Activities of Ribulose Bisphosphate Carboxylase and Phosphoenolpyruvate Carboxylase and C-Bicarbonate Fixation during in Vitro Culture of Pinus radiata Cotyledons

The activities of ribulose bisphosphate carboxylase (RuBPC) and phosphoenolpyruvate carboxylase (PEPC), as indicators of autotrophic and nonautotrophic CO₂ fixation, were measured in excised cotyledons of Pinus radiata D. Don cultured for 21 days under shoot-forming (SF) and nonshoot-forming (NSF) conditions. The activity of RuBPC was found to increase in both SF and NSF cultures during the initial 5 days of culture. However, it leveled off from day 5 to day 10 and subsequently began to decrease until the end of the culture period under the SF conditions. In contrast, in the NSF cultures, RuBPC activity increased until day 15, when it was twofold higher than the maximum activity found in the SF cultures. An increase in PEPC activity of about 2.5 times the level of activity in freshly excised cotyledons was observed during the initial 5 days of culture under the SF conditions. PEPC activity began to decline after day 5 until it reached the level of activity seen in NSF cotyledons by day 15. In contrast, the activity of PEPC did not show any significant increase during the initial 10 days of culture under the NSF conditions. The K_m (phosphoenolpyruvate) of PEPC from SF cotyledons was about 35% higher than that of NSF cotyledons. Cotyledons from two culture periods (days 5 and 15) were incubated for 15 seconds with NaH¹⁴CO₃. The label in the malate and asparatate fractions as a percentage of total ¹⁴C incorporation was 3 times higher in the SF cotyledons than in the NSF cotyledons. A higher incorporation of ¹⁴C into products of photosynthesis under the NSF conditions was also observed.     

Inhibition of phytohemagglutinin-, periodate- and A23187-induced lymphocyte transformation by Vinca alkaloids

The effect of the Vinca alkaloids, vincristine and vinblastine, on mitogen-induced transformation of isolated human peripheral blood lymphocytes has been investigated. Cells were subjected to a variety of mitogens (PHA, ionophore A23187 and sodium periodate) whose mechanism and site of action differ. Addition of vincristine or vinblastine to lymphocyte cultures prior to mitogen produced a concentration-dependent inhibition of cell transformation as determined by measurement of DNA synthesis and blast formation. The inhibitory effects were not due to decreased cell viability, since the drugs had little or no effect on cell viability. Vincristine and vinblastine were also found to impair [³H]thymidine incorporation by prestimulated blast cells at the higher drug concentrations tested. The results presented in this communication show that the Vinca alkaloids block lymphocyte transformation induced by either lectin or non-lectin mitogens. This suggests that the inhibitory step(s) may occur after mitogen stimulation.     

Effect of multiplication stimulating activity (MSA) on intracellular cAMP levels and adenylate cyclase activity in chick embryo fibroblasts.

Stimulation of hamster lymph node cells, splenocytes and thymocytes by the mitogen phytohemagglutinin-P (PHA) was found to be greatly enhanced by addition of 1–10 mM LiCl to the cultures. Lithium enhanced stimulation, as determined by [³H]TdR incorporation, only if added within the first 24 h of culture. The enhancing effect of lithium was specific for this monovalent cation since equivalent concentrations of KCl or NaCl did not induce a similar effect on [³H]TdR incorporation. The divalent cations Mg²⁺ (1–10 mM) and Ca²⁺ (1-1.6 mM), also had an enhancing effect on PHA stimulation. However, addition of Li⁺ to cultures enhanced with Mg²⁺ and/or Ca²⁺ led to an additional potentiation of the response to PHA. These results suggest that Li⁺ modifies a unique early event during stimulation of lymphoid cells by this mitogen.     

Folate requirement for blast cell transformation in mixed leukocyte cultures.

Mixed leukocyte cultures from normal donors were set up in standard tissue culture media. Blast cell transformation was measured 6 days later by ³H-thymidine uptake and assessed qualitatively with stained smears. Media RPMI 1629 and RPMI 1640 allowed much more intense blastogenesis than Medium 199, the difference being due to the low folic acid content of Medium 199 (0.01 mg/liter) compared with RPMI 1629 (10 mg/liter) and RPMI 1640 (1 mg/liter). Further experiments indicated that folic acid increased the multiplication rate of blast cells but did not promote the induction or initial transformation phases of the mixed leukocyte reaction. The effect of folic acid on the PHA response was entirely different: ³H-thymidine uptake in 3 day PHA cultures was decreased, and there was no apparent effect on the number or percentage of blast cells seen on the smears. The reason for this difference is at present unknown, but some possibilities are discussed.     

