Trisporic Acid Biosynthesis in Separate Plus and Minus Cultures of Blakeslea trispora: Identification by Mucor Assay of Two Mating-Type-Specific Components

Separate plus and minus cultures of Blakeslea trispora synthesize small amounts of trisporic acids under specific conditions. These amounts are expressed as a percentage of the trisporic acids (50 mg/liter of medium) synthesized by mixed plus-minus cultures in 5 days. Plus cultures, without additives from minus cultures, synthesize 0.1% trisporic acids. Plus cultures synthesize 0.4% trisporic acids when stimulated by M-factor, a mating-type-specific component synthesized by minus cultures. Minus cultures, without additives from plus cultures, do not synthesize even 0.0001% trisporic acids. Minus cultures synthesize 1% trisporic acids when stimulated by P-factor, a mating-type-specific component synthesized by plus cultures. Minus cultures synthesize M-factor when stimulated by pi, a component synthesized by plus cultures. We speculate that (i) minus cultures synthesize a component, mu, which stimulates P-factor synthesis in plus cultures, and (ii) both M-factor and P-factor are precursors of trisporic acids.     

Effect of nutrient variations on growth and brefeldin A formation inCurvularia lunata

The highest level of secreted brefeldin A was present in glucose-grown cultures, intermediate levels in glucose-fructose, and xylose cultures and low levels in fructose- and galaotose-grown cultures ofCurvularia lunata. The biomass decreased from glucose, fructose, xylose, glucose-fructose to galactose cultures. Brefeldin A levels and mycelial yields were low in citrate-, gluconate-, and succinate-grown cultures. Inorganic phosphate-limited cultures supported a high level of brefeldin A. Intermediate levels were present in trace elements-, and inorganic phosphate-trace elements-limited cultures.     

Nonneuronal cells mediate neurotrophic action of vasoactive intestinal peptide

The developmental regulation of neuronal survival by vasoactive intestinal peptide (VIP) was investigated in dissociated spinal cord-dorsal root ganglion (SC-DRG) cultures. Previous studies demonstrated that VIP increased neuronal survival in SC-DRG cultures when synaptic transmission was blocked with tetrodotoxin (TTX). This effect was further investigated to determine if VIP acted directly on neurons or via nonneuronal cells. For these studies, SC-DRG cells were cultured under conditions designed to provide preparations enriched for a particular cell type: astrocyte-enriched background cell (BG) cultures, meningeal fibroblast cultures, standard mixed neuron-nonneuron (STD) cultures, and neuron-enriched (N) cultures. Addition of 0.1 nM VIP to TTX-treated STD cultures for 5 d prevented the TTX-mediated death and the death that occurred naturally during development in culture, whereas the same treatment on N cultures did not prevent neuronal cell death. Conditioned medium from VIP-stimulated BG cultures prevented neuronal cell death when added to the medium (10% of total volume) of N cultures treated with TTX. The same amount of conditioned medium from BG cultures that were not treated with VIP had no protective action on N cultures. Conditioned medium from N or meningeal fibroblast cultures, either with or without VIP treatment, did not prevent TTX-mediated cell death in N test cultures. These data indicate that VIP increases the availability of neurotrophic survival-promoting substances derived from nonneuronal cultures, the most likely source being astroglial cells. This study suggests that VIP has a role in mediating a neuron-glia-neuron interaction that influences the trophic regulation of neuronal survival.     

Synthesis and distribution of cytoskeletal elements in endothelial cells as a function of cell growth and organization

