The different actions of normal and supranormal calcium concentrations on the proliferation of BALB/c 3T3 mouse cells

Summary In the presence of a normal (1.25 to 1.80 mM) calcium concentration, addition of fresh bovine calf serum or completely changing the medium induces proliferatively quiescent BALB/c 3T3 mouse cells in dense cultures to start a growth division cycle and initiate DNA synthesis about 12 hr later. Fresh, low-calcium (0.02 mM physiologically available) medium also causes cells to start a growth-division cycle. However, the development of such stimulated, calcium-deprived cells stops just before the expected time of initiation of DNA synthesis, which can then be rapidly induced by restoration of the normal calcium concentration. Simply raising the calcium concentration to nonphysiologically high levels (without otherwise altering the medium) can mimic the action of fresh serum or fresh whole medium by inducing some of the cells in proliferatively quiescent confluent cultures to start a growth-division cycle and initiate DNA synthesis 22 hr later. Issued as NRCC No. 15371.     

Calcium is essential in the fusion of mouse alveolar macrophages induced by 1 alpha,25-dihydroxyvitamin D3

We have reported that the active form of vitamin D3, 1 alpha,25-dihydroxyvitamin D3 [1 alpha,25(OH)2D3], directly induces activation and fusion of mouse alveolar macrophages (Abe et al., 1983, 1984). The activated state appeared to be a prerequisite to the fusion of macrophages. Macrophages began to fuse 36 hr after adding 1 alpha,25(OH)2D3; the fusion rate attained a maximum of 70-80% at 72 hr. During the course of further investigating the mechanisms of fusion induced by the vitamin, we found that the calcium ion is closely involved in the fusion process of macrophages induced by 1 alpha,25(OH)2D3. When alveolar macrophages were cultured with 1 alpha,25(OH)2D3 in medium with graded concentrations (0.13-1.85 mM) of calcium, the fusion rate went down in parallel with the decrease of medium calcium. Neither calcium ionophore A23187 nor 12-O-tetradecanoylphorbol-13-acetate (TPA) induced fusion of freshly isolated macrophages, but the two compounds greatly promoted fusion of the macrophages pretreated for 18 hr with 1 alpha,25(OH)2D3. The vitamin effect for the first 18 hr was similar, irrespective of the medium calcium concentration. In contrast, millimolar amounts of calcium were essential in the subsequent period of incubation(18-72 hr) for inducing fusion. The activation of macrophages measured by the induction of cytotoxicity and the enhancement of glucose consumption by 1 alpha,25(OH)2D3 occurred similarly, irrespective of the medium calcium concentration. These results clearly indicate that the fusion process of alveolar macrophages induced by 1 alpha,25(OH)2D3 can be divided into two phases: 1) the calcium-independent priming phase (0-18 hr) and 2) the calcium-dependent progression phase (18-72 hr). 1 alpha,25(OH)2D3 is necessary only in the priming phase; A23187 and TPA can be substituted for 1 alpha,25(OH)2D3 in the progression phase.     

Calcium regulation of growth and differentiation of mouse epidermal cells in culture

Modification of the ionic calcium concentration in the culture medium markedly alters the pattern of proliferation and differentiation in cultured mouse epidermal cells. When medium calcium is lowered to 0.05--0.1 mM, keratinocytes proliferate rapidly with a high growth fraction and do not stratify, but continue to synthesize keratin. The cells grow as a monolayer for several months and can be subcultured and cloned in low Ca++ medium. Ultrastructural examination of cells cultured under low Ca++ conditions reveals widened intercellular spaces, abundant microvilli and perinuclear organization of tonofilaments and cellular organelles. Desmosomes are absent. Epidermal cells growing as a monolayer in low Ca++ can be induced to terminally differentiate by adding calcium to the level normally found in the culture medium (1.2 mM). Cell-to-cell contact occurs rapidly and desmosomes form within 2 hr. The cells stratify by 1--2 days and terminally differentiate with cell sloughing by 3--4 days. After Ca++ addition, DNA synthesis decreases with a lag of 5--10 hr and is totally inhibited within 34 hr. In contrast, RNA and protein synthesis continue at 40--50% of the low Ca++ level at day 3, a time when many cells are detaching from the culture dish. Keratin synthesis is unaffected by the Ca++ switch.     

