Fibronectin substrate induces shortening of in vitro neural crest cell mitotic cycle

Neural crest cells (NCC) segregate from neural folds, swim through extracellular matrix, and differentiate in several cell types. During in vivo and in vitro dispersion, NCC display a substantial proliferative rate. Here, we have evaluated this biological behavior under the influence of different substrates. NCC exhibit the highest proliferative activity on fibronectin substrate, with shortening of the G1 period. This fact is reverted by specific antibody pre-treatment of the substrate. Taking into account that NCC migrate along narrow and restricted pathways rich in essential fibronectin, with high proliferative rates, these results indicate that the fibronectin pathway contributes to increase the cell number, leading to a high population pressure that could participate in the early dispersion of NCC

Fibronectin substrate induces shortening of in vitro neural crest cell mitotic cycle

Neural crest cells (NCC) segregate from neural folds, swim through extracellular matrix, and differentiate in several cell types. During in vivo and in vitro dispersion, NCC display a substantial proliferative rate. Here, we have evaluated this biological behavior under the influence of different substrates. NCC exhibit the highest proliferative activity on fibronectin substrate, with shortening of the G1 period. This fact is reverted by specific antibody pre-treatment of the substrate. Taking into account that NCC migrate along narrow and restricted pathways rich in essential fibronectin, with high proliferative rates, these results indicate that the fibronectin pathway contributes to increase the cell number, leading to a high population pressure that could participate in the early dispersion of NCC

Increased velocity and induction of chemotactic response in mouse spermatozoa by follicular and oviductal fluids.

The dynamic parameters of mouse sperm cells exposed to follicular and oviductal fluids were assessed. Spermatozoa were tracked on a chemotactic Zigmond chamber and recorded using a videomicroscopy system. The results were evaluated with computer-supported image analysis. Follicular fluid at a dilution of 10(-4) markedly increased the proportion of spermatozoa with high velocity, and stimulated chemotactic behaviour. The highest velocities were observed in sperm cells exposed to oviductal fluid, and a greater proportion of these cells had high velocity compared with those exposed to follicular fluid. Chemotaxis was induced in spermatozoa exposed to oviductal fluid at dilutions of 10(-3) and 10(-5). These results suggest the presence of temporal subpopulations of responsive spermatozoa, considering the distance travelled towards both follicular and oviductal fluids and the proportion of sperm cells migrating towards the gradient in the highest distance ranges. This is the first report on the effect of isolated follicular and oviductal fluids on dynamic parameters and chemotaxis of mouse spermatozoa. The findings support previous work showing that the motility and directionality of mouse sperm cells is increased by factors in the microenvironment of the egg. Although the significance of these factors in vivo is unknown, it is possible that there is a relay mechanism involving sequential activity of both oviductal and follicular fluids to direct the male gametes towards the egg.

Fibronectin substrate induces shortening of in vitro neural crest cell mitotic cycle.

Neural crest cells (NCC) segregate from neural folds, swim through extracellular matrix, and differentiate in several cell types. During in vivo and in vitro dispersion, NCC display a substantial proliferative rate. Here, we have evaluated this biological behavior under the influence of different substrates. NCC exhibit the highest proliferative activity on fibronectin substrate, with shortening of the G1 period. This fact is reverted by specific antibody pre-treatment of the substrate. Taking into account that NCC migrate along narrow and restricted pathways rich in essential fibronectin, with high proliferative rates, these results indicate that the fibronectin pathway contributes to increase the cell number, leading to a high population pressure that could participate in the early dispersion of NCC.

Fibronectin substrate induces shortening of in vitro neural crest cell mitotic cycle.

Neural crest cells (NCC) segregate from neural folds, swim through extracellular matrix, and differentiate in several cell types. During in vivo and in vitro dispersion, NCC display a substantial proliferative rate. Here, we have evaluated this biological behavior under the influence of different substrates. NCC exhibit the highest proliferative activity on fibronectin substrate, with shortening of the G1 period. This fact is reverted by specific antibody pre-treatment of the substrate. Taking into account that NCC migrate along narrow and restricted pathways rich in essential fibronectin, with high proliferative rates, these results indicate that the fibronectin pathway contributes to increase the cell number, leading to a high population pressure that could participate in the early dispersion of NCC.

Mouse spermatozoa modify their motility parameters and chemotactic response to factors from the oocyte microenvironment.

