Regulation of 5-phosphoribosyl-1-pyrophosphate synthesis in human fibroblasts by the concentration of inorganic phosphate

During the growth cycle of normal fibroblasts and of fibroblasts deficient in glucose-6-phosphate dehydrogenase activity, the concentration of 5-phosphoribosyl-1-pyrophosphate and of P_i, as well as the activity of 5-phosphoribosyl-1-pyrophosphate synthetase, decreased to stable values in confluent cultures. A high degree of correlation (0.89 and 0.91 for two normal and 0.69 for one glucose-6-phosphate dehydrogenase-deficient cell strain, respectively) was shown between intracellular P_i and 5-phosphoribosyl-1-pyrophosphate concentrations under varying culture and incubation conditions. 5-phosphoribosyl-1-pyrophosphate concentrations were elevated in normal fibroblasts incubated with methylene blue only if intracellular P_i levels were high. Neither methylene blue nor 6-aminonicotinamide, singly, affected intracellular P_i concentrations. However, when normal cells were pretreated with 6-aminonicotinamide and then with methylene blue, intracellular P_i decreased, 5-phosphoribosyl-1-pyrophosphate was depleted, and its rate of generation decreased. Under similar conditions, glucose-6-phosphate dehydrogenase-deficient fibroblasts maintained unaltered P_i levels, and 5-phosphoribosyl-1-pyrophosphate concentration and generation were slightly increased. The decrease in intracellular P_i in normal cells after the combined treatment was commensurate with an accumulation of 6-phosphogluconate, which did not take place in mutant cells. The changes in 5-phosphoribosyl-1-pyrophosphate synthesis, whether due to the stage of growth or various experimental manipulations, were always concordant with changes in intracellular P_i level. The regulatory role of P_i is consistent with the known enzymic properties of 5-phosphoribosyl-1-pyrophosphate synthetase.     

A simple colorimetric method for detecting cell viability in cultures of eukaryotic microorganisms

The dye methylene blue can be taken up by dead or severely damaged cells, but not by living cells. Based on this fact, a method was devised which permits quantitative determinations of injured cells in populations of microorganisms such asSaccharomyces cerevisiae, Rhodotorula glutinis, andEuglena gracilis. The percentage of damaged cells was determined by measuring, at 664 nm, the optical density of cell suspensions pretreated with 0.15 mM methylene blue for 6 min, a condition that does not affect cell integrity as determined by oxygen consumption and release of potassium ions. This technique is faster and simpler than the classical dye-exclusion and plate-counting methods.     

Effect of alternating current exposure on the resistivity of resting Escherichia coli B cells to crystal violet and other basic dyes

Phosphate buffer suspensions of resting Escherichia coli B cells at pH 7.0 were anaerobically exposed to alternating current (a.c.) of 50 Hz at a current density of 600 +/- 60 mA/cm2 and 34 degrees +/- 3 degrees C. The minimum inhibitory concentrations of eight basic dyes: crystal violet, malachite green, brilliant green, fuchsin, methylene blue, toluidine blue, safranin and acriflavine for exposed cells were decreased to about the half values of those for unexposed ones when both cells were grown in the minimal medium including one of the dyes. The integrated viabilities of exposed cells tended to decline with increasing concentration of the dyes markedly more than those of unexposed ones, whereas the exposed cells took up the dyes less readily than the unexposed cells. These results suggested that a.c. exposure may serve as an agent which renders E. coli cells susceptible to the basic dyes.     

Disruption of yeast membranes by methylphenidate

Methylphenidate blocked sorbose uptake and loss by yeast spheroplasts and, at higher concentrations (30 mm), disrupted the spheroplasts. At still higher concentrations (70 mm), methylphenidate also ruptured the membranes of whole yeast cells; sorbose and materials absorbing at 280 nm were lost from the cells, and methylene blue stained them. Intracellular structures were extensively affected, as shown by electron micrographs, and were more sensitive to disruption by methylphenidate than the external membrane. N-ethylmaleimide and Ca(2+) enhanced the rupture of external membranes by methylphenidate.     

