Progenitors of oligodendrocytes: Limiting dilution analysis in fetal rat brain culture

In this paper, we describe the use of a combination of cell culture techniques and limiting dilution analysis to determine the number of oligodendrocyte progenitor cells and the oligodendrocyte clone size in primary dispersed cultures of 20- to 21-day-old fetal rat brain. Single-cell suspensions (1,2,3 × 10⁶ cells/ml) were plated in either microwell or 100 mm dishes. After 22 days in culture the number of differentiated oligodendrocytes was ascertained by determining the amount of myelin basic protein by radioimmunoassay. The total amount of myelin basic protein was the same in the two types of dish, indicating that proliferation and differentiation were unaffected when oligodendrocytes were grown in microwells. The fraction (F₀) of microwells containing no oligodendrocytes was determined at each cell dilution. F₀ decreased exponentially with increasing total cell concentration. The linearity of the plot of ln F₀ versus cell number indicates that the number of oligodendrocyte progenitor cells is limiting. From the equation describing the Poisson distribution of progenitor cells in microwells we calculated that, at the time of plating, primary cultures of fetal rat brain contain one oligodendrocyte progenitor cell per 1.3 × 10⁵ brain cells, or a total population of 300–500 progenitor cells per brain. The mean oligodendrocyte clone size was determined to be approximately 825 at 22 days and close to 2000 by 35 days in culture. Therefore, each progenitor cell must undergo approximately 11 divisions, on the average, during postnatal development.     

Effect of epidermal growth factor/urogastrone on glycosaminoglycan synthesis and accumulation in vitro in the developing mouse palate

Epidermal growth factor/urogastrone (EGF-URO) has previously been implicated in murine secondary-palate formation. We report here that, in correlation with its effects on palate fusion, EGF-URO in physiological amounts (1.7 nmol/l) markedly affects glycosaminoglycan (GAG) production in organ cultures of mouse palate tissue; the effects of EGF-URO are dependent on the developmental stage of the palate. GAG production, particularly that of hyaluronic acid (HA), is stimulated two- to eight-fold by EGF-URO in cultures of palate tissue obtained between days 11-12 and 13-15 of development; by the time of birth, EGF-URO no longer stimulates GAG production in such cultures. EGF-URO increases the amount and alters the distribution of HA within the palate. The results suggest a role for EGF-URO and for HA in the process of normal palatal development.     

The inhibition of alcohol dehydrogenase in vitro and in isolated hepatocytes by 4-substituted pyrazoles

As a means of comparing the functional properties of an enzyme in dilute solution in vitro with those for the same enzyme acting in its normal cellular environment, a study was conducted with 4-substituted pyrazoles as inhibitors of rat liver alcohol dehydrogenase in vitro and ethanol oxidation in isolated rat hepatocytes. Inhibitor constants (Ki's) for the same set of pyrazole derivatives were also determined for human liver alcohol dehydrogenase. The best-fitting equations were derived to relate the Ki's to the chemical nature of substituents. These quantitative structure-activity relationships show that pyrazoles with stronger electron-withdrawing substituents are weaker inhibitors both for the enzyme in vitro and, to an equal extent, for ethanol oxidation by intact cells. Inhibitor effectiveness is also dependent on substituent hydrophobicity, but, while increasing hydrophobicity makes stronger inhibitors of the enzyme in vitro, it can diminish the effectiveness in vivo by decreasing permeability through the cell membrane. A structure-activity analysis of published Ki's for pyrazoles acting against human pi-ADH indicates that its active site differs from those in other alcohol dehydrogenases.     

