Effect of Solcoseryl on nerve tissue under in vitro conditions]

Explants from trigeminal ganglia and skin of chick embryos and hippocampus from fetal rats were cultivated in Maximow assembly in the presence of Solcoseryl (Solco AG, Basel), a blood extract of calf. Solcoseryl in vitro did not influence the regeneration of nerve fibers from CNS explants. A stimulatory effect of Solcoseryl in vitro by 1% concentration on the outgrowth of new processes in explants of PNS was demonstrated. It is discussed: under optimal concentration Solcoseryl may be important for the influence of the composition of the medium in which explants of the nerve system and skin are cultivated.     

The effect of Solcoseryl on explant cultures of the hippocampus

Explants of hippocampus from fetal rats were cultivated in Maximow chambers in semisynthetic medium up to 12 days in vitro. The cultures were fixed Bouin, slided 15 micron, coloured with Klüver-Barrera and some morphological parameters were tested. 1. The nerve fiber index increased by influence of 1% Solcoseryl in relation to control cultures, which growed in minimal medium. An essential stimulation was observed by application of placentar serum and embryonal extract into the culture medium. 2. Die decrease of the number of neurons and glial cells per unit of area and a small decrease of the area of neuron nuclei was discussed in relation to the effect of the pharmacon Solcoseryl on O2- consumption. 3. Solcoseryl (firm Solco AG, Base) is an extract of calf blood. It can not substitute other tissue extracts.     

Effect of substance P on nerve fiber regeneration in tissue culture

Explants of the ganglion trigeminale from chick embryos (PNS) and of the hippocampus from fetal rats (CNS) were cultivated in maximow chambers with growth medium or maintanance medium. Varied concentrations of substance P (SP . 3 CH3COOH . 4 H2O) were added. 1. The effect of substance P (SP) is related to concentration. In the presence of 10(-7)M SP in the growth medium and of 10(-4)M SP in the maintanance medium the cultivation of PNS cultures indicates positive results. These doses are suitable. 2. Within the first 24 hours in vitro SP stimulates the index of area in PNS cultures. The index of characterizes the relation of the outgrowth zone to the explant. In CNS cultures a significant difference of this effect was not observed. 3. The index of growth of nerve fibers may compare the test cultures with the control cultures. SP significantly increases the index of fiber growth in PNS cultures. A stimulation of CNS cultures was observed, significance was not found. 4. From the beginning of the cultivation with SP up to 48 hours in vitro the growth of nerve fibers significantly increases in the treated cultures in comparison with the control cultures. After this time the growth of nerve fibers decreased and a morphological conformity of test cultures and controls was observed. 5. The role of SP is discussed in specific activity on PNS tissue in vitro. The reactive neurons may be from the medio dorsal group of cells of the sensible ganglion.     

The effect of a synthetic tripeptide nervous tissue cultured in vitro]

Explants from chick embryo PNS (ganglion trigeminale) and from CNS of embryonal rats (hippocampus) and dissociated cells from chick embryo cerebral hemispheres were cultivated in maximow chambers in the presence of various concentrations of placental serum and of a chemically synthesized tripeptide Gly-His-Lys. 1. The presence of tripeptide in the nutrient medium with a low concentration of serum did not compensate the outgrowth of nerve fibers, that take place in the growth medium. 2. In the presence of tripeptide in the nutrient medium with low concentration of serum the index of growth area increased significantly. 3. Within the first days in cell cultures 0,01 microgram tripeptide pro ml medium stimulated the outgrowth of neuronal processes. 4. The experiments indicated, that the tripeptide did not replace the serum. The possible role of tripeptide as a system in controlling neuron-glial ratio in vitro is discussed.     

Explant cultures of teleost spinal cord: source of neurite outgrowth

The source of neurite outgrowth in explant cultures of normal adult Apteronotus spinal cord was examined. Explants which contained the central region of spinal cord, including ependyma, showed neurite outgrowth in culture. Explants which did not contain ependyma showed no neurite outgrowth. It is concluded that the ependymal region is necessary for neurite outgrowth in these cultures of adult teleost spinal cord. In addition, our failure to observe axon outgrowth clearly attributable to fluorescently back-labeled electromotor neurons in these cultures suggests that the exuberant neurite outgrowth in vitro is most probably due to cells other than the electromotor neurons. This explant culture system provides a unique opportunity to study neuronal differentiation, regeneration, and neurogenesis in vitro.     