Gene expression and characterization of a stress-induced tyrosine decarboxylase from Arabidopsis thaliana

Full-length tyrosine decarboxylase cDNA (TyrDC) from Arabidopsis thaliana was identified by rapid amplification of cDNA ends-PCR and isolated by RT-PCR. The TyrDC mRNA was substantially induced by drought stress and wounding, and was considerably decreased by salt stress. By using TyrDC protein fusions with green fluorescent protein, an intracellular localization to the cytoplasm was shown. Recombinant (His)₆-TyrDC was expressed in Escherichia coli and enzymatically characterized: it exclusively catalyzed the conversion of l-tyrosine to tyramine, exhibited an optimum temperature of 50 °C, and an optimum pH at approximately 8.5-9. Recombinant TyrDC protein formed tetramers, as shown by blue native gel electrophoresis.

Structured summary

MINT-7040408:TyrDC (uniprotkb:Q8RY79) and TyrDC (uniprotkb:Q8RY79) bind (MI:0407) by blue native page (MI:0276)     

巴氏碳球C_(60)对体外培养HeLa细胞的光敏杀伤效应

采用MTT比色分析法,观察了不同C_(60)浓度和不同光照强度下C_(60)对体外培养的HeLa细胞的光敏杀伤效应。结果表明,C_(60)在30μg/ml,光强4000Lux的条件下即可杀伤大部分细胞。受伤细胞圆缩、脱壁,里面颗粒增多,失去表面微绒毛状结构。当光强增大时,细胞表面甚至出现破损。     

Radiation protection of human lymphocyte chromosomes in vitro by orientin and vicenin.

Orientin (Ot) and Vicenin (Vc), two water-soluble flavonoids isolated from the leaves of Indian holy basil Ocimum sanctum have shown significant protection against radiation lethality and chromosomal aberrations in vivo. In the present study the protective effect of Ot and Vc against radiation induced chromosome damage in cultured human peripheral lymphocytes was determined by micronucleus test. In order to select the most effective drug concentration, fresh whole blood was exposed to 4Gy of cobalt-60 gamma-radiation with or without a 30 min pre-treatment with 6.25, 12.5, 15.0, 17.5 or 20 microM of Ot/Vc. Micronucleus (MN) assay was done by cytochalasin induced cytokinesis block method. Radiation significantly increased the MN frequency (16 times normal). Pre-treatment with either Ot or Vc at all concentrations significantly (P<0.05-0.001) reduced the MN count in a concentration dependent manner, with the optimum effect at 17.5 microM. Therefore, fresh blood samples were incubated with/without 17.5 microM Ot/Vc for 30 min and then exposed to 0.5-4Gy of gamma-radiation. Radiation increased the MN frequency linearly (r(2)=0.99) with dose. Pre-treatment with Ot or Vc significantly (P<0.01-0.001) reduced the MN counts to 51-67% of RT alone values, giving DMFs of 2.62 (Ot) and 2.48 (Vc). Both the compounds showed significant antioxidant activity in vitro at the above concentrations, which was significantly higher than that of DMSO at equimolar concentrations. Thus, the results demonstrate that both the flavonoids give significant protection to the human lymphocytes against the clastogenic effect of radiation at low, non-toxic concentrations. The radioprotection seems to be associated with their antioxidant activity. The clinical potential of these protectors in cancer therapy needs to be investigated.     

Methylene blue protection against hypoxic injury in primary cultures of rat hepatocyte monolayers

Mitochondrial respiration is inhibited in cells exposed to hypoxia, and the oxidation of NADH to NAD(+) is blocked. As a result, oxidation reactions requiring NAD(+) are blocked, disrupting cellular metabolism. We studied the influence of methylene blue, which oxidizes NADH, on hypoxic damage to primary cultures of rat hepatocyte monolayers. During hypoxic treatment of hepatocytes, aspartate aminotransferase leaked out of the cells into the culture medium. However, addition of methylene blue to the medium repressed the hypoxic leakage of the enzyme. The exposure of hepatocytes to hypoxia decreased the acetoacetate/beta-hydroxybutyrate ratio which reflects the redox state of the cell. The level of the acetoacetate/beta-hydroxybutyrate ratio in hypoxic cells was increased by the addition of methylene blue. These results suggest that methylene blue protects against hypoxic injury due to its oxidation of NADH.     