The establishment of vascular-derived microenvironments in the developing chick wing

The results of previous studies on the temporal sequence of limb vascularization suggest that the prospective myogenic and chondrogenic areas of the mesoderm are distinguished by a differential vascularization pattern prior to the overt expression of muscle- and cartilage-specific phenotypes. The experiments presented here are designed to reveal the dynamic aspects of vascular flow in the limb by the observation of how an inert, particular tracer (india ink) is mobilized and dispersed at specific points in the mesoderm. Data are presented as a temporal sequence of fluid flow "maps" which detail both the rate and the direction of vascular flow in the limb. It is proposed that not only does the vasculature compartmentalize the mesoderm into prospective myogenic and chondrogenic zones but also that these broad areas are subcompartmentalized into discrete microenvironments that are spatially distinct with regard to their capacity for transporting the carbon particles. The developmental significance of this observation may be that limb mesodermal cells are granted precise, "positional" information in the form of the specific nutrient and oxygen levels they encounter during critical, or decisional, phases of morphogenesis.     

The scavenging of superoxide radical by manganous complexes: in vitro

Dialyzable manganese has been shown to be present in millimolar concentrations within cells of Lactobacillus plantarum and related lactic acid bacteria. This unusual accumulation of Mn appears to serve the same function as Superoxide dismutase (SOD), conferring hyperbaric oxygen and Superoxide tolerance on these SOD-free organisms. The form of the Mn in the lactic acid bacteria and the mechanisms whereby it protects the cell from oxygen damage are unknown. This report examines the mechanisms by which Mn catalytically scavenges O₂^?, both in the xanthine oxidase/cytochrome c SOD assay and in a number of in vitro systems relevant to the in vivo situation. In all the reaction mixtures examined, Mn(II) is first oxidized by O₂^? to Mn(III), and H₂O₂ is formed. In pyrophosphate buffer the Mn(III) thus formed is re-reduced to Mn(II) by a second O₂^?, making the reaction a true metal-catalyzed dismutation like that catalyzed by SOD. Alternatively, if the reaction takes place in orthophosphate or a number of other buffers, the Mn(III) is preferentially reduced largely by reductants other than O₂^?, such as thiols, urate, hydroquinone, or H₂O₂. H₂O₂, a common product of the lactic acid bacteria, reacted rapidly with Mn(III) to form O₂, apparently without intermediate O₂ release. Free hexaquo Mn(II) ions were shown by electron spin resonance spectroscopy and activity assays in noncomplexing buffers to be poorly reactive with O₂^?. In contrast, Mn(II) formed complexes having a high catalytic activity in scavenging O₂^? with a number of organic acids, including malate, pyruvate, propionate, succinate, and lactate, with the Mn-lactate complex showing the greatest activity.     

The in vitro maintenance of the limb-bud apical ridge by cell-free preparations

A factor(s) that has properties similar to previously described limb-bud polarizing activity and ectodermal ridge maintenance activity can be detected in cell-free preparations of posterior, but not anterior, halves of 4-day chick embryo limb buds. The apparent size of the factor differs depending upon the method of isolation. Homogenization in isotonic saline results in a particulate active component, whereas homogenization in hypertonic saline results in a soluble active component that is nondialyzable. When culture medium is conditioned by incubating several pieces of polarizing tissue in it for 24 hr, a dialyzable, active component is found in the conditioned medium.     

Collagen-tailed and globular forms of acetylcholinesterase in the developing chick visual system

We have carried out a comparative study of the developmental profiles of the enzyme acetylcholinesterase, and of its collagen-tailed and globular structural forms, solubilized in the presence of 1 M NaCl, 1% (w/v) sodium cholate and 2 mM EDTA, in the chick retina and optic lobes. The overall acetylcholinesterase activities, both per mg protein and per embryo or chick, are substantially higher in tectum than in retina, from embryonic day 16. The A₁₂ collagen-tailed form of the enzyme is present in similar amounts in the embryonic retina and optic tectum; however, while the A₁₂ activity increases significantly in retina after birth, both by percentage and in absolute terms, the tectal tailed enzyme follows a declining developmental profile, reaching a minimum after 6 months of life. On the other hand, the globular G₄ species shows developmental profiles, both in retina and tectum, rather similar to those obtained for the overall enzyme activity, while the G₂ and G₁ forms are present in comparable concentrations in both tissues. Besides, G₄ is the predominant globular form in the chick optic lobe after hatching, G₂ and G₁ being enriched in the embryonic tectum. In the case of retina, however, all the globular forms contribute more evenly to the total acetylcholinesterase activity, along the developmental period considered.The potential significance of some of the postnatal developmental profiles is discussed in terms of the progressive adjustment of retina and tectum to the requirements of visual function.     

