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.     

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.     

Prolyl and lysyl hydroxylase activation and cofactor specificity in young and senescent WI-38 fibroblast cultures.

The activation of prolyl hydroxylase and lysyl hydroxylase by ascorbate was studied in young and senescent WI-38 fibroblast cultures using a tritium-release assay. Prolyl hydroxylase activity could be increased 3–4 fold in young cultures but remained unchanged in senescent cultures when these cultures underwent a two-hour preincubation in medium containing 0.2mM sodium ascorbate. Lysyl hydroxylase levels were unaffected both in young and senescent cultures. In another series of experiments, ascorbate was replaced with several other compounds in the tritium-release assay demonstrating that this reducing agent is not a specific cofactor of the partially purified enzymes from WI-38 cultures.     

Regulation of collagenase and collagenase mRNA production in early- and late-passage human diploid fibroblasts

The levels of collagenase and collagenase mRNA produced by early-passage (less than 40% of lifespan completed) and late-passage (greater than 80% of lifespan completed) cultures of human fibroblasts were analyzed. The constitutive levels of collagenase and collagenase mRNA produced by the late-passage cultures were 10-30 x greater than the levels observed in similarly treated early-passage cultures. Immunofluorescence analysis established that the percentage of collagenase-positive cells was also greater (77% vs. 4%) in the late-passage cultures. To determine whether the difference in collagenase production resulted from cell-derived regulatory factors, collagenase production was examined in cultures plated onto substrates coated with fibroblast extracellular matrix (ECM). Collagenase and collagenase mRNA production was enhanced in both types of cultures, although amounts produced by ECM-induced early-passage cultures was significantly less than that produced by similarly treated late-passage cultures. Collagen-coated substrates also induced collagenase synthesis.     

Differential rates of cytokine production and apoptosis in venipuncture and finger-stab derived blood cultures

The collection of finger-stab (FS) blood is a convenient and non-invasive method of rapidly acquiring human blood and is becoming increasingly popular for use in human biomonitoring studies. This study compared whole blood (WB) and peripheral blood mononuclear cell (PBMC) cultures derived from venipuncture (VP) and FS blood, to determine whether they respond similarly under culture conditions. The rates of spontaneous- and radiation-induced apoptosis and pro-inflammatory cytokine production were monitored over 72 h in each of four culture conditions. In non-irradiated WB cultures, the spontaneous rate of apoptosis was significantly lower in cultures from FS-derived blood than from VP-derived blood. However, FS- and VP-derived cultures responded similarly to radiation-induced apoptosis. PBMC cultures, regardless of the source, were the most responsive to radiation. When the levels of pro-inflammatory cytokines were measured, a significant time-dependent increase in TNF-alpha, IL-6 and IL-1beta production was observed in FS-derived cultures, but not in VP-derived cultures. While VP and FS blood cultures were found to respond similarly to radiation-induced apoptosis, there was a significant difference in the rate of spontaneous apoptosis in non-irradiated WB cultures and in the in situ production of pro-inflammatory cytokines between VP- and FS-derived blood cultures.     

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.     

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.     

Growth and respiration of Petunia hybrida cells in chemostat cultures: A comparison of glucose-limited and nitrate-limited cultures