Periodate-induced lymphocyte transformation : II. Character of response and comparison with phytohemagglutinin and pokeweed mitogen stimulation

Sodium metaperiodate is mitogenic for human peripheral lymphocytes. Evidence of stimulation can be detected as increased thymidine incorporation at 72 h after only 10 sec of exposure to the IO₄⁻. The degree of response varies with lymphocytes from different donors, but maximum stimulation for the healthy donors studied was obtained at concentrations of IO₄⁻ between 10⁻³ M and 4 × 10⁻³ M. Concentrations of 8 × 10⁻³ M and above are non-stimulatory and toxic. Exposures to optimum concentrations for 1 h or longer result in essentially no stimulation and inincreased cell death. However, a significant response to phytohemagglutinin (PHA) and pokeweed mitogen (PWM) remains. The kinetics of response over a 4 day culture period are similar for IO₄⁻, PHA and PWM. The morphology of the blast cells and the degree of response suggest that the IO₄⁻ responsive lymphocyte population may be more closely related to the PWM stimulated cells than the PHA responsive lymphocytes.     

CHANGES IN GLUCOSE OXIDATION DURING GROWTH OF EMBRYONIC HEART CELLS IN CULTURE

A rapid and convenient method has been utilized to investigate glucose oxidation during growth of chick embryo heart cells in tissue culture. Primary isolates of chick embryo heart cells showed exponential growth when plated at low densities and exhibited density-inhibited growth as cultures became confluent. The density-dependent growth inhibition of chick embryo heart cells is associated with a marked decrease in the specific activity of glucose oxidation to CO₂. This decrease in glucose oxidation was observed as density increased as either a function of time in culture or as related to initial plating density. The decrease in ¹⁴CO₂ production associated with density-dependent inhibition of growth is due to a marked decrease in activity of the pentose phosphate pathway.     

Cytophotometric analysis of glycogen,protein and DNA of a glycogen-storing rat hepatoma (N13) cell line

This study examines the behavior of glycogenstoring rat hepatoma (N13) in vitro using cytophotometric techniques. A significant increase in glycogen is observed in these cells after 30 min incubation in a buffered solution containing 0.1 mM glucose, that is 80 times lower than the physiological glucose concentration in rat blood. N13 hepatoma cells grow exponentially in culture using RPMI 1640 tissue culture medium supplemented with 10% fetal bovine serum. During the first day in culture these cells store a large amount of glycogen and this increase is also observed in serum-free cultures. In more prolonged cultures the amount of glycogen per cell gradually becomes lower, although the culturing conditions are maintained. Similar variations of protein are also observed during the initial period of culture. DNA distribution does not show significant changes, although in serum-free cultures an increase in the proportion of cells in S and G₂/M phases is observed. The addition of glucagon, epinephrine and cyclic AMP derivatives to serum-free cultures does not impede the storage of glycogen. Nevertheless, addition of either 2 mM N⁶,O²-dibutyryl cyclic AMP or 0.1 mM 8-(4-chlorophenylthio)-cyclic AMP blocks the cell cycle at G₀/G₁ and glycogen content does not decrease after the first day in culture. We believe that this cell line offers an appropriated model to study glycogen metabolism and its involvement in the neoplastic process.     