The induction of forward gene mutation and gene conversion in yeasts by treatment with cyclophosphamide in vitro and in vivo

The present paper assesses the most suitable conditions for metabolic activation with yeasts in vitro, at least as far as cyclophosphamide (Cy) is concerned. These include treatment time, incubation temperature, the amounts of S9 and cofactors. Particular attention is devoted to the use of various solvents, showing that their use can considerably affect the mutagenic response of the chemical being tested. It also examines the effects of enzyme inducers (by using S9 from rats and mice) such as phenobarbital (PB) and 5,6-benzoflavone (BF) administered separately or together. The metabolizing capability of other organs such as the lungs and kidneys is also determined. All these data are compared with Cy genotoxicity (in vivo) evaluated by the intrasanguineous host-mediated assay and by recovering the yeast target cells from the liver, lungs and kidneys. The most striking effects are that, in vitro, PB greatly enhances Cy genotoxicity, whilst in vivo it substantially reduces it.     

Neuronal acquisition of tetanus toxin binding sites: Relationship with the last mitotic cycle

In an earlier study on the developing nervous system, the existence of a temporal correlation between the appearance of tetanus toxin-binding cells and neurogenesis was reported (A. Koulakoff, B. Bizzini, and Y. Berwald-Netter (1982). Using a combined approach of immunocytochemistry and [³H]thymidine autoradiography it is shown that, in the fetal mouse central nervous system, dividing cells do not express membrane binding sites for tetanus toxin. A time-course quantitative autoradiography revealed that the toxin-binding sites become apparent within 7 ± 1 hr, following the last S phase, on cells undergoing the conversion from dividing to postmitotic state. The acquisition of surface binding sites for tetanus toxin may thus be an early property of nascent central neurons, marking the transition from cycling precursor neuroblasts to postmitotic neuronal cells. Parallel studies on in vivo-developing dorsal root ganglia disclosed that at least some peripheral nervous system cells are endowed with tetanus toxin-binding capacity while still capable of DNA synthesis and undergo one or more divisions.     

T-cell subsets in the thyroids of mice developing autoimmune thyroiditis

To examine the role of T-cell subsets in the development of thyroid lesions, female CBA/J mice were immunized with 60 μg mouse thyroglobulin (MTg) in 0.1 ml complete Freund's adjuvant in both hind footpads. The thyroids were removed 12–21 days later, pooled, and dispersed. The cell suspension was examined by membrane immunofluorescence for the distribution of Thy-1⁺, Lyt-1⁺, Lyt-2⁺, and sIg⁺ lymphocytes. For comparison, peripheral blood leukocytes (PBL) from the same animals were similarly examined. Throughout this 10-day interval, B cells in the thyroid were consistently below 5%, whereas B cells represented 19–24% of PBL. Thy-1⁺ cells in PBL ranged from 45 to 59%, whereas Thy-1⁺ cells in the thyroid were 37–50%. However, only thyroidal T cells showed a consistent decline with time and were replaced gradually by cells without T or B cell markers. In particular, there was a clear shift in the Lyt-1⁺:Lyt-2⁺ ratio from about 7 down to 2 in the thyroid as the early predominance of Lyt-1⁺ cells was followed by a relative increase in Lyt-2⁺ cells. Our results show that there is an accumulation of Lyt-1⁺ and Lyt-2⁺ cells in the infiltrated thyroid. These cells may include MTg-reactive, helper, and cytotoxic T cells which localize (or differentiate) in the thyroid and initiate the lesions.     

