Differential proliferative responses of cultured Schwann cells to axolemma- and myelin-enriched fractions. I. Biochemical studies

Cultured rat Schwann cells were treated for 72 h with axolemma- and myelin-enriched fractions prepared from rat brainstem. [3H]Thymidine was added to the cultures 48 h before the termination of the experiment. Although, both fractions produced a dose-dependent uptake of label into Schwann cells, the shape of the dose response curves and rates at which [3H]thymidine was incorporated were different. The axolemma-enriched fraction produced a sigmoid dose response curve with a Hill coefficient of 2.05. The dose response curve for myelin rose sharply and saturated at a level that was approximately 50% of the maximal response observed with axolemma. Schwann cells that had been treated with axolemma exhibited little change in the rate of [3H]thymidine incorporation from 36-72 h after the addition of the membranes. In contrast, Schwann cells accumulated label three times faster during the 48-72-h period following the addition of myelin to the cultures when compared with the rate during the preceding 12-h interval. Furthermore, the mitogenic activity of the myelin-enriched fraction was decreased by the addition of ammonium chloride, a lysosomal inhibitor, whereas the activity of the axolemmal fraction was not impaired.     

Effect of Lithium on Schwann Cell Proliferation Stimulated by Axolemma- and Myelin-Enriched Fractions

Cultured Schwann cells stimulated with an axolemma- or myelin-enriched fraction incorporated 2.5 to three times as much [3H]thymidine when 10 mM lithium was added to the extracellular medium. The ability of lithium to enhance the mitogenic activity of either fraction was dose dependent. This result was not due to an increase in osmolarity, because addition of 10 mM NaCl had no effect on the amount of labeled thymidine accumulated by Schwann cells treated with either membrane fraction. In an earlier study, the effect of either membrane fraction could be potentiated with active phorbol esters. Lithium significantly enhanced the incorporation of [3H]thymidine into Schwann cells treated with a myelin-enriched fraction and phorbol esters. In contrast, lithium slightly increased the amount of labeled thymidine incorporated into Schwann cells stimulated with an axolemma-enriched fraction and phorbol esters. The mitogenic activity of either membrane fraction was impaired when the calcium channel blockers Mn2+ and nifedipine were added. Addition of lithium stimulated an increase in the amount of [3H]thymidine accumulated by Schwann cells treated with either the axolemma- or myelin-enriched fraction in the presence of either Mn2+ or nifedipine.     

1-Oleoyl-2-Acetylglycerol and A23187 Potentiate Axolemma-and Myelin-Induced Schwann Cell Proliferation

The effects of 1-oleoyl-2-acetylglycerol (OAG) and the calcium ionophore A23187 on the proliferation of Schwann cells stimulated with either a myelin-enriched membrane fraction (MEF) or an axolemma-enriched membrane fraction (AEF) have been examined. Using incorporation of [3H]thymidine as an index of proliferation, 16% of the cells became labeled after incubation with MEF (20 micrograms protein/ml) and AEF (40 micrograms protein/ml) for 72 h. Only 0.5% of the cells became labeled in cultures which were not exposed to the membrane fractions. Addition of OAG (10-500 microM) or A23187 (1.9-190 nM) in the absence of the membrane mitogens had no effect on the proliferative response of quiescent cultures of Schwann cells. When added simultaneously, however, OAG and A23187 were able to induce proliferation of the cells, although the response was only 30% of the response achieved with maximal doses of either AEF or MEF. Both OAG and A23187 were able to potentiate the mitogenicity of AEF or MEF, but only when AEF and MEF were added at submaximal concentrations. When Schwann cells were prelabeled with [3H]glycerol and then stimulated to proliferate with AEF or MEF, the amount of [3H]diacylglycerol was increased two- to threefold above that in control cultures for time periods up to 1 h. These results suggest that the proliferation of Schwann cells induced by either AEF or MEF is partially mediated through the combined effects of diacylglycerol and an increase in intracellular calcium.     

