Orientation of paramecium swimming in a static magnetic field: Dependence on membrane lipid fluidity

We studied the swimming orientation of the ciliated protozoan Paramecium aurelia in a static magnetic field (0.78 T). P. aurelia is a complex of species termed syngens, whose cell morphology appears similar on microscopic examination. In the magnetic field, the cells of some syngens gradually changed their swimming orientation so that they were swimming perpendicular or parallel to the magnetic field, although such sensitivity to magnetic fields differs between syngens. When the temperature of the cell suspension was raised, the magnetic sensitivity of the cells was decreased. On the other hand, when the cells were cultured beforehand at a high temperature, their magnetic sensitivity was increased. These results raise the possibility that membrane lipid fluidity, which is inversely proportional to the membrane lipid order, contributes to the magnetic orientation of syngens. In this study, measurements of membrane lipid fluidity obtained using fluorescence image analysis with the lipophilic dye, laurdan (6-lauroyl-2-dimethylaminonaphtalene), showed that the degree of membrane lipid fluidity was correlated with the differences in magnetic orientation between syngens. That is, the syngens with decreased membrane fluidity showed an increased degree of magnetic orientation. Therefore, the membrane lipid order is a key factor in the magnetic orientation of Paramecium swimming.     

Myotube orientation using strong static magnetic fields

In this experiment, we evaluated the effects of strong static magnetic fields (SMF) on the orientation of myotubes formed from a mouse-derived myoblast cell line, C2C12. Myogenic differentiation of C2C12 cells was conducted under exposure to SMF at a magnetic flux density of 0-10 T and a magnetic gradient of 0-41.7 T/m. Exposure to SMF at 10 T led to significant formation of oriented myotubes. Under the high magnetic field gradient and a high value of the product of the magnetic flux density and magnetic field gradient, myotube orientation increased as the myogenic differentiation period increased. At the 3 T exposure position, where there was a moderate magnetic flux density and moderate magnetic field gradient, myotube orientation was not observed. We demonstrated that SMF induced the formation of oriented myotubes depending on the magnetic flux density, and that a high magnetic field gradient and a high value of the product of the magnetic flux density and magnetic field gradient induced the formation of oriented myotubes 6 days after myogenic differentiation. We did not detect any effect of the static magnetic fields on myogenic differentiation or cell number. To the best of our knowledge, this is the first report to demonstrate that myotubes orient to each other under a SMF without affecting the cell number and myogenic differentiation.     

Modulation of surface proteins by calcium in Chinese hamster lung cells

Investigations on the role of calcium in regulation of cell morphology of Chinese hamster lung cells (V79) revealed that cells grown with additional calcium (5 mM) in the growth medium (Ham's F12) adhere more tightly to the substratum than those grown in F12 alone. Additional calcium in the medium did not cause any changes in the structural membrane proteins or glycoproteins. Radioiodination of the surface membrane proteins of cells grown with or without additional calcium showed distinct differences in the labeling profile. The most striking change observed in cells grown with additional calcium was a very heavily labeled protein band at 70 K molecular weight. Two bands at approx. 100 K and 42 K were also heavily labeled. In contrast, the amount of radioactivity of a protein band at 52 K decreased in the cells grown in additional calcium. In general, cells grown with additional CaCl² were better iodinated than those grown in growth medium alone. The results demonstrate that calcium modulates surface proteins of V79 cells and this modulation may account for the changes observed in the cell morphology.     

Synchronous culture of Magnetospirillum sp. AMB-1 by repeated cold treatment

Abstract We established a synchronous culture of Magnetospirillum sp. AMB-1 by repeated cold treatment at 5 °C. This is the first reported synchronous culture of a magnetic bacterium. Cold treatment did not affect magnetic particle synthesis or cell morphology. Iron uptake was observed both before and during cell division. The amount of iron uptake was almost equivalent to that of magnetite formation. The proportion of magnetosensitive cells did not change during cell division.     

Proliferation, differentiation and maturation of a mouse epidermal keratinocyte cell line

The spontaneous development of a cell line of neonatal mouse C3H/He epidermal cells is described. The culture has been serially passaged at 29 °C over 18 months in the absence of any dermal support. The cell morphology of the 18th passage is reported. During early growth phase, the morphology of the cell layers was similar to that observed in the basal and differentiating strata of the epidermis: numerous tonofilament bundles and desmosome-filament complexes were observed. During late growth phase, maturation and vertical stratification occurred: demonstrated by the tonofilament accumulation, cell organelle degradation, nuclear pyknosis, presence of keratohyalin granules and horny cell layers with thickened membranes. Hemidesmosome-like structures were shown. No basal lamina or membrane coating granules were detectable. The 18th passage cultured cells did not induce tumors in nude mice. This keratinocyte cell line is not permanent, however: a malignant transformation occurred after 25 subcultures which resulted in an undifferentiated cell population.     

