingly, two day old cultures were exposed to cytosine arabinoside to select against the fibroblasts, followed by growth in medium containing an extract of bovine pituitary which stimulated division of the Schwann cells. After 7 days the confluent cultures, which contained 80-90% Schwann cells, were passaged after treatment in suspension with antiserum to Thy-1 and rabbit complement. After continued growth in medium with pituitary extract, the secondary cultures contained greater than 99.5% Schwann cells. These purified populations have been maintained in culture for as long as 150 days (6 passages) and retained the Ran-1 marker. The cultured Schwann cells expressed the S100 antigen, as shown by indirect immunofluorescence and complement fixation, and receptors for cholera toxin. They did not express the large external transformation sensitive protein, the glial fibrillary acidic protein, or receptors for tetanus toxin.     

4S RNA is transported axonally in normal and regenerating axons of the sciatic nerves of rats

Experiments were designed to determine if following injection of [³H]uridine into the lumbar spinal cord of the rat, [³H]RNA could be demonstrated within axons of the sciatic nerve, and if 4S RNA is the predominant RNA species present in these axons.

In one experiment the left sciatic nerve of a rat was crushed. Two days later 170 μCi of [³H]uridine was injected into the vicinity of the lumbar ventral horn cells. Ten days after injection, rats were sacrificed and sciatic nerves were prepared for autoradiography. Photomicrographs were taken of labeled areas of intact and regenerating nerves and grains were counted over Schwann cells, myelin, axons and other unspecified areas. In both intact and regenerating sciatic nerves more than 20% of the silver grains were associated with motor axons and approximately 40% were found over cytoplasm of Schwann cells surrounding these axons. These data indicate an intra-axonal localization of RNA in sciatic nerve axons, as well as an active transfer of RNA precursors from axons to their surrounding Schwann cells.

In separate studies, the left sciatic nerve was crushed and 10 days later [³H]-uridine was bilaterally injected intraspinally into 6 rats. Four control rats were sacrificed at 14 or 20 days after injection. In the remaining 2 rats the sciatic nerve was cut 14 days after injection and the distal part of the nerve was allowed to degenerate for 6 days before sacrificing the rat. Thus, the distal portion of the nerve contained Schwann cells labeled by axonal transport but lacked intact axons. RNA was isolated from experimental and control nerve segments by hot phenol extraction and ethanol precipitation. RNA species (28S, 18S and 4S) were separated by polyacrylamide gel electrophoresis and radioactivity was measured in a liquid scintillation counter. Control groups had RNA profiles similar to those already described²⁰, with greater than 30% of the radioactivity present as 4S RNA. The proximal portions of nerve taken from the group in which nerves were cut, had a similar amount of radioactivity present as 4S RNA. However, in the distal segments of these nerves (in which the axons had degenerated thus creating an ‘axon-less’ nerve) the amount of radioactivity in the 4S peak decreased to approximately 15% of the total RNA, suggesting that 4S RNA is the predominant if not the only RNA present in these axons. These results strongly indicate that both intact and regenerating sciatic nerves of rats selectively transport 4S RNA along their motor axons.     

A comparison of two factors affecting the proliferation of non-neuronal (glial) cells in vitro

Earlier studies have shown that the proliferation of sympathetic non-neuronal cells in vitro can be stimulated either by direct contact with growing neurons or by addition of sonicated neurons of the same type to the culture medium. Several lines of evidence presented herein suggest that intact neurons and neuronal sonicate probably stimulate [³H] thymidine incorporation by disticctly different mechanisms. First, mitogenic factors are present in sonicates of cell types (fibroblasts and non-neuronal cells) which do not stimulate non-neuronal cell proliferation when added asintact cells. Second, neuronal sonicate and intact neurons differ in the types of cells which are responsive no their mitogenic influence. Third, intact neurons do not appear to stimulate non-neuronal cell proliferation by the same mechanism as that of neuronal sonicate.Further similarities between stimulation of non-neuronal cell proliferation in vitro and reactive gliosis in vivo are discussed.     