Schwann Cell Proliferation Is Accompanied by Enhanced Inositol Phospholipid Metabolism

Inositol phospholipid metabolism during mitogen-induced Schwann cell proliferation has been examined. Addition of axolemma- and myelin-enriched membrane fractions (AXL and MYE, respectively) to cultured Schwann cells stimulated 32P incorporation into phosphatidylinositol 4-monophosphate [PtdIns(4)P] and phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P2]. During the first 5 min of incubation with the mitogens, the amount of 32P incorporated into PtdIns(4)P and PtdIns(4,5)P2 was four- to fivefold above control values. The phosphorylation of the inositol phospholipids was dependent on the concentration of membrane mitogens and was maximal within 1 h. Schwann cells that were prelabeled with [3H]glycerol and then stimulated with AXL and MYE displayed a 30-70% increase in the amounts of [3H]PtdIns(4)P and [3H]PtdIns(4,5)P2 and a 60-80% increase in the amount of [3H]phosphatidic acid. A concomitant 20% decrease in the content of [3H]PtdIns was observed after stimulation. These results suggest that the increased metabolism of PtdIns, PtdIns(4)P, and PtdIns(4,5)P2 may be one of the initial molecular events in the transduction of the mitogenic signal across the Schwann cell plasma membrane.     

Differential spermatogonial stem-cell survival and mutation frequency

One group of adult C3H×101 hybrid male mice was given 3 injections of 12.5 μCi of [³H]thymidine at 9-h intervals and irradiated 24 h after the last injection with X-ray doses of 100, 300, 500, 600, 1000 R or the first fraction of a split 1000-R dose given as two 500-R exposures 24 h apart. Mice were killed 207 and 414 h after irradiation. A second group of mice was given a single injection of 12.5 μCi of [³H]thymidine 1 h before irradiation with single exposures of 300, 500, 600, 1000 R, or the first fraction of a 1000-R exposure given as two 500-R fractions 24 h apart. Mice were killed 120 and 207 h after irradiation. In both experiments, parallel groups of mice were given X-ray only as a control for the effect of [³H]thymidine. Two sets of slides were prepared for each mouse receiving [³H]thymidine: one set was not autoradiographed and was used for scoring cell survival; the second set was coated with emulsion and used for scoring percentage of labeled cells. The dose-response curves for survival at 120 and 207 h were curvilinear, with no evidence of discontinuity over the 100–1000-R range. After multiple injections of [³H]thymidine and irradiation 24 h later, percentage of labeled cells at 207 h was comparable for controls, 100, 300, and 600 R; significantly lower than controls for 1000 R; and significantly above controls after 500 + 500 R. Thus the surviving stem-cell population was qualitatively the same for that portion of the dose-response curve giving a linear increase in mutation rate but was different for both 1000-R and 500 + 500-R exposures, and the single and fractionated 1000-R exposures differed from each other. This parallelism between survival of labeled cells and mutation frequency in spermatogonial stem cells suggests that a stage in the cell cycle 24–42 h after DNA synthesis is resistant to cell killing but sensitive to mutation induction. The mutation rate after a single 1000-R exposure is low because labeled, mutation-sensitive cells have been selectively killed. Mutation frequency after the 500 + 500-R dose is increased because of synchronization induced by the first dose combined with selective killing of unlabeled cells by the second fraction. Irradiation 1 h after labeling with [³H]-thymidine demonstrated that the S phase of the spermatogonial stem-cell cycle is sensitive to radiation-induced cell killing.     

RNA synthesis by villus and crypt cell nuclei of rat intestinal mucosa

Rat intestinal mucosa was separated by eversion and vibration to provide a sequence of fractions from predominantly villus cells to predominantly crypt cells. The proportions of these cell types in each fraction were computed from the concentrations of alkaline phosphatase (villus cells) and thymidine kinase (crypt cells) in each population. The isolated mucosal fractions varied from about 90% villus cells to 90% crypt cells. Following injection of the rats with [³H]thymidine, the nuclei were isolated from each mucosal cell fraction and the amount of radioactivity incorporated into DNA was measured as an index of crypt cell abundance. The isolated nuclei were also incubated with ribonucleoside triphosphates and the amount of RNA synthesized was measured. Nuclei labeled with [³H]thymidine were found only in fractions rich in crypt cells, whereas capacity for RNA synthesis remained very active in mucosal fractions consisting predominantly of villus cells. It is concluded that non-dividing villus cells continue to make RNA.     

Interstitial cell proliferation in the testis of the ethylene dimethane sulfonate-treated rat.