A novel explant outgrowth culture model for mouse pancreatic acinar cells with long-term maintenance of secretory phenotype

The development of in vitro models able to support the long-term viability and function of acinar cells is critical for exploring pancreatic pathophysiology. Despite considerable efforts, no long-term culture models for non-transformed pancreatic acini exist. Our aim was to develop and validate culture conditions for this purpose. An explant outgrowth culture design was established in which mouse pancreatic explants were cultured at the gas-liquid interphase. An enriched culture medium, pH 7.8, was employed to promote the selective outgrowth of acinar cells and to support their differentiated phenotype. After 7 days, the outgrown primary acinar cells were subcultured and maintained up to an additional 7 days as secondary monolayers on tissue culture plastic. Measurements of basal and caerulein-induced amylase secretion, phase-contrast microscopy and immunohistochemical analyses were used to characterize the cultures. Explants retained their pancreatic cytoarchitecture for 2 days in vitro. A triphasic dose response to caerulein was detected in 7-day primary cultures. The maximal rate of secretion was 1.2-fold versus basal (p=0.009) and 1.7-fold versus 1 pM caerulein (p=0.014). In secondary cultures the response was biphasic with maximal rates of secretion being 1.9-fold in 3- to 4-day cultures at 0.01 nM (p=0.049) and 2-fold in 6- to 7-day cultures at 0.1 nM (p=0.003). The present culture model provides a means to obtain functionally competent normal mouse acinar cells for long-term in vitro experimentation.     

The effect of substance P (SP) and SP partial sequences on nerve fiber growth in tissue culture

Explants of the ganglion trigeminale (PNS) and of the telencephalon (CNS) from chick embryos were cultivated in MAXIMOW chambers in semisynthetic media in the presence of dipeptide fragments (Lys(Z)-Pro . HCl, Lys-Pro-2HBr, Arg-Pro-2HCl) and the heptapeptide (SP5-11) of substance P as well as the complete substance P (SP1-11). 1. Histological examination of the dipeptide-treated CNS explants indicates that the structure of outgrowth in vitro is changed. Fascicel were observed. A stimulation of nerve fibre extension did not take place. 2.1. In dipeptide-treated PNS cultures the index of areas covered by the explants increased. 2.2. The index of nerve fibre growth increased significantly. The stimulation was caused in multiplication of fibres. Only Lys(Z)-Pro . HCl presents a prolongation of neurites. 2.3. SP5-11 effects in no case the growth of nerve fibres. SP1-11 stimulated significantly the fibre regeneration. 3. The possible role of SP1-11 with different effects under in vitro conditions is discussed. Only the N-terminal dipeptides stimulate the growth of nerve fibres. The C-terminal SP5-11 is without effect. Finally it is stated that the best results in neuritic enlargement and neurogenesis can only be obtained by cultivation with SP1-11.     

The cranial sensory ganglia in culture: Differences in the response of placode-derived and neural crest-derived neurons to nerve growth factor

Explants of cranial sensory ganglia and dorsal root ganglia from embryonic chicks of 4 to 16 days incubation (E4 to E16) were grown for 24 hr in collagen gels with and without nerve growth factor (NGF) in the culture medium. NGF elicited marked neurite outgrowth from neural crest-derived explants, i.e., dorsal root ganglia, the dorsomedial part of the trigeminal ganglion, and the jugular ganglion. This response was first observed in ganglia taken from E6 embryos, reached a maximum between E8 and E11, and gradually declined through E16. Explants in which the neurons were of placodal origin varied in their response to NGF. There was negligible neurite outgrowth from explants of the ventrolateral part of the trigeminal ganglion and the vestibular ganglion grown in the presence of NGF. The geniculate, petrosal, and nodose ganglia exhibited an early moderate response to NGF. This was first evident in ganglia taken from E5 embryos, reached a maximum by E6, and declined through later ages, becoming negligible by E13. Dissociated neuron-enriched cultures of vestibular, petrosal, jugular, and dorsal root ganglia were established from embryos taken at E6 and E9. At both ages NGF elicited neurite outgrowth from a substantial proportion of neural crest-derived neurons (jugular and dorsal root ganglia) but did not promote the growth of placode-derived neurons (vestibular and petrosal ganglia). Our findings demonstrate a marked difference in the response of neural crest and placode-derived sensory neurones to NGF. The data from dissociated neuron-enriched cultures suggest that NGF promotes survival and growth of sensory ganglionic neurons of neural crest origin but not of placodal origin. The data from explant cultures suggest that NGF promotes neurite outgrowth from placodal neurons of the geniculate, petrosal, and nodose ganglia early in their ontogeny. However, we argue that this fibre outgrowth emanates not from the placodal neurons but from neural crest-derived cells which normally give rise only to satellite cells of these ganglia.     