Nitrate-limited and glucose-limited chemostat cultures of Petunia hybrida cells were compared at a specific biomass (+extracellular product) formation rate of 0.0042 C.mol/C.mol h. The composition of the biomass differed considerably in both culture types. The N/C (mol/mol) ratio in the biomass was almost four times lower in the nitrate-limited than in the glucose-limited cultures. On a dry weight basis (g/g DW) the biomass in the nitrate-limited cultures contained about 2.5 times less ions and protein N and about 2.5 times more carbohydrates than the biomass in the glucose-limited cultures. On a fresh weight basis (mmol/g FW) the biomass in nitrate-limited and glucose-limited cultures differed mainly in carbohydrate content. The yields of biomass on glucose and oxygen were generally higher in the nitrate-limited than in the glucose-limited cultures. Average values for these parameters were 0.27 C . mol biomass/C . mol glucose and 0.42 C . mol biomass/mol O(2) in the glucose-limited cultures and 0.34 C . mol biomass/C . mol glucose and 0.55 C . mol biomass/mol O(2) in the nitrate-limited cultures. On a C . mol basis the total respiration was about 25% and the maximally attainable cytochrome pathway activity (measured in the presence of hydroxamate) about 30% higher in the glucose-limited than in the nitrate-limited cultures. The maximally attainable activity of the alternative pathway (measured in the presence of KCN) was significantly lower in the glucose-limited cultures. On an organic N ( approximately protein) basis all respiratory parameters were significantly higher in the nitrate-limited cultures. In the presence of the respiratory uncoupler carbonyl cyanide p-trifluoromethoxy phenylhydrazone (FCCP) and excess glucose, cellular respiratory activity shows its maximal activity; under these conditions the total respiration increased more than 150% in the glucose-limited and only 30% in the nitrate-limited cultures. It is suggested that glucose-limited cultures are able to react more flexibly to changes in the environmental conditions than nitrate-limited cultures. (c) 1996 John Wiley & Sons, Inc.     

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.     

Establishment of callus,cell suspension and shoot cultures of Leonurus cardiaca L. and diterpene analysis

Summary Callus cultures, cell suspension cultures and shoot cultures of Leonurus cardiaca L. (Motherwort) were established and growth conditions optimized. Shoot cultures showed constant growth whether in the dark or under continuous light, accumulating varying amounts of the furanic labdane diterpenes leosibiricin, preleosibirin, leosibirin and isoballotenol acetate, which are also present in the soil-grown plants. Only traces of leosibiricin were detected in callus cultures, while cell suspension cultures did not produce any furanic diterpenes. A small amount of furanic labdane diterpenes was found in the medium of shoot cultures. Callus and shoot culture induction of several other Lamiaceae species is also described.Abbreviations 2 4-D 2,4-dichlorophenoxyacetic acid - BAP benzylaminopurine - GA₃ gibberellic acid - HPLC high pressure liquid chromatography - NAA naphthyl acetic acid - TLC thin layer chromatography     

cAMP-dependent protein kinase and proliferation differ in normal and polycystic kidney epithelia

Developmental control of cellproliferation is crucial, and abnormal principal cell proliferation maycontribute to cystogenesis in polycystic kidney disease. This studyinvestigates roles of cAMP and its primary effector, cAMP-dependentprotein kinase (protein kinase A; PKA), in control of cellproliferation in filter-grown noncystic (NC) and cystic (CY)-derivedprincipal cell cultures. These cultures had similar cAMP pathwaycharacteristics upstream of PKA subunit distribution but differed inpredicted PKA subtype distribution. Functionally, cultures wereproliferative before polarization, with constitutively higherproliferation in CY cultures. NC cultures achieved levels similar tothose of CY cultures on pharmacological manipulation of cAMP productionor PKA activation or inhibition of PKA subtype I activity. Inhibitionof overall PKA activity, or of PKA subtype II anchoring, diminishedcAMP/PKA-mediated proliferation in NC cultures but had no effect on CYcultures. Polarized CY monolayers remained proliferative, but NCmonolayers lost responsiveness. No large proliferation changes resultedfrom treatments of polarized cultures; however, polarized NC and CY cultures differed in poststimulation handling of PKA catalytic and typeII regulatory subunits. Our results support PKA subtype regulationof prepolarization proliferation in NC principal cells and alteredregulation of PKA in CY cells and suggest that differences at ordownstream of PKA can contribute to altered proliferation in adevelopmental renal disease.

     

Production and localization of beta-fructosidase in asynchronous and synchronous chemostat cultures of yeasts.