This study was conducted to examine interstitial cell proliferation in the testis of the ethylene dimethane sulfonate (EDS)-treated rat. Initial autoradiographic studies demonstrated a peak of [3H]thymidine incorporation by interstitial cells at 2 and 4 days post-EDS treatment. Subsequent studies were designed using in vivo pulse labeling regimens in an attempt to identify interstitial cell proliferation associated with Leydig cell regeneration. Rats were injected with [3H]thymidine at days 2 and 4 post-EDS and were killed 6 hours later or at 30 days post-EDS. Although cells labeled at 2 and 4 days post-EDS appeared to undergo subsequent division, the Leydig cells visible at 30 days post-EDS were not labeled. In a second study, rats were injected with [3H]thymidine at days 10 and 20 post-EDS and were killed either 6 hours later or at 24 days post-EDS. In the 10-day post-EDS group, interstitial cells were labeled at both the 6-hour and 24-day time points; however, Leydig cells present at 24 days were not labeled. In contrast, the testes of rats that were killed at 20 days post-EDS (6 hours labeling period) contained Leydig cells that displayed grains over the nucleus, thus suggesting that Leydig cell proliferation had occurred. In addition, a high number of the Leydig cells observed at 24 days post-EDS were labeled, suggesting that they arose from divisions occurring during the 20- to 24-day post-EDS period. These studies demonstrate that interstitial cell proliferation occurs in several stages following EDS treatment.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cerebellar granule cells contain a membrane mitogen for cultured Schwann cells

Proliferation of Schwann cells is one of the first events that occurs after contact with a growing axon. To further define the distribution and properties of this axonal mitogen, we have (a) cocultured cerebellar granule cells, which lack glial ensheathment in vivo with Schwann cells; and (b) exposed Schwann cell cultures to isolated granule cell membranes. Schwann cells cocultured with granule cells had a 30-fold increase in the labeling index over Schwann cells cultured alone, suggesting that the mitogen is located on the granule cell surface. Inhibition of granule cell proteoglycan synthesis caused a decrease in the granule cells' ability to stimulate Schwann cell proliferation. Membranes isolated from cerebellar granule cells when added to Schwann cell cultures caused a 45-fold stimulation in [3H]thymidine incorporation. The granule cell mitogenic signal was heat and trypsin sensitive and did not require lysosomal processing by Schwann cells to elicit its proliferative effect. The ability of granule cells and their isolated membranes to stimulate Schwann cell proliferation suggests that the mitogenic signal for Schwann cells is a ubiquitous factor present on all axons regardless of their ultimate state of glial ensheathment.     

A TIME-SEQUENCE AUTORADIOGRAPHIC STUDY OF THE IN VIVO INCORPORATION OF [1, 2-3H]CHOLESTEROL INTO PERIPHERAL NERVE MYELIN

A time-sequence study of the incorporation and distribution of cholesterol in peripheral nerve myelin was carried out by electron microscope autoradiography. [1,2-³H]Cholesterol was injected into 10-day old mice and the sciatic nerves were dissected out at 10, 20, 40, 60, 90, 120, and 180 min after the injection. 20 min after injection the higher densities of grains due to the presence of [³H]cholesterol were confined to the outer and inner edges of the myelin sheath. Practically no cholesterol was detected in the midzone of the myelin sheath. 1 ½ h after injection, cholesterol showed a wider distribution within the myelin sheath, the higher densities of grains occurring over the two peripheral myelin bands, each approximately 3,100 Å wide. Cholesterol was also present in the center of the myelin sheath but to a considerably lesser extent. 3 h after injection cholesterol appeared homogeneously distributed within the myelin sheath. Schwann cell and axon compartments were also labeled at each time interval studied beginning 20 min postinjection. These observations indicate that preformed cholesterol enters myelin first and almost simultaneously through the inner and outer edges of the sheath; only after 90 min does the density of labeled cholesterol in the central zone of myelin reach the same density as that in the outer and inner zones. These findings suggest that cholesterol used by the nerve fibers in the formation and maintenance of the myelin sheath enters the lamellae from the Schwann cell cytoplasm and from the axon. The possibility of a bidirectional movement of molecules, i.e. from the Schwann cell to the axon and from the axon to the Schwann cell through the myelin sheath, is noted. The results are discussed in the light of recent observations on the exchange, reutilization, and transaxonal movement of cholesterol.     

Perturbation of DNA replication and cell cycle progression by commonly used [3H]thymidine labeling protocols.