Renaturation of human proinsulin--a study on refolding and conversion to insulin

The production of human proinsulin in Escherichia coli usually leads to the formation of inclusion bodies. As a consequence, the recombinant protein must be isolated, refolded under suitable redox conditions, and enzymatically converted to the biologically active insulin. In this study we describe a detailed in vitro renaturation protocol for human proinsulin that includes native structure formation and the enzymatic conversion to mature insulin. We used a His(8)-Arg-proinsulin that was renatured from the completely reduced and denatured state in the presence of a cysteine/cystine redox couple. The refolding process was completed after 10-30 min and was shown to be strongly dependent on the redox potential and the pH value, but not on the temperature. Refolding yields of 60-70% could be obtained even at high concentrations of denaturant (3M guanidinium-HCl or 4M urea) and protein concentrations of 0.5mg/ml. By stepwise renaturation a concentration of about 6 mg/ml of native proinsulin was achieved. The refolded proinsulin was correctly disulfide-bonded and native and monomeric as shown by RP-HPLC, ELISA, circular dichroism, and analytical gel filtration. Treatment of the renatured proinsulin with trypsin and carboxypeptidase B yielded mature insulin.     

Role of NADPH and the NADPH-dependent methemoglobin reductase in the hydroxylase activity of human erythrocytes

Human erythrocytes were shown previously to catalyze the oxyhemoglobin-requiring hydroxylation of aniline, and the reaction was stimulated apparently preferentially by NADPH in the presence of methylene blue (K. S. Blisard and J. J. Mieyal,J. Biol. Chem.254, 5104, 1979). The current study provides a further characterization of the involvement of the NADPH-dependent electron transport system in this reaction. In accordance with the role of NADPH, the hydroxylase activity of erythrocytes or hemolysates from individuals with glucose-6-phosphate dehydrogenase deficiency (i.e., with diminished capacity to form NADPH) displayed decreased responses to glucose or glucose 6-phosphate, respectively, in the presence of methylene blue in comparison to samples from normal adults; maximal activity could be restored by direct addition of NADPH to the deficient hemolysates. Kinetic studies of the methylene blue-stimulated aniline hydroxylase activity of normal hemolysates revealed a biphasic dependence on NADPH concentrations: a plateau was observed at relatively low concentrations (K_m^NADPH ~ 20 μm), whereas saturation was not achieved at the higher concentrations of NADPH. The latter low efficiency phase (i.e., at the higher concentrations of NADPH) could be ascribed to a direct transfer of electrons from NADPH to methylene blue to hemoglobin. The high efficiency phase suggested involvement of the NADPH-dependent methemoglobin reductase; accordingly 2′-AMP, an analog of NADP⁺, effectively inhibited this reaction, but the pattern was noncompetitive. This behavior is suggestive of a mechanism by which both NADPH and methylene blue are substrates for the reductase and interact with it in a sequential fashion. The kinetic patterns observed for variation in NADPH concentration at several fixed concentrations of methylene blue, and vice versa, are consistent with this interpretation.     