Enhancement of poly-3-hydroxybutyrate (PHB) productivity by the two-stage supplementation of carbon sources and continuous feeding of NH4Cl

Gluconate and glucose were selected as the carbon substrates in the production of poly-3-hydroxybutyrate (PHB). Gluconate was utilized to maximize the specific growth rate during the first stage of cell growth, whereas glucose was used to maximize PHB biosynthesis during the second stage of PHB accumulation. The sequential feeding of gluconate and glucose resulted in a 50% enhancement of PHB productivity as compared to the cultures cultivated on glucose alone. In conjunction with secondary glucose uptake, the presence of a trace amount of ammonium increased the rate of PHB biosynthesis during the stage of PHB accumulation. Via the feeding of 0.03 mmol/h of NH₄Cl solution prior to the exhaustion of the initial amount of NH₄Cl, PHB productivity was significantly enhanced as compared to the cultures raised on glucose alone. The glucose-grown culture evidenced a higher level of NADPH during the NH₄Cl-exausted PHB accumulation stage than was observed in the gluconate-grown culture, which reflects that the reason of higher PHB production observed when glucose was used as a carbon source. NH₄Cl feeding following the depletion of initial NH₄Cl resulted in elevated levels of both ATP and NADPH, which increased the PHB biosynthesis rate, and also in a decrease in the level of NADH, which reflected the alleviation of the inhibitory effects on the cells caused by nitrogen depletion. Electronic Supplementary Material  Supplementary material is available for this article at and is accessible for authorized users.     

Inhibition of mitogen and specific antigen-induced human lymphocyte proliferation by cadmium

Cadmium chloride (CdCl2) added to human lymphocyte culture inhibits the proliferative response induced by phytohaemagglutinin (PHA), pokeweed mitogen and allogenic lymphocytes in mixed lymphocyte reaction. Minimally effective concentrations of CdCl2 were 3.3, 1.6 and 1.6 microM, respectively. The inhibition was greatest when CdCl2 was added at initiation of cultures and declined if the addition of CdCl2 was postponed. The presence of CdCl2, regardless of the presence of PHA during the first 24 h of incubation suppressed the proliferative response to subsequent stimulation with PHA, indicating that cadmium affects an early step of blastogenic transformation.     

ACTIVITY AND ISOENZYME PATTERN OF LACTATE DEHYDROGENASE IN ASTROBLASTS CULTURED FROM BRAINS OF NEWBORN MICE

Lactate dehydrogenase activity and isoenzyme distribution was determined in primary cultures of astroblasts as a function of the culture period. The specific activity increased during this period with a peak value (1.91 ± 0.18μmol x min^-1 x mg^-1 cell protein) after 2 weeks in culture. The isoenzyme pattern changed during 3 weeks in culture towards a higher proportion of the H₄ (LDH-1) isoenzyme which is analogous to the in vivo pattern. Omission of serum with or without dBcAMP (0.5 mM) in the culture medium during the third week of culture further enhanced this prominence of the H₄ isoenzyme. The specific activity (1.58 × 0.06 μmol x min^-1 x mg^-1 cell protein) of cultures grown in the presence of 0.5 mM-dBcAMP and absence of serum was close to the activity in the adult brain.     

Nitrogen metabolism in cultured cotyledon explants of Pinus radiata during de novo organogenesis

Nitrogen metabolism was investigated under shoot-forming (SF) and non-shoot-forming (NSF) conditions in cultured cotyledon explants of Pinus radiata by following the incorporation of [¹⁴C]-l,2-acetate into various metabolites. Early in culture, the lipid fraction contained the most ¹⁴C; however, this percentage decreased in favor of increased label in the amphoteric fraction. Label in the amphoteric fraction of SF cultures decreased by day 21 but plateaued in NSF cultures at this time. Radioactive labeling of the principle nitrogen metabolites, glutamate and glutamine, which made up the majority of the amphoteric fraction, paralleled labeling patterns in the amphoteric fraction. Percentage label in glutamate remained at similar levels throughout the 21-day culture period for both SF and NSF cultures. Specific activity of glutamate (kBq mg^-1) was significantly greater during promeristemoid formation in SF compared to that in NSF tissues. Glutamine labeling increased during shoot bud initiation in SF cultures, but dropped to lower levels during shoot bud development. In contrast, in NSF cultures, there was a continual and substantial increase in glutamine labeling throughout the 21-day culture period. These trends were similar when the specific activities of glutamine were determined, as there was a continual decrease from culture initiation to the end of shoot bud differentiation in SF cultures. In NSF cultures, in contrast, specific activity of glutamine increased substantially from day 5 to 21 relative to that in SF cultures. The nitrogen assimilation enzymes glutamate synthase and glutamine synthase increased in activity from day 0 to 21 for both SF and NSF tissues. Enzyme activities for glutamate dehydrogenase were similar in both treatments to day 10 in culture but subsequently diverged, with activities in NSF cultures being substantially greater than those of SF cultures by day 21. Taken together, labeling and enzyme data indicate that nitrogen metabolism is enhanced during culture, especially in SF tissues at the time of promeristemoid formation, and in non-organ-forming tissue senescence-like metabolism was exhibited later in culture.     