The effect of tritiated thymidine incorporation on DNA replication was studied in Chinese hamster ovary cells. Rapidly eluting (small) DNA from cells labeled with 2 microCi of [3H]thymidine per ml (200 microCi/mmol) for 60 min matured to a large nonelutable size within approximately 2 to 4 h, as measured by the alkaline elution technique. However, DNA from cells exposed to 10 microCi of [3H]thymidine per ml (66 microCi/mmol) was more rapidly eluting initially and did not mature to a nonelutable size during subsequent incubation. Semiconservative DNA replication measured by cesium chloride gradient analysis of bromodeoxyuridine-substituted DNA was also found to be affected by the final specific activity of the [3H]thymidine used in the labeling protocol. Dramatic cell cycle perturbations accompanied these effects on DNA replication, suggesting that labeling protocols commonly used to study DNA metabolism produce aberrant DNA replication and subsequent cell cycle perturbations.     

Reinitiation of host DNA synthesis in senescent human diploid cells by infection with simian virus 40

Human diploid fibroblasts, TIG-1, cease to proliferate at about 60-62 population doubling level. In their senescent state used in this study, the percentage of nuclei labeled by [3H]thymidine for 48 h was around 1-2% in fresh medium containing 5-40% fetal bovine serum. The percentage of labelled nuclei increased up to 10-fold after infection with SV40. This increase reflects stimulation of cell DNA synthesis because: 1. The increase also occurred when ts A900 was used for infection at the non-permissive temperature, under these conditions viral DNA synthesis is inhibited; 2, the increase paralleled the stimulation of [3H]thymidine incorporation into DNA in a Hirt-precipitate fraction from SV40-infected cells. UV-irradiated SV40 had reduced ability to induce DNA synthesis. A viable deletion mutant of SV40, d1940, had almost the same activity to induce cell DNA synthesis as did wild-type SV40. Equilibrium density gradient centrifugation analysis of DNA labelled with 5-bromodeoxyuridine (BrdU) supported semiconservative replication rather than repair synthesis. We conclude that a considerable fraction of human diploid cells in a senescent population initiate host DNA replication by infection with SV40, although these cells cannot be stimulated with fetal bovine serum.     

Retention of bone cell viability in mouse calvarial explants after cryopreservation

Newborn mouse calvaria, cyropreserved at -196 degrees C in serum-free medium containing dimethyl-sulfoxide, were compared to unpreserved explants for bone cell viability by [3H]thymidine uptake. Other explants were studied using autoradiography to compare the histological appearance of the cryopreserved and control unpreserved explant sites of cellular localization of [3H]thymidine. After short-term cryopreservation, calvarial bone cells, including less differentiated osteoprogenitor cells, survived as indicated by their incorporation of the DNA precursor. With culture continuing for up to 24 hr after thawing and in the continuous presence of [3H]thymidine, additional labeled thymidine was incorporated, indicating that the proliferative ability of explant cells persists after cryopreservation. Cryopreserved bone explants did not, however, incorporate the same amount of labeled thymidine as did controls at each time point studied. These events, as measured quantitatively and observed by autoradiography of the tissue, indicate that newborn calvarial bone cell proliferation in vitro continues after cryopreservation. The large surface:mass ratio of the tissue and its proportionate volume of calcified matrix apparently permits it to behave as an isolated cell population with regard to the diffusion of the cryoprotectant and thermal conductivity, thus permitting the retention of explant viability.     

Proteolipid protein and DM-20 are synthesized by Schwann cells,present in myelin membrane,but they are not fatty acylated

Proteolipid protein (PLP) and DM-20 were intensely labeled after immunoprecipitation of total cellular proteins and myelin proteins labeled with [³⁵S]methionine in nerve slices. These results provided evidence that PLP and DM-20 are incorporated into the myelin membrane following their synthesis in Schwann cells. In contrast, PLP and DM-20 were not fatty acylated after incubation of the nerve slices with [³H]palmitic acid, however, PO glycoprotein and 24kDa protein were heavily fatty acylated. The lack of fatty acylation of PLP and DM-20 in the peripheral nervous system suggests that fatty acyltransferase responsible for their acylation is absent or non-functional in the peripheral nervous system.     

Antibodies to the L1 adhesion molecule inhibit Schwann cell ensheathment of neurons in vitro

To investigate whether neural adhesion molecules are involved in neuron- induced Schwann cell differentiation, cocultures of pure dorsal root ganglion neurons, and Schwann cells were maintained in the presence of antibodies to evaluate possible perturbing effects. Several parameters characteristic of differentiating Schwann cells were studied, such as transition of spindle-shaped to flattened, i.e., more epithelioid morphology, association with neuronal cell bodies, ensheathment of neurites, production of basal lamina and collagen fibrils, and expression of the myelin associated glycoprotein (MAG). A complete ablation of Schwann cell differentiation in all features studied was seen with antibodies to the neural adhesion molecule L1. Antibodies to N-CAM did not reduce the association of Schwann cells with neurites but abolished the interdigitation of Schwann cell processes into neurite bundles, while leaving the other parameters studied unaffected. Fab fragments of antibodies to J1, MAG, and mouse liver membranes did not interfere with the manifestation of any of these parameters. None of the antibodies changed incorporation of [3H]thymidine into Schwann cells.     