ON THE NATURE OF THE DYE PENETRATING THE VACUOLE OF VALONIA FROM SOLUTIONS OF METHYLENE BLUE

When uninjured cells of Valonia are placed in methylene blue dissolved in sea water it is found, after 1 to 3 hours, that at pH 5.5 practically no dye penetrates, while at pH 9.5 more enters the vacuole. As the cells become injured more dye enters at pH 5.5, as well as at pH 9.5. No dye in reduced form is found in the sap of uninjured cells exposed from 1 to 3 hours to methylene blue in sea water at both pH values. When uninjured cells are placed in azure B solution, the rate of penetration of dye into the vacuole is found to increase with the rise in the pH value of the external dye solution. The partition coefficient of the dye between chloroform and sea water is higher at pH 9.5 than at pH 5.5 with both methylene blue and azure B. The color of the dye in chloroform absorbed from methylene blue or from azure B in sea water at pH 5.5 is blue, while it is reddish purple when absorbed from methylene blue and azure B at pH 9.5. Dry salt of methylene blue and azure B dissolved in chloroform appears blue. It is shown that chiefly azure B in form of free base is absorbed by chloroform from methylene blue or azure B dissolved in sea water at pH 9.5, but possibly a mixture of methylene blue and azure B in form of salt is absorbed from methylene blue at pH 5.5, and azure B in form of salt is absorbed from azure B in sea water at pH 5.5. Spectrophotometric analysis of the dye shows the following facts. 1. The dye which is absorbed by the cell wall from methylene blue solution is found to be chiefly methylene blue. 2. The dye which has penetrated from methylene blue solution into the vacuole of uninjured cells is found to be azure B or trimethyl thionine, a small amount of which may be present in a solution of methylene blue especially at a high pH value. 3. The dye which has penetrated from methylene blue solution into the vacuole of injured cells is either methylene blue or a mixture of methylene blue and azure B. 4. The dye which is absorbed by chloroform from methylene blue dissolved in sea water is also found to be azure B, when the pH value of the sea water is at 9.5, but it consists of azure B and to a less extent of methylene blue when the pH value is at 5.5. 5. Methylene blue employed for these experiments, when dissolved in sea water, in sap of Valonia, or in artificial sap, gives absorption maxima characteristic of methylene blue. Azure B found in the sap collected from the vacuole cannot be due to the transformation of methylene blue into this dye after methylene blue has penetrated into the vacuole from the external solution because no such transformation detectable by this method is found to take place within 3 hours after dissolving methylene blue in the sap of Valonia. These experiments indicate that the penetration of dye into the vacuole from methylene blue solution represents a diffusion of azure B in the form of free base. This result agrees with the theory that a basic dye penetrates the vacuole of living cells chiefly in the form of free base and only very slightly in the form of salt. But as soon as the cells are injured the methylene blue (in form of salt) enters the vacuole. It is suggested that these experiments do not show that methylene blue does not enter the protoplasm, but they point out the danger of basing any theoretical conclusion as to permeability on oxidation-reduction potential of living cells from experiments made or the penetration of dye from methylene blue solution into the vacuole, without determining the nature of the dye inside and outside the cell.     

Growth kinetics of Chlorella vulgaris and its use as a cathodic half cell

The kinetics of growth of the algal species Chlorella vulgaris has been investigated using CO(2) as the growth substrate. The growth rate was found to increase as the dissolved CO(2) increased to 150 mg/L, but fell dramatically at higher concentrations. Increasing the radiant flux also increased growth rate. With a radiant flux of 32.3 mW falling directly on the 500 mL culture media, the growth rate reached up to 3.6 mg of cells/L-h. Both pH variation (5.5-7.0) and mass transfer rate of CO(2) (K(L)a between 6h(-1) and 17 h(-1)) had little effect on growth rate. Growing on glucose, the yeast Saccharomyces cerevisiae produced a stable 160 mV potential difference when acting as a microbial fuel cell anode with ferricyanide reduction at the cathode. The algal culture was observed to be a workable electron acceptor in a cathodic half cell. Using an optimum methylene blue mediator concentration, a net potential difference of 70 mV could be achieved between the growing C. vulgaris culture acting as a cathode and a 0.02 M potassium ferrocyanide anodic half cell. Surge current and power levels of 1.0 microA/mg of cell dry weight and 2.7 mW/m(2) of cathode surface area were measured between these two half cells.     

Effect of alternating current exposure on the resistivity of resting Escherichia coli B cells to crystal violet and other basic dyes

Phosphate buffer suspensions of resting Escherichia coli B cells at pH 70 were anaerobically exposed to alternating current (a.c.) of 50 Hz at a current density of 600 60 mA/cm² and 34 3C. The minimum inhibitory concentrations of eight basic dyes: crystal violet, malachite green, brilliant green, fuchsin, methylene blue, toluidine blue, safranin and acriflavine for exposed cells were decreased to about the half values of those for unexposed ones when both cells were grown in the minimal medium including one of the dyes. The integrated viabilities of exposed cells tended to decline with increasing concentration of the dyes markedly more than those of unexposed ones, whereas the exposed cells took up the dyes less readily than the unexposed cells. These results suggested that a.c. exposure may serve as an agent which renders E. coli cells susceptible to the basic dyes.     

重组生物制品十二烷基硫酸钠含量检测方法的建立

目的：用亚甲基蓝-分光光度法检测重组生物制品中十二烷基硫酸钠（SDS）的含量。方法：将送检样品按比例稀释后与亚甲基蓝混合,加入氯仿进行萃取,然后用紫外分光光度计测定各样品的吸光度D值。结果：SDS浓度为0～0.01mg/mL时,SDS与D651nm值呈线性关系。结论：在一定的SDS浓度范围内可用亚甲基蓝-分光光度法检测重组生物制品中SDS的含量。     