Sinusoidal 50 Hz magnetic fields do not affect structural morphology and proliferation of human cells in vitro

The effects of electromagnetic fields on several processes related to cell physiology and proliferation are currently being investigated. Although the results are still not conclusive and even conflicting, there seems to be a fairly good agreement on the early effects of electromagnetic fields on the generation of free radicals and on Ca++-intracellular concentration and transport. To evaluate the long-lasting consequences of these precocious events, we examined the effects of short- and long-term magnetic field exposure on structural organization (cytokeratin or actin detection), proliferation (bromodeoxyuridine incorporation and propidium iodide staining), colony forming ability and viability (trypan blue exclusion test) of highly proliferating MCF-7 cells (from human breast carcinoma) and on slowly proliferating normal human fibroblasts (from healthy donors). Cells were exposed to either 20 or 500 microT sinusoidally oscillating (50Hz) magnetic fields for different lengths of time (1 to 4 days). Short (1 day)- and long (4 days)-time exposure to the two intensities did not affect MCF-7 growth and viability, colony number and size, or cellular distribution along the cell cycle; neither were the cell morphology and the intracellular distribution and amount of cytokeratin modified. Similarly, no modifications in the actin distribution and proliferative potential were observed in normal human fibroblasts. These findings suggest that under our experimental conditions, continuous exposure to magnetic fields does not result in any appreciable effect in both normal and tumor cells in vitro.     

Measurements of growth cone adhesion to culture surfaces by micromanipulation

Neurons were grown on plastic surfaces that were untreated, or treated with polylysine, laminin, or L1 and their growth cones were detached from their culture surface by applying known forces with calibrated glass needles. This detachment force was taken as a measure of the force of adhesion of the growth cone. We find that on all surfaces, lamellipodial growth cones require significantly greater detachment force than filopodial growth cones, but this differences is, in general, due to the greater area of lamellipodial growth cones compared to filopodial growth cones. That is, the stress (force/unit area) required for detachment was similar for growth cones of lamellipodial and filopodial morphology on all surfaces, with the exception of lamellipodial growth cones on L1-treated surfaces, which had a significantly lower stress of detachment than on other surfaces. Surprisingly, the forces required for detachment (760-3,340 mudynes) were three to 15 times greater than the typical resting axonal tension, the force exerted by advancing growth cones, or the forces of retraction previously measured by essentially the same method. Nor did we observe significant differences in detachment force among growth cones of similar morphology on different culture surfaces, with the exception of lamellipodial growth cones on L1-treated surfaces. These data argue against the differential adhesion mechanism for growth cone guidance preferences in culture. Our micromanipulations revealed that the most mechanically resistant regions of growth cone attachment were confined to quite small regions typically located at the ends of filopodia and lamellipodia. Detached growth cones remained connected to the substratum at these regions by highly elastic retraction fibers. The closeness of contact of growth cones to the substratum as revealed by interference reflection microscopy (IRM) did not correlate with our mechanical measurements of adhesion, suggesting that IRM cannot be used as a reliable estimator of growth cone adhesion.     

Controlled Synthesis and Microwave Absorption Property of Chain-Like Co Flower

Chain-like Co flower is synthesized by simply modulating the reaction conditions via a facile liquid-phase reduction method. The morphology evolution process and transformation mechanism from particle to flower and finally to chain-like flower have been systematically investigated. [001] is the preferred growth orientation due to the existence of easy magnetic axis. The microwave loss mechanism can be attributed to the synergistic effect of magnetic loss and dielectric loss, while magnetic loss is the main loss mechanism. In addition, the special microstructure of chain-like Co flower may further enhance microwave attenuation. The architectural design of functional material morphology is critical for improving its property toward future application.     