In synchronized continuous cultures of Saccharomyces cerevisiae CBS 8066, the production of the extracellular invertase (EC 3.2.1.26) showed a cyclic behavior that coincided with the budding cycle. The invertase activity increased during bud development and ceased at bud maturation and cell scission. The cyclic changes in invertase production resulted in cyclic changes in amounts of invertase localized in the cell wall. However, the amount of enzyme invertase present in the culture liquid remained constant throughout the budding cycle. Also, in asynchronous continuous cultures of S. cerevisiae, the production and localization of invertase showed significant fluctuation. The overall invertase production in an asynchronous culture was two to three times higher than in synchronous cultures. This could be due to more-severe invertase-repressive conditions in a synchronous chemostat culture. Both the intracellular glucose-6-phosphate concentration and residual glucose concentration were significantly higher in synchronous chemostat cultures than in asynchronous chemostat cultures. In the asynchronous and synchronous continuous cultures of S. cerevisiae, about 40% of the invertase was released into the culture liquid; it has generally been believed that S. cerevisiae releases only about 5% of its invertase. In contrast to invertase production and localization in the chemostat cultures of S. cerevisiae, no significant changes in inulinase (EC 3.2.1.7) production and localization were observed in chemostat cultures of Kluyveromyces maxianus CBS 6556. In cultures of K. marxianus about 50% of the inulinase was present in the culture liquid.     

Production and localization of beta-fructosidase in asynchronous and synchronous chemostat cultures of yeasts

In synchronized continuous cultures of Saccharomyces cerevisiae CBS 8066, the production of the extracellular invertase (EC 3.2.1.26) showed a cyclic behavior that coincided with the budding cycle. The invertase activity increased during bud development and ceased at bud maturation and cell scission. The cyclic changes in invertase production resulted in cyclic changes in amounts of invertase localized in the cell wall. However, the amount of enzyme invertase present in the culture liquid remained constant throughout the budding cycle. Also, in asynchronous continuous cultures of S. cerevisiae, the production and localization of invertase showed significant fluctuation. The overall invertase production in an asynchronous culture was two to three times higher than in synchronous cultures. This could be due to more-severe invertase-repressive conditions in a synchronous chemostat culture. Both the intracellular glucose-6-phosphate concentration and residual glucose concentration were significantly higher in synchronous chemostat cultures than in asynchronous chemostat cultures. In the asynchronous and synchronous continuous cultures of S. cerevisiae, about 40% of the invertase was released into the culture liquid; it has generally been believed that S. cerevisiae releases only about 5% of its invertase. In contrast to invertase production and localization in the chemostat cultures of S. cerevisiae, no significant changes in inulinase (EC 3.2.1.7) production and localization were observed in chemostat cultures of Kluyveromyces maxianus CBS 6556. In cultures of K. marxianus about 50% of the inulinase was present in the culture liquid.     

DNA synthesis in permeabilized WI38 and MRC5 cells

DNA synthesis was examined in cultures of growing WI38 and MRC5 cells made permeable to deoxyribonucleotides. Cells from late passage cultures showed a reduced rate of deoxythymidine triphosphate (dTTP) uptake as compared to cells from early- to mid-passage cultures. This reduction became evident earlier in WI38 cultures (passage 33) than in MRC5 cultures (passage 41). Although this reduced rate of incorporation appeared to be primarily due to a reduced percentage of replicating (S phase) cells in later passage cultures, some effect on the rate of DNA synthesis in replicating cells was also evident.     

The morphological and functional characteristics of human aortic endothelium. II. Cellular polymorphism and the incorporation of 3H-thymidine in a culture]

The content of multinuclear endothelial cells and the ability of cells to incorporate 3H-thymidine were studied in primary cultures isolated from zones of low (LP) and high (HP) probability of atherosclerosis of adult human aortas. It was found that the percentage of multinuclear EC was at mean 2-fold higher in cultures from HP zones compared to LP zones of the same vessels. In primary cultures and in the first passage cultures only small mononuclear EC were able to incorporate 3H-thymidine. A significant decrease in the thymidine index (TI) was found only in cultures from HP zones of atherosclerotic aortas. In cultures of EC from the LP zones of these aortas the TI was as high as in cultures from the LP and HP zones from grossly normal vessels.     