Confluent cultures of adult bovine aortic endothelial (ABAE), correal endothelial (BCE), and fetal bovine heart endothelial (FBHE) cells form a monolayer of highly flattened, closely apposed, and nonoverlapping cells. In ABAE and BCE cultures, this is associated with a 50-fold decrease in the rate of DNA synthesis and correlates with a 14-fold decrease in protein synthesis. In contrast, in confluent FBHE cultures only partial decreases in the rates of DNA synthesis (6-fold) and protein synthesis (3-fold) are observed. FBHE cells therefore fulfill the morphological, but not the biochemical, criteria for confluent cultured endothelial cell monolayers. The appearance of the cytoskeletal elements actin, tubulin, and vimentin in sparse and confluent cultures of endothelial cells has been analyzed by two-dimensional gel electrophoresis and immunofluorescence. Sparse versus confluent ABAE, FBHE, and BCE cultures showed no changes in their relative rates of synthesis or cellular content of tubulin. Actin behaved similarly to tubulin in FBHE and BCE cultures, while in ABAE cultures a small increase (3-fold) in its relative rate of synthesis was observed in confluent versus sparse cultures. BCE cultures showed no change in the rate of synthesis of vimentin, but the cellular content of vimentin was markedly increased when cultures reached confluence. When the distribution of vimentin in both sparse and confluent BCE cultures was analyzed by immunofluorescence, in both cases it appeared distributed throughout the cytoplasm as thin fibers and bundles of fibers. In confluent ABAE cultures, both the relative amount and biosynthetic rate of vimentin increased by 15-fold. This increase in the intracellular accumulation of vimentin correlated with its immunofluorescent distribution within the cells. While in sparse cultures, vimentin appeared to be distributed as thin fibers, in confluent cultures thick curl-like fibrous bundles could be seen distributed throughout the cytoplasm and organized in a perinuclear ring. In contrast, in FBHE cultures no significant changes in the distribution and organization of rate of synthesis of vimentin were observed.     

Comparative study of in vitro expansion of bone marrow-derived mesenchymal stem cells

Bone marrow-derived mesenchymal stem cells (BMD-MSCs) are of great interest for tissue engineering, but require expansion before they can be used for therapeutic applications. We compared three different culture techniques for their potential for large scale expansion of rat BMD-MSCs, i.e. monolayer cultures, stirred suspension cultures and pour-off cultures, and found that pour-off cultures supported the biggest expansion in BMD-MSCs as measured by the fibroblastic-colony forming unit assay (CFU-f). BMD-MSCs expanded in stirred suspension cultures stopped proliferating altogether and, although monolayer cultures allowed for expansion of BMD-MSCs, they favoured a differentiated phenotype over uncommitted MSCs. Only BMD-MSCs expanded in pour-off cultures were able to differentiate into both osteoblastic and adipocytic lineages and maintain CFU-f numbers. These data suggest that pour-off cultures are a viable method of BMD-MSC expansion.     

In vitro growth and chromosome constitution of placental cells. I. Spontaneous and elective abortions

Placental cultures from chromosomally normal spontaneous abortions, as well as placental and fetal cultures from chromosomally normal elective abortions, were established, and the growth and cytogenetic constitution of the cultures were compared. Fetal cultures grew well and remained chromosomally stable over the entire 100-day period of observation. In contrast, placental cultures were relatively short-lived, many becoming senescent and dying within the time of observation. This was particularly marked in cultures established from spontaneous abortions. Five of the 18 cultures established from spontaneous abortions, but only 1 of the 24 cultures from elective abortions, developed chromosomally abnormal clones. The emergence of such clones was unrelated to the senescence of the cultures.     

Effect of Light on Alkaloid Accumulation in Cell Cultures of Nicotiana Species

The effect of light on alkaloid accumulation in a range of cellcultures of tobacco was determined. Cell suspension culturesof Nicoriana rabacwn L. cv. Wisconsin-38 with differing degreesof photosynthetic activity, callus cultures of N. glauca Graham,root cultures of N. rustica L. and shoot cultures of N. tabacumwere used. The alkaloid content of green illuminated cultureswas greatly reduced compared with non-green cultures grown inthe dark, but decreased accumulation did not correlate withincreasing photosynthetic activity. The accumulation of allof the major alkaloids was affected, regardless of the speciesof tobacco used. Transfer of N. glauca callus from the darkinto the light caused a decrease in alkaloid accumulation, whilemoving cultures from the light into the dark resulted in anincrease in alkaloid content. In root cultures light causeda reduction in growth, which affected alkaloid synthesis. Inshoot cultures there were only traces of alkaloid detectable,regardless of whether or not cultures were illuminated. Lightappeared to cause a non-photosynthetic suppression of alkaloidaccumulation in visibly undifferentiated cultures, and thiseffect was modified in visibly differentiated cultures. Key words: Nicoriana spp, tobacco, alkaloid accumulation, cell culture     