Neuroimmunomodulation of the immune response by the endocrine system: effect of luteinizing hormone (LH) on the proliferative response of lymphocytes

Proliferative response of splenic lymphocytes from adult (2 months old) male mice to human luteotrophic hormone (hLH) was studied in vitro. hLH induced lymphoblastic transformation at a concentration of 0.1 micrograms/ml or higher. This hormone potentiated the mitogen activities of concanavalin A (ConA) and phytohemagglutinin (PHA) for T cells and of pokweed mitogen for B and T cells. The data suggest that peripherally circulating LH may regulate a certain function of lymphoid cells.     

Neuronal and glial enzyme studies in cell culture

Summary Newborn BALB/c mouse brain was cultured as disaggregated cells after serial trypsin dissociations. The ontogeny of the cultures was followed by assays of cell number, deoxyribonucleic acid, and protein content and by the activities of three enzymes considered to be markers of neuronal differentiation. Aliquots of the freshly dissociated cells were assayed for choline acetylase, acetylcholinesterase, and glutamic acid decarboxylase activities and compared with intact brain. The percentages of recovery of activities, expressed as¹⁴C product formed per mg of protein per 10 min, at pH 6.8 and 37°C, were 37% for choline acetylase, 54% for acetylcholinesterase, and 24% for glutamic acid decarboxylase. The remainder of the freshly dissociated cells were placed into culture; enzyme assays were performed as the cells multiplied and then when the cultures became static. Choline acetylase activity increased as the cells rapidly divided, and glutamic acid decarboxylase activity increased only after the cultures became confluent. Under the culture conditions, acetylcholinesterase was not induced, despite active synthesis of acetylcholine. Neuroblastoma clone N18, C1300 cell line, was grown in cell culture, and the activity of acetylcholinesterase was measured as the cells multiplied and came to confluency. The specific activity of mouse neuroblastoma acetylcholinesterase increased 25-fold when the rate of cell division was restricted. The rate of cell division could be regulated by adjusting the serum concentration. By removing fetal calf serum during the growth period, cell division ceased, and acetylcholinesterase activity was significantly and rapidly induced. Choline-O-acetyltransferase specific activity was measured in rapidly dividing and in static cultures. Its specific activity was highest in nondividing cultures, compared to cultures containing actively dividing cells (6-fold), and the specific activity of thymidylate synthetase was increased 2.5-fold in actively dividing cultures, compared to static cultures. Glioblastoma cells obtained from the rat astrocytoma, clone C6, were grown in culture, and glucose metabolism was measured in control cultures, and in cultures containing norepinephrine (0.017 mg per ml). Norepinephrine produced a 50% inhibition in the incorporation ofd-[¹⁴C]glucose. Cells incubated for 2 hr in the presence ofd-[¹⁴C]glucose, washed and then incubated in control medium or in medium containing norepinephrine, resulted in the release of greater than 50% of radioactive metabolites in the norepinephrine treated plates. Norepinephrine caused a 50% increase in¹⁴CO₂ production in glioblastoma cells incubated withd-[1-¹⁴C]glucose. Norepinephrine, under similar conditions, did not affect the metabolism of glucose in clone C46, C1300 mouse neuroblastoma cells. Portions of this work were supported by a research grant (6-444946-58605) from the American Cancer Society.     

Adenosine deaminase and immunodeficiency: An in vitro model

We have examined the effect of adenosine and EHNA, a competitive inhibitor of adenosine deaminase (ADA), upon the ability of human peripheral blood lymphocytes to respond to mitogen. Addition of adenosine at concentrations greater than 10 μm (10^?5m) resulted in inhibition of lymphocyte proliferation at 48 hr of culture, provided that the culture medium was relatively free of ADA activity. The actual concentrations of adenosine remaining in inhibited cultures at the time of harvest were considerably lower than those added initially. EHNA alone also inhibited PHA response (and to a lesser extent PWM and Con A responses), but only at high concentrations. Noninhibitory concentrations of EHNA and adenosine together acted synergistically to produce profound inhibition of lymphocyte proliferation. This may provide an in vitro model to explore further the mechanism of the immunodeficiency associated with deficiency of ADA. Adenosine deaminase activity in stimulated cultures did not differ significantly from that found in unstimulated cultures, and the activity per protein or per DNA actually decreased in stimulated versus unstimulated cultures.     