Production of reovirus type-1 and type-3 from Vero cells grown on solid and macroporous microcarriers

Two strains of reovirus were propagated in Vero cells grown in stationary or microcarriers cultures. Vero cells grown as monolayers on T-flasks or in spinner cultures of Cytodex-1 or Cultispher-G microcarriers could be infected with reovirus serotype 1, strain Lang (T1L), and serotype 3, strain Dearing (T3D). A regime of intermittent low speed stirring at reduced culture volume was critical to ensure viral infection of cells in microcarrier cultures. The virus titre increased by 3 to 4 orders of magnitude over a culture period of 150 h. Titres of the T3D reovirus strain were higher (43%) compared to those of the T1L strain in all cultures. Titres were significantly higher in T-flask and Cytodex-1 microcarrier cultures compared to Cultispher-G cultures with respect to either reovirus type. The viral productivity in the microcarrier cultures was dependent upon the multiplicity of infection (MOI) and the cell/bead ratio at the point of infection. A combination of high MOI (5 pfu/cell) and high cell/bead loading (>400 for Cytodex-1 and >1,000 for Cultispher-G) resulted in a low virus productivity per cell. However, at low MOI (0.5 pfu/cell) the virus productivity per cell was significantly higher at high cell/bead loading in cultures of either microcarrier type. The maximum virus titre (8.5 x 10(9) pfu/mL) was obtained in Cytodex-1 cultures with a low MOI (0.5 pfu/cell) and a cell/bead loading of 1,000. The virus productivity per cell in these cultures was 4,000 pfu/cell. The lower viral yield in the Cultispher-G microcarrier cultures is attributed to a decreased accessibility of the entrapped cells to viral infection. The high viral productivity from the Vero cells in Cytodex-1 cultures suggests that this is a suitable system for the development of a vaccine production system for the Reoviridae viruses.     

Enhanced cell accumulation and collagen processing by keratocytes cultured under agarose and in media containing IGF-I,TGF-β or PDGF

We previously showed an agarose overlay on keratocytes cultured in media containing pharmacological levels of insulin enhanced collagen processing and collagen fibril formation. In this study, we compared collagen processing by keratocytes cultured in media containing physiological levels of IGF-I, TGF-β, FGF-2, and PDGF in standard and in agarose overlay cultures. Pepsin digestion/SDS PAGE was used to determine the levels of procollagen secreted into the media and the collagen content of the ECM associated with the cell layer. Distribution of collagen type I and fibronectin in the ECM of the agarose cultures was determined by immunoflorescence. Collagen fibril and keratocyte morphology was evaluated by electron microscopy. The agarose overlay significantly enhanced the cell number in the IGF-I, TGF-β and PDGF treated cultures by 2–3 fold. The overlay also significantly enhanced the processing of procollagen to collagen fibrils from 29% in standard cultures to 63–68% in agarose cultures for the IGF-I and PDGF cultures, and from 66% in standard culture to 85% in agarose culture for the TGF-β cultures. Cell accumulation and collagen processing was not enhanced by agarose overlay of the FGF-2 treated cultures. Collagen type I and fibronectin were more uniformly distributed and the collagen fibrils smaller in the ECM of the TGF-β treated cultures. Keratocytes in the FGF-2 treated cultures were in close cell contact with few collagen fibrils while IGF-I, TGF-β, and PDGF cultures had an extensive ECM with abundant collagen fibrils. The results of this study indicate that the agarose overlay enhances collagen fibril assembly and cell accumulation by keratocytes when both collagen synthesis and cell proliferation are stimulated.     