The aim of this work was to evaluate the period of time required for the induction of changes in motility of mouse spermatozoa in response to factors from the microenvironment of oocytes. To determine the effects of the latency time, the period of preincubation before contact with the oocyte product(s), sperm samples were incubated for 15 or 90 min and then exposed to either Dulbecco's Modified Eagle's Medium (DMEM) or to a crude extract of superovulated oocytes (CE). The assays were performed in a Zigmond chamber by filling one compartment with either DMEM or CE, and the other compartment with the sperm suspension. A videomicroscopy system was used for tracking the spermatozoa. Sperm motility analysis was assessed using a semiautomatic objective method, and the following parameters were determined; (1) dynamic parameters: curvilinear velocity, linear velocity and linearity; (2) progressive motility: percentage of spermatozoa showing either circular or linear patterns of movement; and (3) directional motility: percentage of spermatozoa that moved towards either the DMEM or the CE. The results of this work showed that when the spermatozoa contacted soluble factors in CE after only 15 min of previous incubation, there was a significant increase in their dynamic parameters, change in their progressive motility, and induction of directional movement of the spermatozoa towards the CE components, while a longer period of preincubation did not significantly modify these effects. On the other hand, in the presence of culture medium (with or without addition of bovine serum albumin), the spermatozoa needed a more extended period of incubation to significantly increase their dynamic parameters and to modify their progressive motility, while maintaining a random direction of movement.

Distribution patterns of neural-crest-derived melanocyte precursor cells in the quail embryo.

BACKGROUND: In vertebrate embryos, migration of trunk neural crest cells (NCC) proceeds mainly in two streams: a dorsoventral path between the neural tube and somites, and a dorsolateral one between somites and ectoderm. This last pathway is taken by melanocyte precursor cells (MPC) homing the skin, while pigment cells seeding internal organs and the peritoneal wall follow the dorsoventral pathway. Early routes taken by subpopulations of NCC have been well documented using the quail-chick chimaera system and monoclonal antibodies to NCC. However, very little is known about the advanced migratory behavior of MPC, which determines their late distribution patterns at different embryonic axial levels. METHODS: Histological sections of neck, thorax, and abdomen of 6.5 to 9 day quail embryos submitted to DOPA reaction (tyrosinase activity) were used. In four concentric areas--dorsal and ventrally subdivided--the relative density of MPC was determined by morphometric methods. RESULTS: The relative regional density of MPC from their individualization as DOPA-positive putative pigment cells until their definitive seeding in the epidermis showed a progressively higher cell density from deeper to peripheral zones in all three levels studied, with peaks of cell density suggesting a centrifugal pattern occurring in at least two waves of migratory cells. CONCLUSIONS: The spatial distribution of the MPC varies according to both the axial level and the developmental stage of the embryo. Furthermore, the general pattern of centrifugal distribution observed might be attributed to a different timing of cell differentiation closely related to their migratory behavior.

Softening of plant specimens (Equisetaceae) to improve the preparation of paraffin sections.

A method is presented for softening the hard tissues of stem and strobile of Equisetum giganteum allowing the preparation of representative histological slides suitable for teaching and research. Segments of aerial portions of the Equisetum giganteum shoot system were fixed with formaldehyde:ethanol:acetic acid (5:10:5) for 24 hr at room temperature, washed in distilled water and immersed in a mixture of 5% hydrofluoric acid and 0.5% sulfuric acid for 1 hr at room temperature. Hydrofluoric acid has a higher affinity for silica components, and the sulfuric acid acts as a catalyst favoring the separation of calcium silcates. This simple, inexpensive and rapid method allows paraffin sections to be prepared while preserving the topographic microanatomy by decreasing technical artifacts produced by conventional softeners, and preserving PAS-positive polysaccharides.

Exogenous retinoic acid decreases in vivo and in vitro proliferative activity during the early migratory stage of neural crest cells.

We have previously demonstrated that directional migration of neural crest cells (NCC) is associated with a high cell density, resulting from an active cell proliferation. It is also known that treatment with retinoic acid (RA) causes a dose-dependent inhibition of proliferation of some cell types, and that administration of RA during the early stages of embryonic development, induces cranio-facial abnormal patterns corresponding to NCC derivatives. In view of these findings, it was of interest to determine if exogenous RA is a potential modulator of the mitotic rate of NCC, and to explore the hypothesis of an inhibitory effect exerted by RA on the proliferative behaviour of NCC in vivo and in vitro. Homogenates of RA-treated chick embryos showed a low [3H]dT incorporation, indicating a generalized diminution of DNA synthesis. The labelling index (LI = number of labelled cells/total number of cells) revealed that NCC from RA-treated and control embryos had higher values of [3H]dT incorporation than neural tube cells (P < 0.0001). Autoradiographs of RA-treated chick embryos showed a significantly lower [3H]dT incorporation in NCC at the prosencephalic and mesencephalic levels, as well as in the neural tube cells at the prosencephalic, mesencephalic and rhombencephalic levels, than in control chick embryos (P < 0.0001). NCC cultures treated with 1 or 10 microM RA had a significantly lower LI than in cultures treated with 0.1 microM RA or control cultures (P < 0.04). In chick embryos, the mitotic index of NCC was 0.026 for RA-treated and 0.033 for controls, while the duration of the cell cycle was significantly longer in the NCC of RA-treated embryos (approximately 40 h) than in controls (approximately 25 h). The length of the cell cycle phases of NCC was similar in both experimental conditions, except for G1 phase, which was significantly longer in the RA-treated group than in controls. These results show that RA blocks DNA synthesis and lengthens the proliferative behaviour of NCC both in early chick embryos and in vitro, effects that could modify the morphogenetic patterns of NCC distribution through a decreased cell population.