Heterogeneity of a human T-lymphoblastoid cell line

A human T-lymphoblastoid cell line (Jurkat) was cloned, and four resulting sublines were characterized in a variety of ways with the objective of gaining information on heterogeneity in cell lines. Within a few weeks of cloning, distinct cellular morphologies and growth patterns became apparent in the four sublines. Growth rate measurements made over 3 months did not show any significant differences between the sublines. Surface protein profiles obtained by radioimmunoprecipitation using antisera in conjunction with extracts from [35S]Met and 125I-labeled cells revealed differences between the sublines. Analysis of total cell DNA showed that one of the sublines possessed only half the chromosome complement of the other sublines and the parental line. Karyotyping confirmed this result and, in addition, demonstrated that chromosome numbers fluctuated around a mean value for each subline. Karyotypic variability became apparent within 2 months of cloning and tended to increase with time in culture. G-banding analysis showed that the analyzed cell populations contained distinctive cytogenetic aberrations. Properties of the cloned sublines were monitored over a 9-month period. One of the sublines that had shown heterogeneous morphology even after 6 weeks maintained the heterogeneity throughout this time. Another subline underwent a marked change in morphology (round to irregular) and growth habit (single cells to large clumps) with increasing time in culture. Interestingly, several alterations to surface proteins accompanied these growth changes. A third subline had relatively stable morphology and chromosome number throughout the 9-month period. The modal chromosome number was hypotetraploid for three sublines and the parent line, but was diploid for another subline. However, it was interesting that progression toward tetraploidy in this subline was apparent after almost 2 years of culturing. The results showed that the original cell line consisted of a heterogeneous assemblage of cell types, some of which were quite unstable. Some implications for research using cultured cell lines are discussed.     

Alteration in growth, cell morphology, and cytoskeletal structures of KB cells induced by epidermal growth factor and transforming growth factor-beta

Long-term biological effects of epidermal growth factor (EGF), insulin, insulin-like growth factor-I (IGF-I), and transforming growth factor-beta (TGF-beta) were examined with human epidermoid carcinoma KB cells. EGF inhibited the growth of KB cells in both serum-containing and serum-free synthetic media by reducing the growth rate and by lowering the saturation density. The cells cultured with EGF showed relatively high motility and grew dispersely as single cells, whereas the cells cultured in the absence of EGF grew in clusters. Although TGF-beta itself did not inhibit the growth of KB cells, it augmented the growth inhibition by EGF. TGF-beta also affected the cell morphology. In the presence of TGF-beta, the cells became flattened and actin stress fibers were well developed compared to those cultured in its absence. The effects of EGF on growth, cell motility, and cell morphology were reversible. Tyrosine phosphorylation of EGF receptors was continuously observed for at least 50 h in the presence of EGF. TGF-beta did not increase the phosphorylation induced by EGF. These results suggested that signals continuously transmitted through EGF receptors caused the changes in cell growth and morphology and that TGF-beta did not act on the cells by modulating binding of EGF to its receptors or activation of the receptor kinase. In contrast to EGF and TGF-beta, neither insulin nor IGF-I affected cell morphology or growth, although KB cells express their receptors and the receptor kinases were also continuously activated during exposure of the cells to insulin or IGF-I.     

Evaluation of androgen action on fibroblast growth by flow cytometry

The action of androgen (dihydrotestosterone-DHT-) on fibroblast growth was evaluated by 3H thymidine incorporation in DNA, by DNA assay using 3-5 diaminobenzoic acid fixation, and by a more sophisticated technique: flow cytometry. Cell DNA and proteins were stained with propidium iodide and fluorescein isothyocyanate, respectively. We did not observe any detectable DNA variation when fibroblats were incubated in the presence of DHT. Moreover, DHT did not modify DNA and protein distribution, either in the total cell cycle or in each phase of the cell cycle. These results suggest that androgens do not induce total protein synthesis nor increase DNA in target cells. It is likely that they induce specific protein synthesis.     

Synapse Loss and Dendrite Remodeling in a Mouse Model of Glaucoma

It has been hypothesized that synaptic pruning precedes retinal ganglion cell degeneration in glaucoma, causing early dysfunction to retinal ganglion cells. To begin to assess this, we studied the excitatory synaptic inputs to individual ganglion cells in normal mouse retinas and in retinas with ganglion cell degeneration from glaucoma (DBA/2J), or following an optic nerve crush. Excitatory synapses were labeled by AAV2-mediated transfection of ganglion cells with PSD-95-GFP. After both insults the linear density of synaptic inputs to ganglion cells decreased. In parallel, the dendritic arbors lost complexity. We did not observe any cells that had lost dendritic synaptic input while preserving a normal or near-normal morphology. Within the temporal limits of these observations, dendritic remodeling and synapse pruning thus appear to occur near-simultaneously.     