Sulfated proteoglycan synthesis by confluent cultures of rabbit costal chondrocytes grown in the presence of fibroblast growth factor

We examined the effect of fibroblast growth factor (FGF) on proteoglycan synthesis by rabbit costal chondrocyte cultures maintained on plastic tissue culture dishes. Low density rabbit costal chondrocyte cultures grown in the absence of FGF gave rise at confluency to a heterogeneous cell population composed of fibroblastic cells and poorly differentiated chondrocytes. When similar cultures were grown in the presence of FGF, the confluent cultures organized into a homogenous cartilage-like tissue composed of rounded cells surrounded by a refractile matrix. The cell ultrastructure and that of the pericellular matrix were similar to those seen in vivo. The expression of the cartilage phenotype in confluent chondrocyte cultures grown from the sparse stage in the presence vs. absence of FGF was reflected by a fivefold increase in the rate of incorporation of [35S]sulfate into proteoglycans. These FGF effects were only observed when FGF was present during the cell logarithmic growth phase, but not when it was added after chondrocyte cultures became confluent. High molecular weight, chondroitin sulfate proteoglycans synthesized by confluent chondrocyte cultures grown in the presence of FGF were slightly larger in size than that produced by confluent cultures grown in the absence of FGF. The major sulfated glycosaminoglycans associated with low molecular weight proteoglycan in FGF-exposed cultures were chondroitin sulfate, while in cultures not exposed to FGF they were chondroitin sulfate and dermatan sulfate. Regardless of whether or not cells were grown in the presence or absence of FGF, the 6S/4S disaccharide ratio of chondroitin sulfate chains associated with high and low molecular weight proteoglycans synthesized by confluent cultures was the same. These results provide evidence that when low density chondrocyte cultures maintained on plastic tissue culture dishes are grown in the presence of FGF, it results in a stimulation of the expression and stabilization of the chondrocyte phenotype once cultures become confluent.     

Selective killing of subacute sclerosing panencephalitis virus-infected cells by liposomes containing fragment A of diphtheria toxin

A more than 99% reduction in infectivity of cultures infected with subacute sclerosing panencephalitis (SSPE) virus was obtained by treating the cultures with liposomes containing fragment A of diphtheria toxin. In the mixed cultures of human embryonic lung (HEL) cells and SSPE virus-infected HEL cells (SSPE cells), SSPE virus in SSPE cells invaded the surrounding HEL cells successively, forming syncytial giant cells to destroy the whole cultures. By adding liposomes containing fragment A of diphtheria toxin to the mixed cultures, we were successful in killing the SSPE cells selectively and as the result of elimination of SSPE cells from the cultures, the cultures appeared to be cured by uninfected HEL cell growth.     

Characterization of Primary and Secondary Cultures of Astrocytes Prepared from Mouse Cerebral Cortex

Astrocyte cultures were prepared from cerebral cortex of new-born and 7-day-old mice and additionally, the cultures from new-born animals were passaged as secondary cultures. The cultures were characterized by immunostaining for the astrocyte markers glutamine synthetase (GS), glial fibrillary acidic protein, and the glutamate transporters EAAT1 and EAAT2. The cultures prepared from 7-day-old animals were additionally characterized metabolically using (13)C-labeled glucose and glutamate as well as (15)N-labeled glutamate as substrates. All types of cultures exhibited pronounced immunostaining of the astrocyte marker proteins. The metabolic pattern of the cultures from 7-day-old animals of the labeled substrates was comparable to that seen previously in astrocyte cultures prepared from new-born mouse brain showing pronounced glycolytic and oxidative metabolism of glucose. Glutamate was metabolized both via the GS pathway and oxidatively via the tricarboxylic acid cycle as expected. Additionally, glutamate underwent pronounced transamination to aspartate and alanine and the intracellular pools of alanine and pyruvate exhibited compartmentation. Altogether the results show that cultures prepared from cerebral cortex of 7-day-old mice have metabolic and functional properties indistinguishable from those of classical astrocyte cultures prepared from neocortex of new-born animals. This provides flexibility with regard to preparation and use of these cultures for a variety of purposes.     