Production of Calcium Gluconate by Penicillium chrysogenum in Submerged Culture

The waste mycelium of Penicillium chrysogenum HA-10 (obtained at the end of penicillin fermentation), or a 24-hr-old freshly grown vegetative inoculum of this organism, was found to utilize glucose for the production of calcium gluconate by submerged fermentation in shake flasks. After 72 to 96 hr of fermentation at 24 C, 90 to 95% of the reducing sugar from the 15% glucose medium was converted to calcium gluconate. Reuse of the mycelium for successive experiments reduced the fermentation period to 72 hr or less because of an enhancement of glucose utilization. Ten successive batches of 15% glucose medium were fermented by the reuse method. Fermentation media containing up to 30% glucose could be used, provided boric acid was added to prevent the precipitation of calcium gluconate formed. We found that 30% hydrol (a by-product of glucose manufacture containing 50 to 55% reducing sugar), when used in place of glucose in the fermentation medium, inhibited the rate of glucose utilization. However, this effect was partially reversed by pretreatment of hydrol with 2 to 4% activated charcoal before addition to the fermentation medium.     

Synchronization of some human cell strains by serum and calcium starvation

Summary A technique was investigated for producing parasynchronous growth of some established, aneuploid human cell strains. Removal of both serum and calcium from exponentially growing monolayer cells tended to inhibit their growth. After 20 hr, a high percentage of the cell population was arrested in or near mitosis. Readdition of serum and calcium caused parasynchronous growth of the cells of three human strains studied. All three strains incorporated tritiated thymidine maximally 10 to 15 hr after serum and calcium were added, and cell numbers increased rapidly 17 to 25 hr after the growth medium was reconstituted. Population-doubling ranged from 80% to 100% of the theoretical. The yield of parasynchronous cells is high with this technique and may produce a significant amount of nontemporally distorted biological material upon which direct biochemical analysis can be performed at various times within the generation cycle.     

Fusion of mouse alveolar macrophages induced by 1 alpha,25-dihydroxyvitamin D3 involves extracellular, but not intracellular, calcium

We have reported that the active form of vitamin D3, 1 alpha, 25-dihydroxy-vitamin D3 [1 alpha, 25(OH)2D3], directly induces the fusion of mouse alveolar macrophages (Abe et al: Proc. Natl. Acad. Sci. USA 80:5583-5587, 1983). The fusion process can be divided into two phases: the 1 alpha,25(OH)2D3-dependent priming phase (0-18 hr) and the calcium-dependent progression phase (18-72 hr) (Jin et al: J. Cell. Physiol. 137:110-116, 1988). In the present study, we examined the role of calcium in the progression phase of macrophage fusion induced by 1 alpha,25(OH)2D3. Macrophages pretreated with 1 alpha,25(OH)2D3 for 48 hr in a low-calcium (0.13 mM) medium began to fuse quickly 30 min after the culture medium was switched to a normal calcium (1.85 mM) medium. Of various cations tested, calcium was the most effective in inducing fusion, followed by strontium and manganese. Magnesium, potassium, and sodium had no effect. Calcium ionophores such as A23187 and ionomycin did not induce fusion in the low-calcium medium, nor did they potentiate fusion in the media containing higher concentrations of calcium. The intracellular concentration of free Ca2+, measured by a fluorescent method using fura-2 AM, was 116 +/- 1 nM in the macrophages pretreated with 1 alpha,25(OH)2D3 for 48 hr in the low-calcium medium. When calcium chloride was added to the assay system at a final concentration of 1.85 mM, the cytosolic free Ca2+ concentration did not increase appreciably (from 116 to 144 nM). But the macrophages began to fuse quickly when CaCl2 was added. In contrast, adding ionomycin increased cytosolic free Ca2+ from 116 to 440 nM, but no fusion occurred. These results clearly indicate that the extracellular, but not the intracellular, calcium is involved in the progression phase of the fusion of mouse alveolar macrophages primed by 1 alpha,25(OH)2D3.     