Effect of proteases,phospholipases and polysaccharide-splitting enzymes on plasma membrane particles and on the synthesis of the fibrillar cell wall component in yeast protoplasts

Plasma membrane particles demonstrable by the freeze-etching technique, play, according to some authors, a role in the cell wall synthesis. On a model of yeast protoplast capable of regenerating the cell wall we studied the morphology of plasma membrane particles and the synthesis of the fibrillar cell wall component following a treatment with various enzymes and with lysolecithin. The enzymes used included proteases (trypsin, papain, pronase), polysaccharide-splitting enzymes (snail enzyme complex, mannosidase), phospholipases (A, C, D) and lipase. Upon treating living protoplasts with these substances in no case did we observe any morphologically demonstrable change in the particle structure or in their distribution in the plasma membrane. The fibrillar cell wall component was synthetized even in the presence of proteases and phospholipases. If the plasma membrane particles are assumed to represent enzyme systems synthesizing the cell wall component then in living protoplasts they are not located on the outer plasma membrane face or else are protected by some mechanism against the action of the corresponding enzymes.     

Testing Magnetic Orientation in a Solitary Subterranean Rodent Ctenomys talarum (Rodentia: Octodontidae)

To test for the hypothesis that Ctenomys talarum can use the earth's magnetic field for spatial orientation, we carried out field and laboratory experiments to analyse if C. talarum burrows present any geomagnetic orientation in their natural habitat, if C. talarum show any spontaneous directional preference when starting to excavate their burrows and if this subterranean rodent is capable to use the earth's magnetic field to orient towards a goal in a complex maze. No correlation between the burrowing direction and the earth's magnetic field was found. We could not find any evidence for any spontaneous directional preference when starting to excavate the burrows in C. talarum. The change of the horizontal vector of the geomagnetic field did not affect the ability of this rodent to orient towards a goal in an artificial labyrinth. Explanations for these results and other possible mechanisms of orientation that could be used by C. talarum are discussed.     

Reduced clastogenic activity of maleic hydrazide in Vicia faba seedlings grown in a situation of overcrowding stress

A pre-treatment stress situation of overcrowding of Vicia faba seedlings in the phase of germination and growth influenced their subsequent sensibility to treatment with the mutagenic herbicide maleic hydrazide. The seedlings showed a significant reduction in the frequency of micronucleated cells when they grew in a strongly crowded manner compared with scattered and uniformly distributed seedlings (3.83% versus 11.46%). The findings do not provide evidence for the involvement of phytochelatins in response to stress conditions in this process: pre-treatment with buthionine sulfoximine, a specific inhibitor of phytochelatin synthesis, did not modify the response of the seedlings to maleic hydrazide under conditions of overcrowding or under normal conditions. Scanning electron microscopy (SEM) was used to observe the root tip of V. faba grown in conditions of normal growth or overcrowding. SEM micrographs revealed differences between the tips with regards to root hair density and root surface morphology. Finally, we found a positive correlation between the frequency of micronucleated cells and the length of the primary root, for every time of growth considered (1, 3, 4 and 5 days).     

Qualitative and quantitative study of the growth and cell surface properties of Huntington's disease fibroblasts and age-matched controls

Summary Different growth-and cell surface properties of cells grown from skin biopsy samples from 25 Huntington's chorea patients, 22 at risk patients, and agematched controls were examined in a blind study. The number of explants obtained from each biopsy was carefully controlled. The nature (epithelial or fibroblastic) of the initial outgrowth was scored on all explants and the mean number of cells obtained from each explant after 3 weeks in culture was determined after trypsinization. During the next 15 passages, various parameters characterizing cell growth were studied. Maximal cell densities and growth rates were examined using a standard plating density of cells at each passage. These growth properties were also examined in three media: DME-NCS, DME-FCS, and Ham's F10 fetal calf serum (FCS). In addition, the effects of high temperature (40°C) and the addition of insulin to the medium on the growth and protein content of the cells was examined. These results, containing 152 measurements on 81 cases, were examined using a phased multivariate analysis. Blind cluster analysis showed that the clusters were nonrandomly determined. Factor analysis indicated the initial growth parameters to be among the most discriminating. Discriminant analysis, however, did not prove to be of any diagnostic use, since the external factors masked any possible genetic difference. Two possible sources of bias were identified: the size of the biopsy and the type of culture medium. The cell surface properties of HD and control fibroblasts were further investigated using two different techniques. The adhesion of single HD cells to either HD cell layers or normal cell layers revealed no significant differences. Intradermal immunization of rabbits with whole fibroblasts resulted, with both cell lines, in a polyspecific antiserum containing antibodies directed against a number of surface components. When HD and control fibroblasts were compared with the two antisera, no qualitative or quantitative differences in the precipitation patterns obtained using crossed immunoelectrophoresis, (CIE) were found. Our investigations did not allow us to discriminate HD cultures from controls by any of the qualitative and quantitative parameters tested.     