A history of theories of acquired immunity

Alloimmune mouse spleen cells are capable of carrying out nonspecific cell-mediated cytolysis of syngeneic target cells when incubated in the presence of lectins such as Con A or PHA (lectin-dependent cell-mediated cytotoxicity). In the present study plant lectins from a variety of sources were examined for their ability to participate in alloimmune-LDCC. Reactivity was then compared to mitogenic activity and the ability to activate cytotoxic effector cells in vitro. Of the lectins tested only those reported to be T-cell mitogens were capable of participating in alloimmune-LDCC. Agglutinating but nonmitogenic lectins (e.g., WGA) or mitogens such as LPS or PWM failed to yield positive LDCC. Of the T-cell mitogens demonstrating positive reactivity in the alloimmune-LDCC assay, only a portion were able to generate cytolytic activity when incubated with normal spleen cells in vitro (Con A, GPA, lentil). Crude PHA, purified erythroagglutinin, or leukagglutinin failed to generate cytotoxic effector cells in this system even though these were mitogenic and demonstrated positive alloimmune-LDCC. The results suggest that T-cell mitogens interact with cytotoxic effector cells in a manner which specifically triggers cytolysis. The relationship of this interaction to other lymphocyte-lectin interactions is discussed.     

Development and regulation of substance P in sensory neurons in vitro

Substance P (SP), the putative neuropeptide mediator of pain sensation, is contained in small dorsomedial sensory neurons of the dorsal root ganglion. Using different culture techniques and a sensitive radioimmunoassay for SP, we studied the ontogeny and regulation of this functionally important neurotransmitter in these neurons, obtained from neonatal rats. In ganglion explants grown by two different techniques, SP increased two- to threefold during the first week in culture. This rise was predominantly due to mechanisms intrinsic to the ganglion since it occurred in a fully defined medium, in the absence of added nerve growth factor (NGF). Blockade of protein synthesis with cycloheximide prevented the increase in SP suggesting that ongoing protein synthesis was necessary. Furthermore, depolarization with veratridine blocked the increase in SP, an effect which was reversed by tetrodotoxin, suggesting that transmitter characteristics in sensory neurons may be regulated by depolarization and/or transmembrane sodium flux. After a week in culture on a collagen substratum, supplementary NGF was necessary for the continued rise in SP. However, raising the dose of the trophic factor had no incremental effect on SP content, suggesting that NGF was acting primarily on neuronal survival. To approach such questions at the cellular level, ganglia were dissociated and grown in cell culture. In all cultures, SP increased 1.5-fold during the first day. In the absence of NGF, however, SP and cell numbers fell progressively after the second day. NGF elicited parallel increases in cell survival and SP content, supporting the suggestion that NGF acts primarily through neuronal survival to increase SP. Veratridine blocked the increase in SP in a tetrodotoxin-reversible manner, without affecting neuronal survival, indicating that the effects of these agents do not depend on normal ganglionic cellular architecture. Consequently, depolarization probably affects ganglionic sensory neurons directly. Our studies suggest that the development of transmitter characteristics in primary sensory neurons may be regulated by multiple factors, including neuronal activity as well as trophic agents such as NGF.     

Glycosaminoglycans in the basal lamina and extracellular matrix of the developing mouse mammary duct

When meiotic maturation of primary oocytes of the starfish Asterias forbesi is induced by 1-methyladenine, rapid and striking changes in the pattern of protein synthesis detectable by electrophoresis occur after germinal vesicle breakdown. These include a decline in relative labeling with [³⁵S]methionine of several polypeptides synthesized in the oocyte, and increased labeling and new appearance of several polypeptides. Fertilization does not result in other detectable changes. The population of total mRNA translatable in a rabbit reticulocyte lysate cell-free system does not change, but the distribution of mRNAs between polysomes and the postribosomal supernatant reflects the changes observed in vivo. Thus these changes are regulated at the translational level. A review of the literature indicates that translationally mediated changes in patterns of protein synthesis during maturation of oocytes may be a widespread phenomenon.     