Effect of light on lipid composition of Ricinus cell cultures

The changes of lipid composition were determined in callus cultures from Ricinus communis endosperm upon transfer from darkness into light. Culture in light induced chlorophyll synthesis and formation of differentiated chloroplasts. In light-grown cultures the major lipid classes were phospho- and glycolipids, dark-grown cultures were rich in triacylglycerol. The major fatty acids were linolenic acid and palmitic acid in both cultures. In the green cultures linolenic acid was predominantly esterified in glycolipids whereas in the dark-grown cultures this fatty acid was the major component of phospholipids. Ricinoleic acid was not found.Abbreviations PC phosphatidylcholine - PE phosphatidylethanolamine - MGD monogalactosyldigylceride - DGD digalactosyldiglyceride - SE steryl esters - NL neutral lipids     

Callus cultures for phytometabolism studies: phytometabolites of 3-trifluoromethylphenol in Lemnaceae plants and callus cultures

Plant callus cultures have the potential to advance phytoremediation science by allowing study of cellular phytometabolism in absence of sorption, translocation, microbial degradation, and other phytoremediation processes; however, studies demonstrating the applicability of results from callus cultures to whole plants are limited. The aim of this study was to evaluate the feasability and applicability of using callus cultures to study phytometabolism. This aim was accomplished through evaluation of induction and growth of Lemnaceae callus cultures and comparison of phytometabolism in callus cultures and whole plants. Four out of eight published methods for callus culture of Lemnaceae successfully induced callus cultures that exhibited doubling times of 1.7 to 23 wks. Callus cultures and whole plants of Landoltia punctata and Lemna minor metabolized 3-trifluoromethylphenol (3-TFMP) through conjugation with glucopyranoside, malonyl-glucopyranoside, and glucopyranosyl-apiofuranoside. However, concentrations of metabolites were approximately 10 times less in callus cultures than in plants. While results demonstrated applicability of callus cultures results to whole plants, the low success rate of callus induction procedures, length of time required to produce substantial callus mass, and the low accumulation of metabolites in callus cultures may limit the feasibility of callus cultures for assessing phytometabolism.     

Resistance of Salmonellae Isolated in 1959 and 1960 to Tetracyclines and Chloramphenicol

The resistance of cultures of Salmonella typhimurium to tetracyclines and chloramphenicol has been examined periodically. Although none of 200 cultures isolated prior to 1948 was resistant to the antibiotics, 5% of 100 cultures from man and 9% of 100 cultures from fowls which were isolated in 1956 and 1957 were resistant to tetracyclines. Among 158 cultures isolated from man and 100 cultures isolated from fowls in 1959 and 1960, 13.9 and 29%, respectively, were resistant to tetracyclines. In the last series, cultures resistant to chloramphenicol were found for the first time. Among 150 cultures of other Salmonella serotypes from man and 137 similar cultures isolated from fowls in 1959 and 1960, 5.3 and 8%, respectively, were found resistant to tetracyclines. There is no obvious explanation for the higher percentage of resistant strains occurring in S. typhimurium than in other serotypes.     

A comparative study on the dental health status of five precolumbian Peruvian cultures.