Action of ethanol and other solvents on the nerve tissue under in vitro conditions.

Explants and cells of nervous tissue were cultivated in the presence of aethanol, tween 80, dimethylformamid (DMF) and dimethylsulfoxid (DMSO) and the influence upon the index of area, the growth rate and fiber index was observed. They are important to solutions of drugs for tests in vitro. At the beginning of the cultivation aethanol in vitro influenced the regeneration of nerve fibers from explants and cells. A significant increase of the index of growth was observed. After a long term influence of tween 80, DMF and DMSO an inhibition of differentiation of neurons in vitro was observed.     

The development of nervous tissue to experimental manipulation in vitro (author's transl)

Explants of nervous tissue (CNS: hippocampus from fetal rats, telencephalon and PNS: ganglion trigeminale from chick embryos) were cultivated in maximow chambers. Biological extracts (brain and embryo extract) or chemical agents (aminoacid mixtures and peptides with known sequence of amino acids) were tested. Biological extracts and aminoacid mixtures stimulated the differentiation in PNS and CNS cultures. A stimulating effect of peptides seems to exist only on PNS explants. The fundamental importance of suitable reference systems, parameters, optimal concentrations and periods of application of effective substances for the evaluation of the results is discussed.     

The effect of active substances on nerve fiber regeneration in nerve tissue cultures

Explants of the ganglion trigeminale from chick embryos and hippocampi from embryonal rats were incubated in maximowchambers with semisynthetic media. The different parts of nervous tissue were influenced experimentally by addition of biological extracts and by substances with known composition. The regeneration of nerve fibers was investigated by the index of growth. The growth index was calculated from the ratio of nerve fibre index of the test cultures to that of the influenced cultures. Under these conditions biological extracts enhanced the growth of nerve fibres. In the same way the growth of nerve fibres was statistically significantly stimulated by substances with known composition of aminoacids, orotic acid, sodium orotate and cyclic monophosphates. A stimulating effect of cyclic guanosinmonophosphate seems to exist only in CNS explants and only in young fetal rats and consists in an increased migration and proliferation of cells as well as in the formation of fibres from neuroblasts. The investigations gave strong evidence for the in vitro testing to be very useful in studies of nerve fibre regeneration. However the choice of suitable reference systems, suitable quantitative parameters, optimal concentration and periods of application of effective substances and the age of the animals are of fundamental importance for the evaluation of the results. Experiments regarding the stimulation of the differentiation of neurons and the growth of nerve fibres are of practical clinical and therapeutical interest.     

Influence of “Solcoseryl” during culture on the sex-dependent repair of bovine demi-embryos

The purpose of this experiment was to determine the effect of culture conditions on the development of split embryos after bisection and on the sex ratio of resultant bovine demi-embryos. Embryos that had developed into blastocysts on days 6½ to 7 or on days 7½ to 8 from oocytes matured and fertilized in vitro were bisected in BMOC-3 medium supplemented with 33% calf serum. The medium also contained 0%, 0.1% or 1.0% Solcoseryl, a deproteinized hemodialysate product from calf blood. The demi-embryos were first cultured for 4 hours in the same medium in which they had been bisected and then co-cultured with cumulus cells in TCM199 supplemented with 1% calf serum for an additional 20 hr. The rate of production of good to excellent quality demi-embryos obtained from days 6½ to 7 blastocysts was higher than from those on days 7½ to 8. The rate was also significantly improved when blastocysts were bisected in medium containing 0.1% or 1.0% Solcoseryl, compared to the medium without Solcoseryl. Male embryos seemed to recover more rapidly than female embryos, as assessed by morphological quality at 4 hr, although the quality of female embryos had improved by 24 hr. The percentage of males after culture was higher in the medium without Solcoseryl than in its presence. Thus, addition of Solcoseryl at either 0.1% or 1.0% to BMOC-3 medium seemed to improve the production efficiency of good quality demi-embryos, but did not influence the sex ratio. It appears as if female demi-embryos required more time than male embryos to be repaired after bisection. © 1996 Wiley-Liss, Inc.     