Degradation of rat liver metallothioneins in vitro

The degradation of zinc and cadmium-induced hepatic metallothionineins was investigated in vitro. Both zinc-thionein and cadmium-thionein were labeled in vivo with [³⁵S]cystine. The labeled proteins were isolated and purified by gel filtration and DEAE-ion exchange chromatography. Purified zinc-[³⁵S]thionein and cadmium[³⁵S]thionein were incubated with trypsin, chymotrypsin and pronase for varying times up to 24 h. The rate of degradation of zinc-thionen was twice that of cadmium-thionein when the proteins were incubated with trypsin. Virtually no digestion occurred when the proteins were incubated with chymotrypsin, whereas the rates of degradation were about equal when they were incubated with pronase. In contrast, degradation of zinc-thionein was twice that observed with cadmium-thionein when the proteins were incubated at pH 5.0 with a purified lysomal extract. Degradation of these proteins by the lysosomal proteases was 77 and 46% within 3 h for zinc-thionein and cadmium-thionein, respectively. Thionein, the metal-free from of metallothionein, was degraded extremely rapidly by both neutral and lysosomal proteases. Chromatography of the digestion products on Sephadex G-25 demonstrated that all three forms of metallothionein were degraded to species of approximately 100–300 daltons. These data indicate that metals stabilize thionein polypeptides and suggest that the degradation of metallothionein in vivo is regulated in part by the speciec of metal bound.     

The differential appearance of neurofilament triplet polypeptides in the developing rat optic nerve

The ontogenetic appearance of the individual triplet polypeptides that comprise mammalian neurofilaments was studied in the developing rat optic nerve. Triton-insoluble cytoskeletal preparations from the optic nerves of rats of postnatal ages 1 Day (P1), 6 days (P6), 10 days (P10), 20 days (P20), and 3 months (adult) were analyzed for protein composition by one and two-dimensional gel electrophoresis. Results indicate that at P1, both the 150- and 68-kDa neurofilament subunit proteins are present. The 200-kDa subunit first becomes discernible at P20, but, at this age, it is still present in considerably less quantity than in the adult. Immunocytochemical verification of the presence of neurofilament protein was accomplished by staining tissue sections with specific antibodies against the 150- and the 68-kDa neurofilament subunits using the peroxidase-antiperoxidase technique. Results of the morphological analyses have shown that neurofilaments are not present in quantity until P10, which coincides with the time when the 68-kDa subunit increases in quantity by one dimensional gel analysis. Thus, the 150- and 68-kDa subunits can be detected prior to the appearance of neurofilaments, and the 200-kDa protein is not observed until sometime later. The potential physiological significance of the differential subunit transport is discussed with respect to neuronal differentiation in the developing mammalian CNS.     

Control of insulin secretion in the developing pancreatic rudiment.

The embryonic rat pancreas, removed on the 14th day of gestation and cultivated in vitro, accumulates differentiated levels of exocrine enzymes and insulin. In the period corresponding to days 16–22 in vivo, 99% of the final insulin content accumulates. During this period we have studied the development of competence for insulin secretion, the regulation of this secretion by glucose and other secretatogues, and the rate of synthesis following a secretory challenge. Our results demonstrate that the capacity for insulin secretion develops in parallel with the accumulation of insulin in secretory granules since β granules appear at day 16. On day 16, after 48 hr of culture, both glucose and caffeine are required for detectable insulin secretion. At later stages, insulin release can be effectuated by glucose alone. In the fetal pancreas at day 20 of development, glucose is ten times more efficient than caffeine and fourfold more efficient than caffeine combined with either glucagon, cholera toxin or dibutyryl cyclic AMP. Glucagon, cholera toxin or cyclic AMP in the presence of caffeine increases equally (about tenfold) both the “basal” and the glucose-induced level of secretion. This suggests that glucose and caffeine act independently but synergistically. The integrity of the cells is maintained under the stimulation conditions, and there is a selective increase in insulin synthesis measured during 18 hr following stimulation of insulin release.     