Changes in lymphocyte populations in protein—Calorie-deficient mice

Changes in lymphocyte subpopulations induced by postweaning malnutrition were studied in C57BL/6 mice kept on a protein-restricted diet (D), by weekly assessment of the “homing” properties and the response to mitogens of thymus and spleen lymphocytes during the first 2 months of diet. Cell loss in the lymphoid organs during the early phase of protein restriction was mainly due to depletion of nonrecirculating cells. This resulted in relative enrichment of medullary cells in the thymus and T₂ cells in the periphery as shown by the rise in the percentage migration of D lymphocytes to the lymph nodes as well as in their response to optimal doses of PHA and Con A and PHA:Con A response ratio. Reversion of the distribution pattern of D lymphocytes, with depressed homing to the lymph nodes and decrease in the response to mitogens, was observed concomitantly with a second phase of partial recovery in the whole-body weight and cell content of the thymus and spleen. The [³H]thymidine uptake by D spleen cells stimulated with supraoptimal doses of mitogen was significantly increased during the whole length of the experiment. The suppression of DNA synthesis induced by high doses of mitogen reappeared after short-term nutritional rehabilitation.     

The impact of pH control on the volumetric productivity of mixed culture PHA production from fermented molasses

Polyhydroxyalkanoate (PHA) production via mixed microbial cultures (MMCs) can potentially decrease process operational costs as compared to conventional pure culture techniques. However, the volumetric productivity of PHA by MMCs must be augmented to increase its cost competitiveness. For this purpose, a three‐stage bioreactor system was operated in this study, with (i) anaerobic fermentation of molasses, (ii) culture selection, and (iii) PHA accumulation and harvesting stages. In stage 2, bioreactor operation with pH control at 8 led to twice the biomass concentration (up to 8 g VSS L^?1, where VSS is the volatile suspended solids) as compared to operation without pH control (maximum pH 9). No loss in the specific PHA storage efficiency was observed (PHA content up to 57.5% and PHA storage rate up to 0.27 Cmol PHA Cmol X^?1 h^?1, where X is the active biomass), thereby resulting in twice the volumetric PHA production rate. The limited biomass growth at the higher pH level was not due to nutrient limitation, but likely to a shift in the microbial community. It is hypothesized that the increased enrichment of Azoarcus at pH 8 led to higher PHA productivity. pH control in the culture selection stage can lead to enhanced PHA production from MMCs, improving the viability of the process.     

The chronic lymphatic leukemia lymphocyte: Correlation of functional,metabolic, and surface immunoglobulin characteristics

This study determined the correlation between the functional capacity of chronic lymphatic leukemia lymphocytes as determined by their response to nonspecific mitogens with their glucose metabolism and surface immunoglobulin characteristics. A majority of patients (12) were found to have lymphocytes with impaired transformation to both PHA and pokeweed mitogens. These cells also had impaired glucose metabolism in unstimulated cultures and failed to have the striking increase in glucose metabolism in response to mitogens which is characteristic of normal lymphocytes. Most of these lymphocytes had IgM surface immunoglobulins. However, we were not able to demonstrate surface immunoglobulins on the lymphocytes of one patient in this group. Two patients were found to have lymphocytes with normal lymphoblastic transformation to PHA and impaired transformation to pokeweed suggesting cells of T origin. The glucose metabolism of these lymphocytes were less impaired in unstimulated cultures than those of the other patients and had a striking increment in glucose metabolism in response to PHA similar to normal lymphocytes. Unexpectedly, these lymphocytes were found to have IgG on their surface suggesting cells of B origin. These results indicate that there may be two groups of CLL patients with clinically similar disease in whom the functional and metabolic characteristics of the lymphocytes are distinct and that the surface immunoglobulin characteristic of lymphocytes may not always predict their functional characteristic.     