Intracellular divalent cation homeostasis and developmental competence in the hamster preimplantation embryo

The intracellular magnesium and calcium ion concentrations of in vivo-developed 2-cell hamster embryos were measured using ratiometric fluorometry. Intracellular magnesium and calcium ion concentrations were found to be 0.369 ± 0.011 mM and 129.3 ± 7.5 nM respectively. Culture of 1-cell hamster embryos for 24 hr to the 2-cell stage in control medium containing 0.5 mM magnesium and 2.0 mM calcium resulted in approximately a threefold increase to 343.5 ± 8.0 nM in intracellular calcium ion concentration, while magnesium ion levels were not altered (0.355 ± 0.007 mM). Increasing medium magnesium concentrations to 2.0 mM significantly increased intracellular magnesium ion concentrations of cultured 2-cell embryos with a concomitant reduction in intracellular calcium ion concentrations. Furthermore, increasing the medium magnesium concentration to 2.0 mM significantly increased development of 1-cell embryos collected at either 3 or 9 hr post-egg activation to the morula/blastocyst and blastocyst stages. Resultant blastocysts had an increased total cell number and increased development of the inner cell mass. Most important, however, culture with 2.0 mM magnesium increased the fetal potential of cultured 1-cells twofold. Therefore, because highest rates of development were observed in a medium that resulted in reduced intracellular calcium ion concentrations, it appears that altered calcium homeostasis is associated with impaired developmental competence of 1-cell embryos in culture. Mol. Reprod. Dev. 50:443–450, 1998. © 1998 Wiley-Liss, Inc.     

UPTAKE OF CALCIUM BY SUBCELLULAR FRACTIONS ISOLATED FROM OUABAIN-TREATED CEREBRAL TISSUES

Abstract— Slices of cerebral cortex were incubated in medium containing 0·75 or 2·8 mM ⁴⁵CaCl₂, in the presence or absence of 0·01–0·1 m m -ouabain. Ouabain induced accumulation of calcium by slices to a maximum of 4 μmoles/g of tissue/hr (0·75 m m -CaCl₂ in the medium) and to 8 μmoles/g of tissue/hr (2·8 m m -CaCl₂ in the medium). Accumulation of Ca²⁺ occurred more slowly than loss of K⁺ from the slices and more closely resembled the pattern of Na⁺ uptake.
Mitochondrial fractions isolated from ouabain-treated slices contained significantly more calcium than controls. Inclusion of EDTA in the homogenization medium resulted in decreased amounts of particulate-bound calcium.
The effect of ouabain on accumulation of calcium is discussed with regard to possible relationships to processes of active and passive transport.     

Regulation and Self-Inhibition of Microsporum gypseum Macroconidia Germination

Germination of Microsporum gypseum macroconidia was accompanied by the release of alkaline protease, calcium ions, and inorganic phosphate into the germination fluid. The rate of germination was greatest during the first 2 hr, decreasing thereafter. This decrease in rate was accompanied by a decrease in protease activity, which was caused by an interaction of the enzyme with the inorganic phosphate released from the spores and accumulated in the germination medium after 2 hr. Germination of high spore densities was regulated by the ratio of released phosphate to protease protein, resulting in a constant percentage of germination at both high and low spore densities. A germination-defective mutant strain failed to germinate normally and released excessively high concentrations of phosphate into the germination medium during the initial 2 hr of incubation. Addition of calcium ions to germination mutant macroconidia stabilized spore morphology, prevented protease inactivation, and allowed normal germ-tube outgrowth. The germination of macroconidia appears to be regulated by the release of phosphate ions, which then inhibit the alkaline protease.     

Comparison of the calcium requirement for the induction and maintenance of B cell class II molecule expression and for B cell proliferation stimulated by mitogens and purified growth factors