Characterization of rat schwannoma-schwann cell hybrids

Sciatic nerve Schwann cells from strain LEC rats, homozygous for the c form of 6-phosphogluconate dehydrogenase (6-PGD), and RN22 rat Schwannoma cells, a subclone of RN2 deficient in hypoxanthine phosphoribosyltransferase and expressing the s form of 6-PGD, were fused to produce 'RNS' hybrid clones which proliferate rapidly in a medium containing hypoxanthine, aminopterin and thymidine (HAT) and express c, s and c/s heterodimeric forms of 6-PGD. RNS cells, like both parents, maintain a high baseline activity of 2', 3'-cyclic nucleotide 3'-phosphohydrolase and, as in RN22, activity of this enzyme is further inducible by 1 mM N6, O2'-dibutyryl 3', 5'-cyclic AMP. The RNS clones resemble normal Schwann cells in the capacity to bind radioiodinated axolemmal fragments to their plasma membranes.     

The differentiation of synthesis from incorporation of basic protein in quaking mutant mouse myelin

The incorporation of radioactive label into the myelin basic protein isolated from whole brain and from purified myelin of Quaking mice and normal littermates was compared. Four Quaking mice (32 days) and 4 littermate controls were injected intracranially with 150 μCi [2-²H]glycine and 25 μCi of [2-¹⁴C]glycine, respectively. One hour later, the 8 mice were sacrificed and their brains combined for common homogenization. The ³H/¹⁴C ratios of the small and large basic proteins in whole brain were 3.44 and 2.48 respectively, while the ³H/¹⁴C ratios for these proteins in myelin were 0.79 and 1.00, respectively. In the same experiment, the microsomal fraction had a ³H/¹⁴C ratio of 2.98 which is the expected ratio for normal incorporation. The results indicate that the synthesis of basic protein in whole brain of Quaking mouse proceeds at a normal rate, but specifically, the incorporation of basic protein into myelin is depressed suggesting a defect at the step of assembly of myelin components into a final membrane product.     

Isolated growth cones stimulate proliferation of cultured Schwann cells.

A growth cone-enriched fraction was prepared from 3-4 day rat cerebra. Examination of the growth cone fraction by electron microscopy revealed numerous structures circular in appearance that contain a number of features common to neuronal growth cones in vivo. The isolated growth cones stimulated a dose-dependent incorporation of [3H]-thymidine into cultured Schwann cells in a manner similar to that observed with an axolemma-enriched fraction prepared from adult rat brainstem. The mitogenic activities of both the growth cone fraction and axolemma-enriched fraction were decreased 50% and 20%, respectively, by treatment with heparitinase I. The mitogen for Schwann cells present in the isolated growth cones appears to be similar to that found in axolemma-enriched fractions prepared from adult rats.     

Regulation of Schwann cell proliferation in cultured segments of the adult rat sciatic nerve

Schwann cell proliferation was studied in cultured segments of the rat sciatic nerve by measurement of [³H] thymidine incorporation or through bromodeoxyuridine-(BrdU)-labelling and immunocytochemistry. The aim was to delineate mechanisms involved in the injury-induced proliferative response of Schwann cells. Removal of extracellular Ca²⁺ by addition of EGTA to the culture medium suppressed [³H] thymidine incorporation as did the calmodulin inhibitor 48/80. The Ca²⁺ ionophore A23187 increased incorporation. Staurosporin, an inhibitor of protein kinase C (PKC), suppressed [³H] thymidine incorporation while phorbol-12-myristate-13-acetate (PMA) enhanced incorporation. Manipulation of the cAMP system showed that increased cAMP levels inhibited proliferation. Inhibition of protein kinase A by HA 1004 increased the incorporation of [³H] thymidine. Immunostaining for BrdU and glial specific markers together with morphological evaluation of myelin association showed that proliferation occurred in Schwann cells. The results are consistent with a model in which Schwann cell proliferation is enhanced by Ca²⁺ through activation of calmodulin-dependent and/or PKCdependent mechanisms. Inhibition is achieved through the cAMP system. Together, these results show that Schwann cells regulate proliferation differently in an integrated environment, e.g. the nerve structure, than in isolation as primary monocultures. J. Neurosci. Res. 52:530–537, 1998. © 1998 Wiley-Liss, Inc.     