Mixotrophic growth ofChlorella sorokiniana in outdoor enclosed photobioreactor

Chlorella sorokiniana was cultured in heterotrophic or mixotrophic mode in outdoor enclosed tubular photobioreactor. The culture temperature was maintained at 32–35 °C. At night, theChlorella culture grew heterotrophically, and 0.1 M glucose was completely consumed. The biomass growth yield of glucose was 0.35 ± 0.001 g-biomass g-glucose^–1. During the day, the algal culture grew mixotrophically and the biomass growth yield was 0.49 g-biomass g-glucose^–1 in low density culture (initial biomass concentration, X_o = 2 g l^–1), 0.56 g-biomass g-glucose^–1 in medium density culture (X_o = 4 g l^–1) and 0.46 g-biomass g-glucose^–1 in high density culture (X_o = 7 g l^–1). The daily area productivity of the culture, with X_o = 4 g l^–1 corresponded to 127 g-biomass m^–2 d^–1 during the day and 79 g-biomass m^–2 d^–1 during the night. In all the cultures, the dissolved O₂ concentration increased in the morning, reached the maximum value at noon, and then decreased in the afternoon. The dissolved CO₂ concentration remained at 3 mBar in the morning and increased in the afternoon. Glycolate was not found to accumulate in culture medium.     

Freezing of rat lymphocytes. I. The effects of dimethyl sulfoxide and freezing on the phytohemagglutinin- and pokeweed mitogen-responding lymphocyte subpopulations.

Rat spleen and lymph node lymphocytes have been frozen with dimethyl sulfoxide (DMSO) at 1 °C/min and stored at ?196 °C for 10 min. The functional recovery of the cell populations was monitored by the mitogenic response (uptake of [³H]thymidine) to phytohemagglutinin (PHA) or pokeweed mitogen (PWM) in culture after thawing. With 5 to 10% DMSO in the freezing medium, frozen-thawed lymph node cells were found to retain about 40% of their response to PHA. In contrast, frozen-thawed spleen cells responded better to PHA than fresh cells. The response to PWM was markedly decreased in both spleen and lymph node cell cultures.A similar effect was observed when DMSO was added to the culture medium of fresh spleen cells, i.e., an augmentation of the response to PHA and a suppression of the response to PWM. However, the concentrations of DMSO needed to induce this effect was more than 10-fold higher than that present in the culture medium after freezing and thawing.Since removal of adherent cells from the spleen cell population also produced an augmentation of the response to PHA, it is suggested that the freezing procedure and DMSO may have an inhibitory effect on suppressor cell functions present in spleen cell populations.     

Improved hepatocyte culture system for studying the regulation of glycogen synthase and the effects of diabetes

When 3–4-week-old rats (young rats) are used as a source of hepatocytes, primary culture cells express the adult, differentiated, liver-specific isoform of glycogen synthase. Synthase enzyme protein levels are relatively stable over a 3 day culture period in young but not in adult (>150 g rat) hepatocyte cultures. Corresponding synthase enzyme activity and mRNA levels decrease over time in culture in adult but not in young hepatocyte cultures. Young rat hepatocytes also have the ability to proliferate in chemically defined medium in the absence of added mitogens. A diabetes-induced increase in total synthase activity has been demonstrated by our lab and others, using cultured hepatocytes, liver homogenates, and perfused livers. In the present study, utilizing synthase-specific antibody and primary cultures of cells from young normal and alloxan diabetic rats, we found that greater total synthase activity in the diabetic cells was associated with higher levels of enzyme protein. Immuneprecipitaion of ³⁵S methionine-labeled freshly plated cells demonstrates an increase in the rate of protein synthesis in diabetic as compared with normal cells. Synthase mRNA levels are correspondingly increased in the diabetic relative to normal cells. Chronic exposure of young, normal hepatocytes to increasing levels of glucose induces a dose-dependent increase in total synthase activity, total synthase protein, and synthase message levels. By comparison, cells from diabetic animals do not respond by any of these measures to increased glucose concentrations. We conclude that this defined primary culture system represents a useful model for investigating the regulation of hepatic glycogen synthase and the defects which occur as a result of diabetes. © 1996 Wiley-Liss, Inc.