As an important intracellular second-messenger, the concentration of calcium in the cytosol [Ca+2]i influences diverse cellular activities. To investigate the calcium requirement for distinct phases of B cell activation, we studied the effect of altering the quantity of extracellular calcium on the induction of increased B cell MHC class II molecule (Ia) expression and DNA synthesis by different B cell mitogens. During short-term cultures (less than 24 hr), the induction of class II molecules by anti-immunoglobulin (anti-Ig) and calcium ionophore were dependent on the presence of extracellular calcium, whereas activation induced by B cell stimulation factor-1 (BSF-1) was minimally dependent on extracellular calcium, and that induced by LPS was independent of it. During longer-term cultures (i.e., greater than 24 hr), the heightened class II molecule expression that was induced by all of the B cell mitogens used was significantly compromised by depletion of extracellular free calcium. Although the anti-Ig-stimulated increase in expression of Ia could be restored by the addition of calcium to the medium at 12 hr, it could not be restored when the addition of calcium was delayed to 24 hr after the onset of culture. This was in marked contrast to the finding that BSF-1-stimulated B cell responses which were suppressed after 24 hr of culture in the presence of EGTA could be restored by the addition of calcium. Activation of B cells along the pathway leading to DNA synthesis demonstrated a requirement for extracellular calcium which was greater than that required for induction of MHC class II molecule expression. Thus, LPS-stimulated size increases of B cells after 12 hr of culture was dependent on extracellular calcium while its induction of MHC class II molecule expression was independent of extracellular calcium at this early time point. These observations indicate that the extracellular calcium requirement for B cell activation is dependent both on the activation pathway utilized by the mitogenic signal and on the duration of cell activation. Furthermore, they demonstrate that B cell stimuli that can initiate B cell activation in the relative absence of extracellular calcium may require extracellular calcium for maintenance of this activational state.     

Induction of histidine decarboxylase of rat basophilic leukemia (2H3) cells stimulated by higher oligomeric IgE or phorbol myristate acetate

When rat basophilic leukemia (2H3) cells were stimulated by higher oligomer, the chemically cross-linked oligomers of IgE, in the presence of calcium the activity of histidine decarboxylase (HDC, L-histidine carboxylase, E.C.4.1.1.22), a histamine-forming enzyme, was increased by 1 hr, reaching maximum activity by 2 hr, and returning to the original level by 8 hr. A similar increase in enzyme activity was observed in cells treated with phorbol myristate acetate (PMA) or oleoyl-acetylglycerol (OAG), which are known activators of protein kinase C. Removal of calcium from medium abolished the increase in HDC activity in response to higher oligomer but not that induced by PMA or OAG, suggesting that the increase in HDC activity may be mediated by protein kinase C. The increase in the HDC activity probably required induction of enzyme synthesis, because it was prevented by cycloheximide.     

Possible role of calcium on oocyte development after intracytoplasmic sperm injection in quail (Coturnix japonica)

Although a rise in intracellular calcium concentration of vertebrate oocytes plays a pivotal role for the initiation of fertilization or oocyte activation, no study on this subject has been reported in birds. This study was conducted to study the role of intracellular calcium in relation to fertilization in avian oocytes. First, immediately after a quail oocyte was injected with a sperm, it was treated with strontium chloride as an inducer for intracellular calcium rise at doses of 0, 2.5, 5, 7.5, 10 mM for 4 hr in the culture medium and was followed by 20-hr culture. Treatment with 5 mM of strontium chloride induced blastodermal development in 24.2% of injected eggs, although no oocytes developed without strontium treatment. Second, quail oocytes were injected with a sperm and 0.1 M calcium chloride or a sperm and saline solution, cultured without calcium for 4 hr and was followed by 20-hr culture without strontium. The calcium solution induced blastodermal development in 20.5% of the oocytes, although no oocytes developed without calcium treatment. Third, quail oocytes were injected with 1,2-bis (o-aminophenoxy) ethane-N,N,N',N'-tetraacetic acid (BAPTA) as a calcium chelator, cultured with strontium (5 mM) for 4 hr followed by 20-hr culture without strontium. Only one oocyte developed after BAPTA and strontium treatment of 36 oocytes examined. Developmental stages of all the oocytes ranged from IV to VII. These results suggest that intracellular calcium rise may participate in quail oocyte activation and allow fertilization and blastodermal development.     

Cysteamine-induced duodenal ulcer: effects on calcium absorption across rat duodenum

The effect of cysteamine-induced duodenal ulcers on calcium transport across rat duodenum was investigated. Intracellular calcium accumulation measured after 24 hr and 3 days of cysteamine injection showed a significant increase (P less than 0.001) in the duodenal strips isolated after 3 days with no change noticed in those isolated after 24 hr, although the morphological changes in both were very similar. The relationship between increasing calcium concentration in the incubation medium and intracellular calcium concentration is a saturable process that conforms to the Michaelis-Menten type of kinetics. The average maximal flux (Vmax) increased from 8.93 nmole/hr-gdw in normal to 12.5 nmole/hr-gdw in 3-day-ulcerated rats, with no apparent change in the Michaelis constant (Kt) (0.8 mM). Unidirectional influx of calcium across the mucosal membrane was significantly increased (P less than 0.001) in 3-day-ulcerated duodenum suggesting that the increase in calcium transport could be due to the activation of the active step at the mucosal border.     