Degradation of proteins in steady-state cultures of Escherichia coli.

The degradation of proteins in Escherichia coli was investigated in cells grown under steady-state conditions in a glucose-limited chemostat. During the first 24 h, approximately 25% of pulse-labeled proteins were degraded and after 72 h up to 58% of the proteins were broken down. To examine the stability of subcellular components steady-state cultures were labeled with an initial pulse of [14C]leucine, 24 h were allowed for turnover of these proteins, and the cells were then labeled with a short pulse of [3H]leucine. By this double-label protocol, the labile proteins were preferentially labeled with [H]leucine and had high 3H/14C ratios, while the more stable proteins had lower 3//14C ratios. The 3/-labeled proteins were degraded approximately five times as rapidly as the 14C-labeled proteins in exponentially growing cells. The relative stability of subcellular fractions was determined by comparing their 3H/14C ratios to the ratio of the cells at harvest. The soluble fraction contained the most labile proteins, while the ribosomal and membrane fractions were at least as stable as the average cell protein.     

Schwann Cell Surface Proteins and Glycoproteins

Abstract: To identify surface sialoglycoproteins of rat Schwann cells and to compare molecular weights of these sialoglycoproteins with those present in rat peripheral nervous system myelin, we prepared Schwann cells from sciatic nerves of 1–3-day-old rats and cultured them in monolayer. Surface sialoglycoproteins of the cultured cells were tritium-labeled by the periodateborohydride procedure and compared with sialoglycoproteins of adult rat peripheral nervous system myelin by fluorography following polyacrylamide slab gel electrophoresis in sodium dodecyl sulfate. Three radioactive bands with apparent molecular weights of 114,000–132,000, 105,000–115,000, and 44,000–56,000 were observed in both the Schwann cell and myelin preparations. Bands of similar apparent molecular weights were noted in Schwann cells metabolically radiolabeled with d -[1,6-³H]glucosamine. A band co-migrating with myelin P₀ glycoprotein was the most intensely radiolabeled of all peptides in periodate-B³H₄^?treated myelin, but was present in only trace amounts in periodate-B³H₄^? or d -[1,6-³H]glucosamine radiolabeled Schwann cells. Many presumably non-myelin glycoproteins were identified in the cultured Schwann cells by the periodate-borohydride procedure and by incubation of the cells with d -[1,6-³H]glucosamine. An immunoprecipitation technique was used to detect radiolabeled peptides in a nonionic detergent extract of freshly prepared, surface-radioiodinated Schwann cells that were bound by a rabbit anti-Schwann cell serum preabsorbed with rat fibroblasts. Many radioactive peptides were detected in the immunoprecipitate, but the two most intensely radiolabeled had apparent molecular weights of 105,000–115,000 and 95,000–106,000. This study has identified a number of glycoproteins synthesized by cultured rat Schwann cells which resemble in apparent molecular weight the glycoproteins expressed in rat peripheral nervous system myelin and has defined Schwann cell surface proteins recognized by a specific anti-rat Schwann cell antiserum.     

Isolation of human fibroblast heterokaryons with two-colour flow sorting (FACS II)

Red and green fluorescent polystyrene beads were used to label different populations of cultured human skin fibroblasts. After co-cultivation for 24 h no exchange of label could be observed. Twenty-four hours after fusion the population of red-green heterofluorescent cells was sorted out with a FACS II cell sorter. Microscopical examination of the heterofluorescent population 20 h after sorting indicated, that with Sendai-induced fusion, 50–60% of these viable cells contained more than one nucleus. After polyethylene glycol (PEG)-induced fusion, between 70 and 85% bi- or multinucleated cells were present in the sorted and cultured fraction. Autoradiography using [³H]thymidine indicated that the sorted heterofluorescent bikaryons were in fact heterokaryons.     