Radiosensitivity of vascular tissue. II. Differential radiosensitivity of aortic cells in vitro

The cellular outgrowths from three layers of rabbit and monkey aorta were used as primary cultures. Irradiation of the tissue fragments at the time of explanation resulted in a reduction in outgrowth of 50% with a dose of 200 rad, and in a reduction of over 90% with doses of 300 rad and above. When comparable cultures were irradiated after 2 months in vitro as a mature actively metabolizing but slowly proliferating cell population, radioresistance was increased. Subcultures of medial smooth muscle cells irradiated during their logarithmic growth phase showed a linear dose response in the cell number parameter up to 150 rad. A dose of 250 rad resulted in complete flattening of the growth curve, with a reduction in labeling index, after a 3-hr terminal [3H]TdR pulse. On the other hand, the labeling index indicated some recovery 3 days after irradiation in cultures receiving less than 250 rad. Under the same experimental conditions, cells derived from the intima of the same aorta showed no recovery when increase in cell numbers over time, or the number of labeled cells per area, were used as parameters. Cells derived from adventitia showed a relative increase in the number of labeled cells per area 4 and 7 days after irradiation following an initial decrease on Day 1.     

Morphological studies of the effect of substance P partial sequences on nerve tissue culture

Explants of the telencephalon and of the ganglion trigeminale from chick embryos were cultivated in the presence of 10(-7) M of substance P partial sequences SP 1-2 (Arg-Pro . 22HCl) and SP3-4 (Lys(Z)-Pro . HCl or Lys-Pro . 2HBr). The morphology of the living outgrowth in fact the growth of nerve fibers, cell migration and proliferation was observed. SP1-2 and SP3-4 influenced particularly the morphology of pns cultures.     

Retinal axons inXenopus laevis recognise differences between tectal and diencephalic glial cells in vitro

Explants of retina from Xenopus laevis were cultured on monolayers of tectal and diencephalic glial cells in order to determine whether the glia, normally encountered by optic nerve fibres as they grow to the optic tectum, can influence the growth of these neurons in any way. Explants of nasal retina produced prolific radial outgrowth patterns on both tectal and diencephalic monolayers. Explants of temporal retina produced similar outgrowth patterns on diencephalic glia, but on tectal glia the outgrowth was restricted and fibres were fasciculated in short, fat bundles.     

Tissue explants affecting extension and orientation of axons in cultured chick embryo ganglia

Various ganglia from 10-day-old chick embryos were cultured for 3 days in substrata of hydrated collagen lattices. Each ganglion was surrounded at a distance of about 1 mm by three tissue expiants which were identical in one series of cultures and taken from different organs in another. The extent of axon outgrowth towards the different explants was estimated by counting intersections between the axons and test lines arranged perpendicularly to the radial outgrowth direction. The various organs stimulated axon formation to distinctly different extents. Spinal cord, skeletal muscle, skin, liver, colon, kidney and heart had, in that order, increasingly stimulative influence on sympathetic chain ganglia. Colon, followed by heart and liver, had the strongest stimulative effect on Remak's colon ganglion. Spinal and trigeminal ganglia showed dense outgrowth of fibroblast-like cells and were not included in the calculations. However, they appeared to be stimulated to extend axons by exposure to heart explants. The results imply that the tissue explants release various amounts of stimulative factors that reach the ganglia by diffusion. When presented to different tissue explants, the same ganglion showed different extents of outgrowth towards the various tissues. Also, ganglia showed dense outgrowth of axons directed towards inserted capillary tubes containing nerve growth factor. The courses taken by the axons as revealed in silver impregnated whole mounted ganglia suggest that chemotaxis can account for the directed axon outgrowth.     

Characterization of Calcium Deposition and Shell Matrix Protein Secretion in Primary Mantle Tissue Culture from the Marine Pearl Oyster <Emphasis Type="Italic">Pinctada fucata</Emphasis>

In this study, we established and characterized a long-term primary mantle tissue culture from the marine pearl oyster Pinctada fucata for in vitro investigation of nacre biomineralization. In this culture system, the viability of mantle tissue cells lasted up to 2 months. The tissue cells were demonstrated to express nacre matrix proteins by RT-PCR, and a soluble shell matrix protein, nacrein, was detected in the culture medium by Western blot analysis. On the other hand, 15 days after initiating culture, a large amount of calcium deposits with major elements, including calcium, carbon, and oxygen, were generated in the mantle explants and cell outgrowth area. The quantity and size of calcium deposits increased with the prolonged cultivation, and their location and nanogranular structure suggested their biogenic origin. These calcium deposits specifically appeared in mantle tissue cultures, but not in heart tissue cultures. Taken together, these results demonstrate that the mantle tissue culture functions similarly to mantle cells in vivo. This study provides a reliable approach for the further investigation on nacre biomineralization at the cellular level.     