Effects of a Magnetic Field on the Growth of Primary Roots of Zea mays

Caryopses with primary roots of Zea mays L. (cv. Golden CrossBantam 70) were incubated on agar-solidified distilled water(0.4% agar) in a magnetic field of 5 k gauss or 0.01 k gauss(control), the direction of root growth corresponding to thedirection of magnetic field from the north- to the south-seekingpole. The rate of growth of the roots exposed to 5 k gauss wasincreased by about 25% over that of the controls (0.01 k gauss).When caryopses with primary roots were incubated on agar-solidifieddistilled water that had previously been exposed to a magneticfield of 5 k gauss or 0.01 k gauss, no differences in ratesof root growth were observed. The growth rate of the primaryroot increased with increased magnetic flux density (from 0.01k to 5 k gauss). The orientation of the root in terms of thedirection of the magnetic field (from the north- to the south-seekingpole) affected the rate of growth of the root. When the directionof root growth was in line with the direction of the magneticfield of 5 k gauss or in the direction opposite to that of thefield, growth rates increased by 27% and 22%, respectively,of the growth rate of the controls (magnetic field of 0.01 kgauss). When the direction of growth was perpendicular to thedirection the field, the growth rate increased by 15% of thatof the control (0.01 k gauss). It appears that a magnetic stimulusmay induce an increase in the rate of root growth in some plantmaterials. (Received March 23, 1988; Accepted August 9, 1988)     

Magnetic field effects on assembly pattern of smooth muscle cells

Summary Under a strong magnetic field, the diamagnetic, properties of biological cells modulate the behavior of the cells themselves, under conditions of both floating and adherence. The morphological effects of strong static magnetic fields on adherent cells are less well understood than the effects of magnetic fields on red blood cells. In the present study, a high-intensity magnetic field of 14 T affected the morphology of smooth muscle cell assemblies, and the shapes of the cell colonies extended along the direction of the magnetic flux. The phenomenon was most notable, under magnetic fields of more than 10 T, where an ellipsoidal pattern of smooth muscle cell colonies was clearly observed. The ellipticity of the cell colony pattern with a 14-T magnetic field was 1.3, whereas that with a field of 0–8 T was close to a circle at about 1.0. The evidence that smooth muscle cells detect high-density magnetic flux and thus change their cell orientation was shown as a visible pattern of cellular colonies. The speculated mechanism is a diamagnetic torque force acting on cytoskeleton fibers, which are dynamically polymerizing-depolymerizing during cell division and cell migration.     

Evaluation of two selective media for the isolation of Bacillus anthracis

Aims:  To evaluate two selective media, polymyxin, lysozyme, ethylenediaminetetraacetic acid, thallium acetate (PLET) agar and R&F Anthracis chromogenic agar (ChrA), for the isolation and selection of Bacillus anthracis .
Methods and Results:  Sixteen genotypically diverse B. anthracis strains were sub-cultured onto PLET and ChrA to test the sensitivity (ability of B. anthracis to grow and produce expected colony morphology) of both media. Fourteen of the 16 B. anthracis strains produced the expected morphology on PLET (88% sensitive) while 13/16 produced the expected morphology on the ChrA medium (81% sensitive). Seventeen other Bacillus strains and 18 non Bacillus spp. strains were used to evaluate the media's selectivity (ability to inhibit non- B. anthracis growth). PLET inhibited growth of 14/35 strains (40% selective), including six Bacillus strains, while ChrA inhibited 3/35 (9% selective). In addition, we did not observe any differences between the recovered CFU on PLET or ChrA when plating extractions of spiked soil.
Conclusions:  Polymyxin, lysozyme, ethylenediaminetetraacetic acid, thallium acetate agar was more selective and sensitive than ChrA.
Significance and Impact of the Study:  Although both media are more expensive than sheep blood agar, for samples with high numbers of bacteria, they can be used to isolate B. anthracis with proper training and experience and with the knowledge that there are limitations to each media.