Porcine oocyte activation: differing roles of calcium and pH

Intracellular pH has recently been shown to increase during parthenogenetic activation of the porcine oocyte. In the following set of experiments, intracellular pH was monitored during activation and pronuclear development was assessed following activation treatments with calcium, in the absence of calcium, and in oocytes loaded with the calcium chelator BAPTA-AM in calcium-free medium. Intracellular pH increase was not different among groups when treating with 7% ethanol or 50 microM calcium ionophore, or during treatment with thimerosal for 12 or 25 min. Activation with thimerosal (200 microM, 12 min) followed by 8 mM dithiothreitol (DTT, 30 min) resulted in a decreased pronuclear development in calcium-free medium with or without BAPTA-AM loaded oocytes as compared to controls. Activation with 50 microM calcium ionophore resulted in pronuclear development that was different between the calcium-free and BAPTA-AM loaded oocytes in calcium-free medium. Similar incidences of pronuclear formation were observed in all ethanol treatment groups. It was concluded that external calcium as well as large changes in intracellular free calcium are not necessary for the increase in intracellular pH, but normal intracellular calcium signaling is critical for normal levels of pronuclear development. Finally, oocytes were measured for intracellular pH changes for 30 min following subzonal sperm injection. Intracellular pH did not increase, although pronuclear formation was observed 6 hr post SUZI. This suggested that major differences were still present between sperm-induced and parthenogenetic activation of the porcine oocyte.     

Effect of cholesterol and other sterols on human sperm acrosomal responsiveness

Human sperm become responsive to inducers of the acrosome reaction when they are washed free of seminal plasma and incubated in an appropriate medium. Previous work has shown that cholesterol-enriched medium prevents sperm from becoming responsive to the inducer, progesterone. Sperm that were incubated 24 hr in cholesterol-enriched medium and then treated with progesterone showed no evidence of membrane fusion, indicating that cholesterol acts at a stage before the earliest morphological change. Inhibition of acrosomal responsiveness by cholesterol was reversible. Among other sterols reported in mammalian sperm, desmosterol and cholesterol sulfate also inhibited sperm from becoming responsive, but cholesterol palmitate did not. Our results support a model in which sperm unesterified cholesterol, or a molecule in equilibrium with it, suppresses acrosomal responsiveness. Cholesterol-enriched medium also prevented sperm from becoming responsive to the calcium/proton exchanging ionophore, ionomycin, suggesting that cholesterol's effect may be, at least in part, at a point in the signal transduction pathway subsequent to the rise in intracellular-free calcium. © 1996 Wiley-Liss, Inc.     

The tumor promoter 12-0-tetradecanoylphorbol-13-acetate induces ornithine decarboxylase in proliferating basal cells but not in differentiating cells from mouse epidermis

The cultivation of mouse epidermal cells in medium of reduced calcium concentration (0.02–0.1 mM) selects for basal cell growth. Elevation of medium calcium levels above 0.1 mM results in rapid and well defined differentiative changes. This model was utilized to determine which cell type in mouse epidermis responds to the phorbol ester tumor promoter, 12-0-tetradecanoyl-phorbol-13-acetate (TPA), by an induction of the enzyme ornithine decarboxylase (ODC). Previous data had shown that TPA induces ODC in primary mouse epidermal cells only during the first 36 hr after plating in medium containing 1.44 mM Ca²⁺. In contrast, the induction in cells grown in low calcium medium was 2–10-fold greater, and inducibility persisted for at least 4 weeks. The greater inducibility of ODC in low calcium cells is not paralleled by increased thymidine incorporation after TPA treatment, probably because these cells are already proliferating at a maximum rate. When low calcium cells grown in 0.07 mM Ca²⁺ medium were switched to 1.2 mM Ca²⁺, there was a rapid loss of ODC inducibility. These results strongly suggest that the basal cells of the epidermis constitute the major target cells for the induction of ODC by TPA. The induction of ODC by ultraviolet light was not enhanced by growth of cells in low calcium medium, indicating that extracellular calcium concentration per se does not determine ODC inducibility. When epidermal cells grown in 1.2 mM or 0.07 mM Ca²⁺ medium were exposed to both UV light and TPA, there was a significant synergistic effect of combined treatment over the sum of each individual response, suggesting that factors in addition to differentiation determine the extent of ODC induction.     