In a survey of dental health status of ancient Southern Peru, 101 skeletal remains were studied from five cultures: Paracas, Nazca, Tiahuanaco, Ica, and Inca. The Paracas and Ica cultures exhibited more missing antemortem teeth per mandible than the other cultures. Frequency of missing one or more third molars was less than expected and not as high as reported in peoples of Mongoloid heritage. The Paracas, Ica and Nazca, "coastal" cultures had a higher caries incidence than the "inland" cultures. Whether this relates to some difference in diet or water supply remains unresolved and warrants further investigation. Moderate attrition was noted in all the Precolumbian cultures but pulpal involvement was not observed. Osteitis, noted in all the cultures, was more pronounced in the Nazca, Paracas and Ica cultures. There appeared to be a direct relationship between caries involvement and the number of missing antemortem teeth to osteitis. Calculus was heavier in the Paracas and Ica cultures. In addition, the Paracas culture exhibited a dark brown stain on the teeth which may imply some difference between the cultures in either the food, water or social habits.     

Effect of ethanol on activity of the plasma-membrane ATPase in, and accumulation of glycine by, Saccharomyces cerevisiae

The pH optimum of the ATPase activity in plasma membranes from Saccharomyces cerevisiae NCYC 431 from 8 h cultures was around 6.5 and that in membranes from organisms from 16 h cultures near 6.0. The Km[ATP] of the enzyme was virtually unaffected by the age of the culture from which organisms were harvested, although the Vmax of the enzyme in membranes from organisms from 8 h cultures was higher than that for organisms from 16 h cultures. Ethanol non-competitively inhibited ATPase activity in membranes, although the inhibition constant for the enzyme from organisms from 8 h cultures was lower than that from organisms from 16 h cultures. Glycine accumulation by the general amino acid permease was non-competitively inhibited by ethanol. Inhibition constants were virtually the same for glycine uptake by deenergized organisms from 8 h and 16 h cultures, but under energized conditions the value was greater for organisms from 16 h rather than 8 h cultures. The data indicate that inhibition of plasma-membrane ATPase activity by ethanol could account, at least in part, for inhibition of glycine accumulation by ethanol.     

Improved Soybean Root Association of N-Starved Bradyrhizobium japonicum

In this study, we addressed the effects of N limitation in Bradyrhizobium japonicum for its association with soybean roots. The wild-type strain LP 3001 grew for six generations with a growth rate of 1.2 day(-1) in a minimal medium with 28 mM mannitol as the carbon source and with the N source [(NH(4))(2)SO(4)] limited to only 20 microM. Under these conditions, the glutamine synthetase (GS) activity was five to six times higher than in similar cultures grown with 1 or 0.1 mM (NH(4))(2)SO(4). The NtrBC-inducible GSII form of this enzyme accounted for 60% of the specific activity in N-starved rhizobia, being negligible in the other two cultures. The exopolysaccharide (EPS) and capsular polysaccharide (CPS) contents relative to cell protein were significantly higher in the N-starved cultures, but on the other hand, the poly-3-hydroxybutyrate level did not rise in comparison with N-sufficient cultures. In agreement with the accumulation of CPS in N-starved cultures, soybean lectin (SBL) binding as well as stimulation of rhizobial adsorption to soybean roots by SBL pretreatment were higher. The last effect was evident only in cultures that had not entered stationary phase. We also studied nodC gene induction in relation to N starvation. In the chromosomal nodC::lacZ fusion Bj110-573, nodC gene expression was induced by genistein 2.7-fold more in N-starved young cultures than in nonstarved ones. In stationary-phase cultures, nodC gene expression was similarly induced in N-limited cultures, but induction was negligible in cultures limited by another nutrient. Nodulation profiles obtained with strain LP 3001 grown under N starvation indicated that these cultures nodulated faster. In addition, as culture age increased, the nodulation efficiency decreased for two reasons: fewer nodules were formed, and nodulation was delayed. However, their relative importance was different according to the nutrient condition: in older cultures the overall decrease in the number of nodules was the main effect in N-starved cultures, whereas a delay in nodulation was more responsible for a loss in efficiency of N-sufficient cultures. Competition for nodulation was studied with young cultures of two wild-type strains differing only in their antibiotic resistance, the N-starved cultures being the most competitive.     