Glucocorticoids enhance the potency of Schwann cell mitogens

Previous studies have documented that cultured Schwann cells require serum-containing medium to respond maximally to mitogens. We now report that Schwann cells are able to proliferate to a mitogenic response in a serum-free defined medium termed oligodendrocyte defined media (ODM). Glucocorticoids are the essential component of ODM which allow Schwann cell proliferation in the serum-free medium. Charcoal treatment of the fetal calf serum decreases the mitogenic potency of the axolemma-enriched fraction (AEF) by 50%. The addition of 2 μM hydrocortisone to charcoal-treated fetal calf serum restores 75% of the lost mitogenicity. These observations are consistent with the view that glucocorticoids present in fetal calf serum are potent co-mitogens essential for AEF-induced Schwann cell proliferation. The synthetic glucocorticoid, dexamethasone, is a more potent co-mitogen than hydrocortisone, with a maximal effect at concentrations less than 10 nM. In contrast, other steroids including aldosterone, progesterone, testosterone, and 17β-estradiol have no effect on enhancing the mitogenic response of Schwann cells to the AEF. The glucocorticoid antagonists RU 486 and dehydroepiandrosterone (DHEA), but not the antiestrogenic compound tamoxifen, block AEF-induced Schwann cell proliferation. These results suggest that glucocorticoid-induced Schwann cell proliferation is mediated through a glucocorticoid receptor (GR) mechanism. We detected immunoreactivity to the GR in the cytoplasm, but not in the nuclei of Schwann cells grown in ODM lacking dexamethasone. The addition of 100 nM dexamethasone to these cultures resulted in immunoreactivity in the nucleus. This data suggests that glucocorticoids working through the GR are potent co-mitogens for Schwann cell proliferation. © 1994 Wiley-Liss, Inc.     

Stimulated release of [H]β-alanine from the rabbit retina

The efflux of [³H]β-alanine from rabbit retina after intravitreal injection has been studied.

The site of uptake of [³H]β-alanine into retina was checked by autoradiography and was found mainly in the inner plexiform layer and in cells with the position of amacrines and in some ganglion cells.

When the preloaded retina was stimulated by light flashes the release of radioactivity increased significantly. Chromatography of the superfusate demonstrated a single radioactive spot which cochromatographed with authentic β-alanine.

The efflux of [³H]β-alanine was affected by raising the K⁺ concentration. The rate of efflux was also immediately increased when unlabelled β-alanine or GABA was added to the superfusion medium. Glycine was much less effective.

The present study shows that light stimulation releases [³H]β-alanine from the retina and that β-alanine may use the same transport system as GABA. This further supports the suggestion that β-alanine may act as a ‘false transmitter’ replacing GABA in the retina.     

Vascular lipoxygenase activity: synthesis of 15-hydroxyeicosatetraenoic acid from arachidonic acid by blood vessels and cultured vascular endothelial cells

Although indirect pharmacologic evidence has suggested the presence of a lipoxygenase pathway of arachidonic acid (AA) metabolism in blood vessels, direct biochemical evidence has been difficult to demonstrate. We have investigated lipoxygenase metabolism in both fresh vessel preparations and cultured vascular cells from various sources and species. Lipoxygenase-derived [³H]HETE (composed of 12-HETE, 15-HETE and 5-HETE), which was abolished by ETYA but not by aspirin, was formed when [³H]AA was incubated with fresh sections of rat aorta. Lipoxygenase activity was lost following deendothelialization. A single peak of [³H]15-HETE was produced by cultured bovine aortic and human umbilical vein endothelial cells (EC) in response to exogenous [³H]AA or from [³H]AA released by ionophore A23187 from endogenous EC membrane phospholipid pools. Cultured bovine, rabbit or rat aorta smooth muscle cells had no detectable 15-lipoxygenase activity. ¹⁴C]Linoleic acid was converted by EC to its 15-lipoxygenase metabolite, [¹⁴C]13-hydroxyoctadecadienoic acid. These results indicate that blood vessels from different sources and species have a 15-lipoxygenase system, and this activity resides predominantly in the endothelial cells.     