Method for treating and processing whole chick embryos for autoradiography, immunocytochemistry and other techniques.

A method is presented for in situ treatment of whole chick embryos with drugs and immunocytochemical and fixative reagents that resembles conditions "in ovo." The chick embryo is placed in a "shell-less" culture system where it is contained by an agar ring allowing for treatment in vivo. The conceptus (embryo+membranes) is then mounted on a microporous membrane and inserted into a filter device connected to a three-way stopcock that permits fluids to be changed using syringes. The embryo is then processed in toto or after embedding and sectioning for light or electron microscopy. The proposed handling system decreases technical artifacts and changes in the topographic microanatomy produced by conventional manipulation of chick embryos. This method is useful also for directly observing and recording changes in the embryo during drug treatments and allows processing with dangerous reagents without their direct contact with the operator. It is simple, inexpensive and requires only minimal technical training.

Role of early migratory neural crest cells in developmental anomalies induced by ethanol.

The purpose of this work was to study the dispersion of early migratory neural crest cell (NCC) of chick embryos treated with ethanol concentration known to induce the Fetal Alcohol Syndrome (FAS). After a direct treatment with ethanol (250 mg/dl), there was a higher number of abnormal embryos than in the control group, showing neural and cardiac anomalies. After NC-1 immunostaining, ethanol-treated embryos showed smaller number of NCC at all neuraxis levels and presumptive NCC were frequently seen flowing towards the lumen of the neural tube. Present data support the view that ethanol impairment of migratory behaviour of NCC may explain certain anomalies of FAS such as those found at the cephalic end of the body, which is known to be largely derived from NCC.

Development of an objective, semiautomated method for assessment of sperm motility.

Study of sperm motility is associated to the development of precise and economical systems of evaluation. The purpose of this work was to develop an Objective Semi-Automated Method (MOSA) to evaluate the sperm motility. Human semen samples were registered by video-microscopy. The same videofilms were analysed with the MOSA, the subjective method and the automated CellSoft method. The percentages of motile and immotile sperms were equivalent with the three methods. The percentages of rapidly and slowly motile sperms were similar both with the MOSA and the subjective method. The curvilinear and linear velocities as well as the linearity values obtained with the MOSA were different to those obtained with the CellSoft, although such differences would be biologically acceptable. MOSA is an inexpensive, objective and precise method that does not require trained technicians and allows evaluation of several parameters of sperm motility.

Platelet factors induce chemotactic migration of murine mammary adenocarcinoma cells with different metastatic capabilities.

The chemotactic response of neoplastic cells (NC) induced by soluble platelet factors was investigated. NC suspensions isolated from murine mammary gland adenocarcinomas having different metastatic capabilities were incubated in Boyden's chambers and challenged with (1) 'Early Platelet Factors' (EP), obtained from the soluble fraction of recently collagen-activated human platelets, and (2) 'Late Platelet Factors' (LP), isolated after 24 hours incubation of the platelet aggregates. Chemotaxis was expressed as the distance travelled by NC through nitrocellulose filters. NC isolated from M3, the tumour line having the stronger metastatic potential, showed a significant chemotactic response towards LP factors, whereas NC from the M2 line exhibiting the lower metastatic behaviour, showed a chemotactic response towards EP factors. Both tumour cell lines lacked motion capability towards the well known chemoattractant peptide N-f-Met-Leu-Phe-Phe as well as to serum, plasma, collagen type I or culture medium. The different chemotactic response of both tumour lines when they were challenged by concentration gradients of factors released by early or late collagen-activated human platelets, confirm a relationship between platelet activity and metastatic capabilities and suggests that platelet chemoattractants might play a role in the metastatic dissemination of these mammary gland adenocarcinomas.