Quinine and quinidine production by cinchona leaf,root and unorganized cultures

Serially propagated Cinchona ledgeriana and C. succirubra (Rubiaceae) leaf, root and unorganized suspension cultures established from germinated seeds were studied for quinine and quinidine production. Leaf organ cultures were grown and subcultured in Murashige and Skoog's Revised Tobacco Medium supplemented with benzyladenine; root organ cultures were grown on the same medium supplemented with indolebutyric acid; and unorganized suspension cultures were grown on the same medium supplemented with 2,4-dichlorophenoxyacetic acid and benzyladenine. On a dry weight basis, leaf organ cultures of C. ledgeriana contained 0.06 % quinine and 0.05 % quinidine and of C. succirubra contained 0.04 % quinine and 0.04 % quinidine. No quinine and quinidine were detected in either root organ or unorganized suspension cultures.     

Mixed cultures of Serratia marcescens and Kluyveromyces fragilis for simultaneous protease production and COD removal of whey

AIMS: The aim of this study was to investigate the behaviour of a Serratia marcescens-Kluyveromyces fragilis mixed culture in whey, with the objective of proteases production and organic waste reduction. METHODS AND RESULTS: Discontinuous aerobic fermentations in whey were carried out using individual pure cultures and mixed cultures of S. marcescens and K. fragilis. Cell growth, protease production, lactose and proteins consumption and COD/TOC reduction were monitored. Lactose and protein content of the fermenting medium was almost depleted in the mixed cultures, achieving a reduction in the organic content much higher than in both pure cultures. Interestingly, proteolytic activity in the mixed cultures was similar to that obtained for S. marcescens in pure culture. In addition, protease stability was increased in the mixed cultures. Kinetic models were developed fitting well with the experimental results. CONCLUSIONS: Mixed cultures were found to maintain the achievements of each individual fermentation, yielding a high and stable production of proteases and a significant reduction of COD/TOC. SIGNIFICANCE AND IMPACT OF THE STUDY: Mixed cultures tested in this work have shown a synergistic effect with possible industrial applications. These results lead to a gain in the chain value for enzyme production with an environmentally friendly operation.     

Cell density and proliferation modulate collagen synthesis and procollagen mRNA levels in arterial smooth muscle cells.

Collagen synthesis and procollagen mRNA levels were determined and compared in (1) sparse, rapidly proliferating smooth muscle cells (SMC); (2) postconfluent, density-arrested SMC; and (3) sparse, nonproliferating (mitogen-deprived) rabbit arterial SMC. Collagen synthesis per SMC was decreased by 70% in postconfluent versus proliferating cells. However, relative collagen synthesis, expressed as the percentage of total protein synthesis, increased from 3.7% in sparse cultures to approximately 7% in postconfluent cultures. Slot blot analyses demonstrated that the relative steady state alpha 1(I) and alpha 1(III) procollagen mRNA levels were also increased in postconfluent cultures when compared to sparse cultures. As with collagen synthesis per cell, the mRNA levels per cell for types I and III procollagen in postconfluent cells, determined by densitometry of blots, were likewise approximately half that found in sparse, proliferating cells. In a separate study to determine if cell-cell contact was necessary for eliciting these changes in collagen synthesis, we determined collagen synthesis in mitogen-deprived and proliferating SMC cultures at low density. Mitogen-deprived cultures synthesized only 10% the amount of collagen produced (per cell) by proliferating cultures in 10% fetal bovine serum. Relative collagen synthesis in proliferating and nonproliferating cultures was 5.0 and 8.3%, respectively. These results demonstrate elevated collagen synthesis, per cell, by proliferating cultures compared with nonproliferating cultures, regardless of whether cells were rendered quiescent by density arrest or by mitogen deprivation. Results also suggest a pretranslational mechanism for the regulation of collagen synthesis in rabbit aortic smooth muscle cells.