The patterns on chondrogenesis of cells from facial primordia of chick embryos in micromass culture

Chondrogenesis of mesenchymal cells from the frontonasal mass, mandibles and maxillae of stage-24 chick embryos has been investigated in micromass (high-density) cultures. Distinct differences in the amount and pattern of cartilage differentiation are found. In cultures of frontonasal mass cells, a central sheet of cartilage develops; in cultures of mandible cells, less cartilage differentiates and nodules form; while in cultures of maxillae cells, virtually no chondrogenesis takes place. The same patterns of cartilage are found in cultures established from stage-20 embryos. At stage 28, frontonasal mass cultures form cartilage nodules and the number of nodules in mandible cultures is markedly decreased. There are striking parallels between the chondrogenic patterns of cells from the face and limb buds in micromass culture. The frontonasal mass cell cultures of stage-20 and -24 chick embryos resemble those established from the progress zone of limb buds. The progress zone is an undifferentiated region of the limb in which positional cues operate. Cultures established from the frontonasal mass of stage-28 chick embryos and from the mandibles of all stages resemble cultures of whole limb buds. These contain a mixture of committed and uncommitted cells. Ectoderm from facial primordia locally inhibits chondrogenesis in micromass cultures and this could provide a positional cue. The differences in chondrogenic potential of cells from facial primordia may underlie the specific retinoid effects on the frontonasal mass.     

Differentiation and mineralization of murine mesenchymal C3H10T1/2 cells in micromass culture

The murine mesenchymal cell line, C3H10T1/2 in micromass culture undergoes chondrogenic differentiation with the addition of BMP-2. This study compares the use of BMP-2 vs. insulin, transferrin, and sodium selenite (ITS) to create a chondrogenic micromass cell culture system that models cartilage calcification in the presence of 4 mM inorganic phosphate. BMP-2 treated cultures showed more intense alcian blue staining for proteoglycans than ITS treated cultures at early time points. Both ITS and BMP-2 treated cultures showed similar mineral deposition in cultures treated with 4 mM phosphate via von Kossa staining, however FTIR spectroscopy of cultures showed different matrix properties. ITS treated cultures produced matrix that more closely resembled mouse calcified cartilage by FTIR analysis. ⁴⁵Ca uptake curves showed delayed onset of mineralization in cultures treated with BMP-2, however they had an increased rate of mineralization (initial slope of ⁴⁵Ca uptake curve) when compared to the cultures treated with ITS. Immunohistochemistry showed the presence of both collagens type I and type II in BMP-2 and ITS treated control (1 mM inorganic phosphate) and mineralizing cultures. BMP-2 treated mineralizing cultures displayed more intense staining for collagen type II than all other cultures. Collagen type X staining was detected at Day 9 only in mineralizing cultures treated with ITS. Western blotting of Day 9 cultures confirmed the presence of collagen type X in the mineralizing ITS cultures, and also showed very small amounts of collagen type X in BMP-2 treated cultures and control ITS cultures. By Day 16 all cultures stained positive for collagen type X. These data suggest that BMP-2 induces a more chondrogenic phenotype, while ITS treatment favors maturation and hypertrophy of the chondrocytes in the murine micromass cultures.     

Comparison of Macroscopic, Microscopic, and Radiometric Examinations of Clinical Blood Cultures in Hypertonic Media

Clinical blood cultures were collected in the Bactec 8A flask (Johnston Laboratories, Cockeysville, Md.) and examined macrosopically, microscopically, and radiometrically in an effort to determine which approach produced the fastest detection time. Of 360 blood cultures found to contain organisms by subculture, 334 were first detected by Bactec, 98 by macroscopic examination, and 68 by microscopic examination. Examination times were at 4, 8, 16, 24, 36, and 48 h after collection of the specimen. Sixteen hours after specimen collection, microscopic examination had detected 31 positive cultures, macroscopic examination had detected two positive cultures, and Bactec had detected 160 positive cultures. By the end of the first 24 h of incubation, Bactec had detected 313 (93%) of those cultures eventually found to be positive. Although Bactec produced the fastest detection time in an overwhelming majority of the cultures, it failed to detect three of three Candida spp. cultures, three of five Bacteroides spp. cultures, and six of 32 Enterococcus spp. cultures during the first 48 h of incubation.