Exogenous fibronectin modifies the aggregation of collagen-stimulated human platelets.

Fibronectins (FN) are adhesive glycoproteins whose role in platelet aggregation is unclear. Addition of 3, 6 and 12 micrograms/ml of human plasma FN in vitro to isolated human platelets, which had been freed from plasma FN by gel filtration and subsequently stimulated with collagen, inhibited the last stage of platelet aggregation. With 3 and 6 micrograms/ml of FN a shortening of the lag-time was also observed. These data showed that FN may play a role in platelet-collagen interaction as well as in platelet-platelet interaction.

Carrageenan induces anomalies in the chick embryo. A light microscopic study.

Chick embryos injected with lambda-carrageenan prior to incubation and studied with light microscopy at 48 hours of development presented various anomalies. Lack of closure at different levels of the neural tube was one of the lesions most frequently seen. Rachischisis and craniorachischisis were commonly associated with various degrees of hyperplasia of the neural tube wall. Diverse patterns of neural hyperplasia ranged from total occlusion of the neural tube to localized thickening of lateral walls leading to a typical "hourglass" appearance of the ependymal lumen. Multiple septa and cavitations of the neural tube lumen were also recorded. Cephalic and/or trunk duplication of the body as well as disorganization of notochord and somites were frequently associated with rachischisis and areas of necrosis or pyknosis of neural tissue. Neural crest cells, which are normally present in paraneural areas at the stages studied, were not encountered in the carrageenan-injected embryos. These areas were frequently occupied by hyperplastic ectodermic folds. Similarity of present findings on carrageenan-treated embryos with the anomalies induced by selective destruction or impairment of migration of neural crest cells suggests that involvement of this cell population may have a role in the causation of the anomalies observed.

Neural crest cell migration: requirements for exogenous fibronectin and high cell density.

Cells of the neural crest participate in a major class of cell migratory events during embryonic development. From indirect evidence, it has been suggested that fibronectin (FN) might be involved in these events. We have directly tested the role of FN in neural crest cell adhesion and migration using several in vitro model systems. Avian trunk neural crest cells adhered readily to purified plasma FN substrates and to extracellular matrices containing cellular FN. Their adhesion was inhibited by antibodies to a cell-binding fragment of FN. In contrast, these cells did not adhere to glass, type I collagen, or to bovine serum albumin in the absence of FN. Neural crest cell adhesion to laminin (LN) was significantly less than to FN; however, culturing of crest cells under conditions producing an epithelioid phenotype resulted in cells that could bind equally as well to LN as to FN. The migration of neural crest cells appeared to depend on both the substrate and the extent of cell interactions. Cells migrated substantially more rapidly on FN than on LN or type I collagen substrates; if provided a choice between stripes of FN and glass or LN, cells migrated preferentially on the FN. Migration was inhibited by antibodies against the cell-binding region of FN, and the inhibition could be reversed by a subsequent addition of exogenous FN. However, the migration on FN was random and displayed little persistence of direction unless cells were at high densities that permitted frequent contacts. The in vitro rate of migration of cells on FN-containing matrices was 50 microns/h, similar to their migration rates along the narrow regions of FN-containing extracellular matrix in migratory pathways in vivo. These results indicate that FN is important for neural crest cell adhesion and migration and that the high cell densities of neural crest cells in the transient, narrow migratory pathways found in the embryo are necessary for effective directional migration.

Teratogenic effect of lambda-carrageenan on the chick embryo.

Carrageenans are widely used as food additives. Thus, it seemed of interest to test their possible teratogenic action. For this purpose, 530 chick eggs were injected in the yolk sac with 0.1 ml of a solution of 0.1% lambda-carrageenan in 0.9% sodium chloride. As controls, 286 eggs were injected with 0.1 ml of 9.0% sodium chloride. In addition, 284 eggs received no treatment. After incubation for 48--50 hours at 39 degrees C, embryos were fixed, cleared, and observed with a stereoscopic microscope. The frequency of abnormal embryos in the group receiving lambda-carrageenan was higher than in the controls (p less than 0.04). Partial duplication of the body, abnormal flexures of the trunk, anencephaly, a severely malformed brain, thickening of the neural tube wall, an irregular neural tube lumen with segmentary occlusion and a reduction in crown-rump length and number of somites were distinctly seen in the lambda-carrageenan-injected group. Moreover, the average number of anomalies per embryo in the lambda-carrageenan-injected group was nearly twice that in the controls. Present data indicate that lambda-carrageenan has teratogenic effects on early stages of the development of the chick embryo.