Members of the BMP, Shh, and FGF morphogen families promote chicken statoacoustic ganglion neurite outgrowth and neuron survival in vitro

Mechanosensory hair cells of the chicken inner ear are innervated by the peripheral processes of statoacoustic ganglion (SAG) neurons. Members of several morphogen families are expressed within and surrounding the chick inner ear during stages of SAG axon outgrowth and pathfinding. On the basis of their localized expression patterns, we hypothesized that bone morphogenetic proteins (BMPs), fibroblast growth factors (FGFs), and sonic hedgehog (Shh) may function as guidance cues for growing axons and/or may function as trophic factors once axons have reached their targets. To test this hypothesis, three-dimensional collagen cultures were used to grow Embryonic Day 4 (E4) chick SAG explants for 24 h in the presence of purified proteins or beads soaked in proteins. The density of neurite outgrowth was quantified to determine effects on neurite outgrowth. Explants displayed enhanced neurite outgrowth when cultured in the presence of purified BMP4, BMP7, a low concentration of Shh, FGF8, FGF10, or FGF19. In contrast, SAG neurons appeared unresponsive to FGF2. Collagen gel cultures were labeled with terminal dUTP nick-end labeling and immunostained with anti-phosphohistone H3 to determine effects on neuron survival and proliferation, respectively. Treatments that increased neurite outgrowth also yielded significantly fewer apoptotic cells, with no effect on cell proliferation. When presented as focal sources, BMP4, Shh, and FGFs -8, -10, and -19 promoted asymmetric outgrowth from the ganglion in the direction of the beads. BMP7-soaked beads did not induce this response. These results suggest that a subset of morphogens enhance both survival and axon outgrowth of otic neurons.     

The effect of a neuron-specific antiserum,BPM, on thein vitro development of cerebellar granule cells

Anti-BPM is a neuron-specific antiserum which specifically recognizes the D2 cell adhesion molecule in crossed immunoelectrophoresis of Triton X-100-solubilized brain extracts. Here the effect of this antiserum on the in vitro development of cerebellar neuronal cultures is described. The initial adhesion of cells and neurite outgrowth were not influenced by immunoglobulin fractions of anti-BPM. However, after 5 days in vitro the cultures had become completely disorganized, with the majority of cells being dead at immunoglobulin concentrations greater than 0.5 mg/ml culture medium. This effect was seen only with immunoglobulins and their F(ab')2 fragments, the F(ab') fragments being without effect. The addition of anti-BPM to 8-day-old cultures resulted in a more rapid and pronounced rate of cell death. In many instances this was preceded by a rapid "destabilization" of culture organization. The cytotoxic effect of anti-BPM was neuron specific and the small numbers of astrocytes and fibroblasts found in the cultures were unaffected by prolonged exposure to this serum.     

In vitro culture of cryopreserved bovine mammary cells on collagen gels: synthesis and secretion of casein and lactoferrin

The preparation, cryopreservation, and culture on type I collagen gels of lactating bovine mammary cells with prolonged milk protein synthesis and secretion in vitro is described. Cryopreserved cells prepared as acinar fragments from either lactating or developing mammary glands attached to the collagen substratum within 24-48 hr after plating in serum and hormone supplemented medium. During continued culture in hormone-supplemented (insulin, cortisol, and prolactin) serum-free medium outgrowth of cells from the attached acinar fragments was observed beginning on day 2, with continued outgrowth to near confluence by day 6. Two morphologically distinct cell types were evident; initial outgrowth was by large polygonal cells that were subsequently overlain by spindle-shaped cells. Cells from both lactating and developing mammary glands sustained substantial milk protein secretion for at least 14 days in culture. Alpha S1-casein synthesis and secretion in cultures of lactating mammary cells was dependent on a critical minimum cell population density, below which alpha S1-casein was not secreted. In contrast, lactoferrin (LF) secretion into the medium increased linearly with the increase in cell population density. Cells cryopreserved up to 16 months secreted LF at levels comparable to fresh cultures of the same cells.