Cholinergic and adrenergic receptors on mouse cardiocytes in vitro

The effects of adrenergic and cholinergic receptor agonists and antagonists on single and clustered mouse cardiocytes in culture have been studied. Cardiocytes were obtained from mice, ranging in ages from 9 days in utero to 1 day postpartum, and were grown in culture for 2–14 days. Single isolated cells of every age tested possessed the ability to respond both via a muscarinic cholinergic receptor to the cholinergic agonist, carbamylcholine, and via α- and β-adrenergic receptors to norepinephrine and epinephrine. Thus, cholinergic and adrenergic receptors are simultaneously present on the same cell. Cardiocyte clusters had considerably higher sensitivity to both autonomic agents, but, because of the extensive functional specializations between cells, the localization of functional receptors to specific cells could not be made. [³H]Alprenolol, a potent β-adrenergic receptor antagonist, and [³H]quinuclidinyl benzilate ([³H]QNB), a potent muscarinic cholinergic receptor antagonist, were used to localize β-adrenergic and muscarinic cholinergic receptors by autoradiography. Quantitation of the muscarinic ACh receptor gave ～800 sites/μm², a value comparable to that for the nicotinic ACh receptor on primary skeletal muscle in culture. Electrophysiological and fine-structural studies confirmed the myocardial nature of these cells.     

Synthesis of steroids in postimplantation mouse embryos cultured in vitro

Steroid and total lipid synthesis have been assessed in postimplantation stage mouse embryos cultured in vitro from the blastocyst to early somite stage. A large increase in acetate incorporation into these compounds is observed during this period. Cholesterol (60–70%), lanosterol (1–15%), and a fraction containing pregnenolone (0–5%) are the major components of the embryo-associated steroid fraction. When embryos are labeled with [³H]pregnenolone, ³H-labeled progesterone, pregnanedione, and a compound identified as acylpregnenolone are produced and secreted into the medium. Production of progesterone and pregnanedione, but not acylpregnenolone, is severely inhibited by the drug cyanoketone (1 μM). Another drug, SU-10603 (10 μM), severely inhibits pregnanedione production, with only a partial repression of progesterone synthesis, and no effect on acylpregnenolone synthesis. Neither drug affects embryonic development. When embryonic tissues were carefully separated and analyzed for their ability to metabolize [³H]pregnenolone it was observed that all tissues (embryo/yolk sac, yolk sac, and trophoblast) can produce progesterone and acylpregnenolone from pregnenolone. Only embryo/yolk sac and yolk sac, but not trophoblast tissue, can produce pregnanedione. The significance of these observations in relation to metabolic communication between the embryo and its mother is discussed.     

Mouse gamete interactions: The zona pellucida is the site of the acrosome reaction leading to fertilization in vitro

The question of whether the acrosome reaction, which leads to fertilization, occurs in intact sperm bound to the zona pellucida of the egg or in intact sperm before contact with the egg, was addressed by assessing the effect of 3-quinuclidinyl benzilate (QNB) on the two types of acrosome reaction. QNB is a specific inhibitor of the fertilization of zona-intact mouse eggs by mouse sperm. Mouse spermatozoa in suspension underwent acrosome reactions at a low rate, which could be accelerated by addition of 5 μM divalent cation ionophore A23187; the occurrence of such acrosome reactions was not inhibited by QNB. The rate at which acrosome reactions occurred in sperm bound to the zona pellucida of cumulus-free eggs, bound to isolated zonae, or exposed to acid-solubilized zona components, was greatly accelerated relative to that observed in the absence of zonae. These acrosome reactions were strongly inhibited by QNB at concentrations which inhibit the fertilization of zona-intact mouse eggs in vitro. These data suggest that the zona pellucida can induce acrosome reactions in mouse spermatozoa and that these acrosome reactions are the ones which lead to the fertilization of zona-intact eggs. In contrast, the acrosome rection in sperm which are not in contact with the zona is not associated with fertilization of zona-intact eggs.