qPCR array检测高糖对胆固醇合成基因表达的影响

目的:高血糖易引起胆固醇在体内积聚,增加糖尿病合并动脉粥样硬化性心血管疾病的患病风险。本文通过建立稳定的实时定量PCR芯片(Real-time quantitative polymerasechain reaction array,qPCR array)检测方案,研究高糖对小鼠肝癌细胞Hepa1-6胆固醇合成基因表达的影响,探讨胆固醇合成基因在糖尿病大血管并发症发展中的作用机制。方法:以不同浓度葡萄糖(5、15、30mmo/L)和不同时间(0、6、12、18、24 h),刺激肝癌细胞Hepa1-6,利用qPCR array检测其胆固醇合成基因的表达差异。结果:与5mmol/L相比,高糖组(15、30 mmo/L)处理细胞18 h后,胆固醇合成基因CYP51、EBP、NSDHL、SQLE、FDFT1和PMVK的表达上调(P0.05),呈现剂量依赖性。与0 h相比,15 mmol/L高糖处理细胞12 h,CYP51、EBP和SQLE mRNA表达量上调(P0.01)。至24 h,CYP51、EBP降至0 h水平,而SQLE的表达量继续增加;NSDHL在12 h表达无差异,至18 h表达量发生上调(P0.05)。结论:该qPCR array检测方案能特异性检测胆固醇合成基因的表达量。高糖能够促进胆固醇合成基因的表达,使细胞内胆固醇积聚,这可能是糖尿病患者容易发生动脉粥样硬化的原因。这提示我们将胆固醇合成基因作为药物靶点可能延缓糖尿病动脉粥样硬化进展。     

Effect of cell concentration on the uptake of amino acids by rat liver parenchymal cells in suspension.

The accumulation of several amino acids in the acid-soluble fraction and their incorporation into protein in rat liver parenchymal cell suspensions, has been shown to depend on the concentration of cells in the incubation medium; the uptake, both in the acid-soluble and the acid-insoluble fractions, decreased as the cell concentration increased from 0.03 X 10(6) cells/ml upwards, reaching a plateau at high cell concentrations (3-5 X 10(6) cells/ml). The uptake values at high cell concentrations were the same as those obtained in liver slices in which a similar effect was not observed. Evidence is presented which suggests that this phenomenon is mediated by a material released from the cells in suspension, which is inhibitory to enhancement of the uptake of amino acids by these cells over and above the value obtained in normal, adult liver slices.     

Radiation protection of human lymphocyte chromosomes in vitro by orientin and vicenin

Orientin (Ot) and Vicenin (Vc), two water-soluble flavonoids isolated from the leaves of Indian holy basil Ocimum sanctum have shown significant protection against radiation lethality and chromosomal aberrations in vivo. In the present study the protective effect of Ot and Vc against radiation induced chromosome damage in cultured human peripheral lymphocytes was determined by micronucleus test. In order to select the most effective drug concentration, fresh whole blood was exposed to 4 Gy of cobalt-60 γ-radiation with or without a 30 min pre-treatment with 6.25, 12.5, 15.0, 17.5 or 20 μM of Ot/Vc. Micronucleus (MN) assay was done by cytochalasin induced cytokinesis block method. Radiation significantly increased the MN frequency (16 times normal). Pre-treatment with either Ot or Vc at all concentrations significantly (P<0.05–0.001) reduced the MN count in a concentration dependent manner, with the optimum effect at 17.5 μM. Therefore, fresh blood samples were incubated with/without 17.5 μM Ot/Vc for 30 min and then exposed to 0.5–4 Gy of γ-radiation. Radiation increased the MN frequency linearly (r²=0.99) with dose. Pre-treatment with Ot or Vc significantly (P<0.01–0.001) reduced the MN counts to 51–67% of RT alone values, giving DMFs of 2.62 (Ot) and 2.48 (Vc). Both the compounds showed significant antioxidant activity in vitro at the above concentrations, which was significantly higher than that of DMSO at equimolar concentrations. Thus, the results demonstrate that both the flavonoids give significant protection to the human lymphocytes against the clastogenic effect of radiation at low, non-toxic concentrations. The radioprotection seems to be associated with their antioxidant activity. The clinical potential of these protectors in cancer therapy needs to be investigated.     