Lipid Droplets in Schwann Cells During Tellurium Neuropathy Are Derived from Newly Synthesized Lipid

Exposure of weanling rats to a diet containing elemental tellurium results in a peripheral neuropathy characterized by segmental demyelination and minimal axonal degeneration. One of the earliest ultrastructural abnormalities in tellurium neuropathy is an increased number of cytoplasmic lipid droplets in myelinating Schwann cells. The pathogenesis of these lipid droplets was investigated using light and electron microscopic autoradiography. Nerve lipids were either "prelabeled" with [3H]acetate via in vivo intraneural injection 3 days before a 2-day exposure to tellurium, or "postlabeled" via in vivo intraneural injection or in vitro incubation with [3H]acetate following a 2-day exposure to tellurium. In the prelabeled nerves, myelin became heavily labeled, but the tellurium-induced cytoplasmic lipid droplets were rarely labeled. In the postlabeled nerves, the tellurium-induced cytoplasmic lipid droplets were the most heavily labeled structures within the nerve. These data indicate that the tellurium-induced lipid droplets in Schwann cells are derived from newly synthesized lipid rather than from the early breakdown and internalization of myelin lipids. The earliest biochemical abnormality observed in tellurium neuropathy is an inhibition of cholesterol synthesis at the squalene epoxidase step. This leads to an accumulation of squalene within the nerve. We conclude that the cytoplasmic lipid droplets in Schwann cells contain this accumulated lipid.     

INACCURACY OF ESTIMATIONS OF S PHASE FRACTION BY REDUCTION IN CLONING EFFICIENCY WITH HYDROXYUREA OR TRITIATED THYMIDINE

The current hypothesis, that the fractional reduction of cloning efficiency in semi-solid culture systems induced by pretreatment of the cells with hydroxyurea (HU) or [³H]TdR equals the fraction of cells initially in S phase, is tested. A lymphoblastoid cell line, SK-L7, with known cell cycle kinetics was exposed to cytotoxic concentrations of HU or suicidal doses of [³H]TdR and then initiated in semi-solid and liquid culture. Although approximately 0.6 of the initial population was in S, 1-hr exposures of HU at concentrations of up to 10^-2 M failed to reduce subsequent cloning efficiency. the 1-hr exposure to HU did not reduce either the immediate cell number or the gross population doubling rate over 24 hr. A 24-hr exposure to 10^-3 M HU reduced the cloning efficiency by approximately 98%, confirming the drug's cytotoxic capability. [³H]TdR at doses of 100 μCi/ml for 20–40 min reduced the cloning efficiency by approximately 60 and 70%, respectively. Although no cytotoxicity immediately after exposure was observed in either case, gross population doubling rate in liquid culture was reduced. While HU failed to reduce subsequent cloning efficiency, [³H]TdR reduced cloning efficiency by approximately the fraction of initial cells in S. the above hypothesis, therefore, cannot be applied naïvely as a technique for quantitating the fraction of a clonogenic cell population in S phase.     

Role of Intracellular pH in the Axolemma- and Myelin-Induced Proliferation of Schwann Cells

In order to provide additional information on the biochemical events that interact to cause Schwann cells to proliferate, we have monitored the intracellular pH of Schwann cells that have been stimulated to divide with myelin-enriched fractions (MEF) or axolemma-enriched fractions (AEF). The intracellular pH of Schwann cells was monitored using 2',7'-bis(carboxymethyl)-5(6)-carboxyfluorescein (BCECF), which displays an increase in fluorescence upon alkalinization. Both AEF and MEF caused dose-dependent increases in the intracellular fluorescence of the Schwann cell cultures. At their maximum doses, AEF and MEF stimulation resulted in a 260 and 300% increase in intracellular fluorescence, respectively. The increase in intracellular fluorescence was abolished when cells were stimulated in Na+-free media, suggesting a role for the Na+/H+ exchanger. Mitotic stimulation required integrity of the Na+/H+ exchanger, as inhibition of the Na+/H+ exchanger for periods up to 1 h after addition of mitogen caused a significant inhibition of subsequent mitosis. Phorbol esters, which can potentiate AEF- and MEF-induced Schwann cell proliferation, increased intracellular fluorescence fivefold, an effect which was also dependent upon the presence of Na+ in the culture media. The specificity of the increase in intracellular pH for AEF and MEF was tested by incubating Schwann cells with liver microsomes and a biologically inactive phorbol alcohol, neither of which is significantly mitogenic for Schwann cells. Neither liver microsomes nor phorbol alcohol had a significant effect on intracellular pH. The implications of the increase in intracellular pH in Schwann cells with respect to inositol phospholipid metabolism, protein kinase C activation, and cellular proliferation are discussed.(ABSTRACT TRUNCATED AT 250 WORDS)