SEXUAL REPRODUCTION IN PANDORINA UNICOCCA1

The effects of nutrients and light on sexual reproduction were investigated in 2 mating pairs of Pandorina unicoca. Strains 101–104 required nitrogen deficiency for sexual differentiation. Sulfur deficiency also appeared to be effective in evoking sexual differentiation. The time required for sexual differentiation of strains 103–104 after removal of KNO₃ and MgSO from the medium was 24 hr. Addition of KNO₃ and MgSO₄ after 24hr did not reverse sexual differentiation. Light was required during the first 10–12 hr. Strains 105–106 did not require a period of sexual differentiation and, exhibited mating activity in the presence of nitrogen and sulfur in the medium. Both mating pairs required light for the mating response and calcium was necessary for zygote formation. The pH range for mating activity was determined.     

Effect of salinity on the osmotic,chloride, total protein and calcium concentrations in the hemolymph of the prawn Peneaus monodon (fabricius)

• 1.1. Osmolality and chloride concentrations in the hemolymph of Penaeus monodon became stable 1 day after molting in 32 ppt, while total protein and calcium concentrations remained stable throughout the molting cycle. When intermolt (≥ 36 hr postmolt) animals were transferred from control (32 ppt) to experimental (8–40 ppt) salinities, osmolality, chloride and total protein, but not calcium, concentrations in the hemolymph achieved steady state values 24–48 hr after transfer.
• 2.2. The hemolymph osmolality was a linear function (slope = 0.28) of medium osmolality at salinities between 8 and 40 ppt. It was isosmotic to seawater at 698 mOsm (10 g prawns) and 752 mOsm (30 g), and was hyperosmotic to the medium below isosmotic concentrations, and hypoosmotic to those above.
• 3.3. Hemolymph chloride concentration was isoionic to seawater at 334 mM, and was hyperregulated below isoionic concentrations, and hyporegulated to those above.
• 4.4. P. monodon maintained its hemolymph calcium concentration between 6.4 and 10 mM when medium salinities increased from 8 to 40 ppt.
• 5.5. Total protein concentration in the hemolymph was independent of medium salinity (8–40 ppt) and hemolymph osmolality (540–850 mOsm).

     

Intestine, bone, and mammary gland contributions to maternal plasma calcium increase after abrupt weaning.

The response of maternal plasma calcium concentration to the abrupt and permanent removal of the suckling pups on Day 13 of lactation was investigated. Maternal plasma calcium did not change at 6 hr or 12 hr following pup removal. At 18 hr and 24 hr after weaning, the maternal plasma calcium concentration increased in mothers consuming either 0.47% calcium or 0.02% calcium diets. At 24 hr after weaning, the plasma calcium increase in mothers consuming low dietary calcium was 55% that of mothers consuming adequate dietary calcium. The contribution of the mammary gland to the plasma calcium increase in rats consuming the low dietary calcium was investigated by removing the mammary glands. Following mammary gland removal, plasma calcium increased 50% compared with mothers that had intact mammary glands. The data suggest that intestinal absorption of calcium and bone calcium mobilization remain stimulated by the lactation process for at least 24 hr after removal of the nursing pups.     

固定化乳酸乳球菌连续生产Nisin的研究

以海藻酸钙为材料 ,固定乳酸乳球菌 (Lactococcuslactissubsp .lactis)SM5 2 6 ,研究不同条件对Nisin合成的影响。结果表明 ,利用 2 %海藻酸钠在 1 0mmol LCaCl2 条件下 ,得到的固定化细胞颗粒稳定性较好 ,可维持 90h无破裂 ;在发酵过程中SYS3培养基中的无机盐成分尤其磷酸盐对固定化颗粒有破坏作用 ;用mSYS3培养基代替SYS3 ,通过 72h三批次循环的半连续培养 ,Nisin活性为 85 0IU mL ,无明显的细胞渗漏现象。连续化生产 70h ,Nisin活性达 1 1 5 0IU mL ,相当于游离细胞的发酵水平。