Dopamine inhibition of potassium-stimulated aldosterone biosynthesis in bovine adrenal zona glomerulosa cells

Dopamine inhibits angiotensin II-stimulated aldosterone production by an effect on the late phase of biosynthesis. This study was undertaken to investigate the effect of dopamine on potassium-stimulated aldosterone biosynthesis in adrenal glomerulosa cells in vitro. As potassium concentrations were increased from 0 to 12 mM, aldosterone production increased up to 6 mM potassium, but not beyond this concentration. Dopamine (10(-5)M) inhibited the aldosterone response to potassium. The effect of potassium on pregnenolone accumulation (the early phase of aldosterone biosynthesis) was assessed in cells treated with trilostane which inhibits the conversion of pregnenolone onward to aldosterone. Increasing potassium concentrations up to 12 mM gave increasing pregnenolone accumulation; however dopamine did not influence this effect. The potassium stimulated conversion of corticosterone to aldosterone, an index of activity in the late phase of aldosterone biosynthesis, was assessed using aminoglutethimide to prevent cholesterol side-chain cleavage. Significantly more corticosterone was converted to aldosterone at 6 mM potassium than at 0 or 12 mM; dopamine inhibited the conversion of corticosterone to aldosterone at 6 mM potassium. These data indicate that dopamine inhibits potassium-stimulated aldosterone production by an effect restricted to the late phase of the aldosterone biosynthetic pathway similar to its previously established effect on angiotensin II-stimulated aldosterone biosynthesis.     

Methylene blue-based 7-nitro-1,2,3-benzoxadiazole NIR fluorescent probe triggered by H2S

A new Methylene blue–based 7-nitro-1,2,3-benzoxadiazole NIR fluorescent probe 3, 7-bis-dimethylamino-10-(7-nitrobenzo[c][1,2,5]oxadiazol-4-yl)-10H-phenothiazine (leuco-MB-NBD) was designed and synthesized. Leuco-MB-NBD showed high sensitivity and selectivity for H₂S as a fluorescent probe in C₂H₅OH-PBS (9:1, v/v, pH = 7.4) solution, this fluorescent assay showed a linear range of 0–50.0 μM and a LOD (limit of detection) of 0.43 μM. Moreover, the probe leuco-MB-NBD has lower toxicity at low concentrations to HCT-116 cells and can be used for cell imaging. Additionally, Leuco-MB-NBD is triggered by hydrogen sulfide to generate methylene blue, methylene blue which has potential rescuing effects on the mitochondrial activity can act as an antidote against sulfide intoxication.     

Nucleotide and pentose synthesis after serum-stimulation of resting 3T6 fibroblasts.

We have investigated the de novo synthesis of intermediates of purine nucleotides in 3T6 fibroblasts and determined the manner by which the activity of this pathway is increased in resting cells by the addition of fresh serum. Within 30 minutes after stimulation, 3T6 cells began to synthesize increased amounts of purines by the de novo pathway as measured by increased amounts of formylglycinamide ribonucleotide, a representative intermediate of this pathway. Within 15 minutes after serum-stimulation 3T6 cells exhibited a substantial increase in their capacity to synthesize ribose compounds, particularly in the form of 5-phosphoribosylpyrophosphate (PRPP). The availability of PRPP appeared to be limiting for the synthesis of purine nucleotides in resting fibroblasts, but not necessarily in serum-stimulated cells. The amount of the enzyme PRPP synthetase as measured in vitro remained constant for at least the first four hours. Therefore, a study was made of various compounds known to activate PRPP synthetase in vitro. No evidence was found that suggested involvement of concentrations of cyclic nucleotides or phosphate. Experiments with methylene blue, an artificial electron acceptor that stimulates the production of ribose 5-phosphate by the hexose monophosphate shunt, indicated that one of the immediate consequences of the addition of serum is increased cycling of the pyridine nucleotide coenzymes, NADP⁺ and NADPH, and that the rapid increase in formation of ribose compounds and, consequently, purine nucleotides was caused as a result of modulation by this coenzyme. The relative ration of ATP:ADP:AMP as well as their concentrations remain constant in resting and serum-stimulated cells under normal assay conditions. However, there was a substantial decrease in ATP concentrations with a corresponding increase in AMP concentration with methylene blue in the assay buffer. The production of AMP from ATP was 5-fold greater in the serum-stimulated than in the resting fibroblasts. The increased production of AMP is thus serum-dependent and may reflect a basic enzymatic function of proliferative as compared to resting cells.