Incorporation of intrastriatally injected [H]fucose into electrophoretically separated synaptosomal glycoproteins. I. Turnover and molecular weight estimations

The radioactivity profiles of electrophoresed neostriatal P₂ fraction glycoproteins were examined at a series of times (2.5, 3 and 4 h; 1, 5 and 10 days) following intracranial injections of [³H]fucose into the neostriatum. Ten major fucosylglycoprotein peaks were discerned in these profiles and certain aspects of their metabolism were characterized. The half-life of fucosylglycoproteins in the P₂ fraction was estimated to be 9.7 days. The half-lives of the individual glycoprotein peaks ranged from 4.9 to 17.9 days. The apparent molecular weights of the glycoprotein peaks obtained by our procedures ranged from 32,000 to 180,000 daltons. One peak (peak VIII) incorporated radioactivity primarily at short intervals following the injection. The time course of [³H] fucose incorporation into this peak suggests involvement in the transport, activation and/or incorporation of fucose in brain. Since intracranial injections of [³H]fucose are incorporated into proteins in the cell body, synaptosomal fractions from caudate neurons alone are labeled by this technique. This may be useful in separating pre- and postsynaptic glycoprotein biochemistry. Finally, we tentatively propose that the glycoprotein peaks observed in neostriatum may be identical to previously isolated glycoproteins of known function or subcellular location.     

Decreased [H]hemicholinium binding to high-affinity choline uptake sites in aged rat brain

The binding of [³H]hemicholinium ([³H]HCh-3) to sodium-dependent high-affinity choline uptake sites provides a useful neuroanatomical and functional marker of the cholinergic system. We examined the autoradiographic distribution of [³H]HCh-3 binding sites in the forebrain of young (4–6 months) and old (32 months) rats. There was a widespread reduction of [³H]HCh-3 binding site density in the aged rat brain. This loss presented regional differences with maximal reduction in the medial and posterior striatum (55%) and in the dentate gyrus (47%), in limbic areas such as basolateral amygdala, tubercle olfactorium and piriform cortex the autoradiographic signal was about 25–30% lower. In aged hippocampus and cerebral cortex the density of [³H]HCh-3 binding sites was about 40% lower, the difference between young and senescent animals being less evident in the medial septum and basal nucleus. No significant alterations were observed in interpeduncular nucleus from old rats. These data are in agreement with the functional results obtained by measuring other cholinergic parameters in the aged rat and confirm the vulnerability of cholinergic system during aging     

Evidence for defective incorporation of proteins in myelin of the quaking mutant mouse

The defect in myelinogenesis present in the Quaking mutant mouse was investigated using a double radioisotope technique for comparing the incorporation of amino acid into myelin proteins of normal and mutant mice. Quaking mice and littermate controls recieved intracranial injections of 150 μCi [³H]glycine and 25 μCi of [¹⁴C]glycine respectively. After 2 h their brains were combined and jointly processed to obtain subcellular fractions. The ³H/¹⁴C ratio for the myelin subfraction was 1.88 as compared to a ³H/¹⁴C ratio of 3.0 for the other subfractions, indicating a 40% decrease in glycine incorporation into myelin of Quaking mice. Myelin proteins were separated by discontinuous gel electrophoresis in the presence of sodium dodecyl sulfate (SDS) and the ³H/¹⁴C ratios determined in each gel slice. In contrast to the microsomal subfractions which gave a ³H/¹⁴C ratio of 2.6 across the gel, the ³H/¹⁴C ratio of myelin showed large variations with values ranging from 0.54 for proteolipid protein to 2.0 for some of the high molecular weight proteins. During development, the Quaking mutant exhibited a preferential depression in glycine incorporation into proteolipid protein in 18-day-old mice, while in older animals (32–54 days) the fast migrating basic protein, as well as the proteolipid protein, was labeled to a significantly lesser extent.     

The relationship between extracellular amino acids and protein synthesis is altered during axonal regeneration

The incorporation of [³H]proline into proteins of goldfish retinal ganglion cells was measured by light microscopic autoradiography of isolated retinas that had been incubated in labeled medium under pulse-chase conditions. It was found that the composition of the immediate precursor pool for protein synthesis is more directly influenced by extracellular amino acids in regenerating cells 14 d after axotomy than in sham-operated controls.