Purine mutants of mammalian cell lines. II. Identification of a phosphoribosylpyrophosphate amidotransferase-deficient mutant of Chinese hamster lung cells

A class of purine auxotrophs blocked early in the purine biosynthetic pathway was examined. The inability of these mutants to accumulate formylglycinamide ribotide (FGAR) in the presence of azaserine suggested that one or more of the first three enzymes of the pathway were either missing or defective. By direct enzyme assay, phosphoribosylpyrophosphate (PRPP) amidotransferase (E.C. 2.4.2.14) was found to be absent in extracts of mutant cells. Thus these cells were unable to convert PRPP to phosphoribosylamine (PRA). By reacting ribose 5-phosphate with ammonium ions, PRA was generated nonenzymatically in the incubation mixture, thus enabling us to test for the presence of the two enzymes required to convert PRA to FGAR. It was demonstrated that sufficient amounts of these enzymes, phosphoribosylglycineamide synthetase (E.C. 6.3.1.3) and phosphoribosylglycineamide formyltransferase (E.C. 2.1.2.2), were present in mutant extracts to allow synthesis of FGAR to occur once PRA was so provided.     

Leucine: tRNA Ligase from Cultured Cells of Nicotiana tabacum var. Xanthi: Evidence for de Novo Synthesis and for Loss of Functional Enzyme Molecules

Leucine:tRNA ligase was assayed in extracts from cultured tobacco (Nicotiana tabacum) XD cells by measuring the initial rate of aminoacylation of transfer RNA with l-[4,5-³H]leucine. Transfer RNA was purified from tobacco XD cells after the method of Vanderhoef et al. (Phytochemistry 9: 2291-2304). The buoyant density of leucine:tRNA ligase from cells grown for 100 generations in 2.5 mm [¹⁵N]nitrate and 30% deuterium oxide was 1.3397. After transfer of cells into light medium (2.5 mm [¹⁴N]nitrate and 100% H₂O) the ligase activity increased and the buoyant density decreased with time to 1.3174 at 72 hours after transfer. It was concluded that leucine:tRNA ligase molecules were synthesized de novo from light amino acids during the period of activity increase. The width at half-peak height of the enzyme distribution profiles following isopycnic equilibrium centrifugation in caesium chloride remained constant at all times after transfer into light medium providing evidence for the loss of preexisting functional ligase molecules. It was concluded that during the period of activity increase the cellular level of enzyme activity was determined by a balance between de novo synthesis and the loss of functional enzyme molecules due to either inactivation or degradation.     

In vitro carotenogenesis by wild type and mutants of Phycomyces blakesleeanus

Cell extracts from shake cultures of the wild type and six mutant strains of Phycomyces converted [2-¹⁴C] MVA into carotenes, squalene and prenyl phosphates. Oxygen was required for the desaturation of phytoene. When compared with the wild type, cells extracts of carB and carR mutants are much less effective in phytoene dehydrogenation and lycopene cyclization, respectively. This confirms previous conclusions about the biochemical functions of the carB and carR genes, which were based on genetic and in vivo studies. CarA strain mutants accumulate, in vivo, much less β-carotene than the wild type. This correlates with a 10-fold decrease in carotenogenesis in vitro. The addition of retinol to incubations of cell extracts of the wild type and C2 strains stimulated β-carotene formation. Both carB and carR mutants show enhanced total carotenogenic activities in vitro and the carS mutant shows a higher β-carotene-synthesizing activity than the wild type. It is suggested that the feed-back regulatory mechanism known to control this pathway operates at the level of enzyme synthesis.     

Relationship between the pentose-phosphate pathway and the de novo synthesis of fatty acids and cholesterol in oligodendrocyte-enriched glial cultures

This study focuses on the activity of the pentose-phosphate pathway and its relationship to de novo synthesis of fatty acids and cholesterol in oligodendrocyte-enriched glial cell cultures derived from 1-week old rat brain. The proportion of glucose that was metabolized along the pentose-phosphate pathway was estimated by measuring ¹⁴CO₂ production from [1-¹⁴C]-, [2-¹⁴C]- and [6-¹⁴C]glucose, the utilization of glucose and the production of lactate. Incorporation of ¹⁴C from [¹⁴C]glucose and from [3-¹⁴C]acetoacetate into lipids was analysed. The pentose- phosphate pathway produced much more CO₂ from glucose than the Krebs cycle, although it accounted for only a small part of the consumption of glucose (< 3%). The higher ¹⁴CO₂ production from [2-¹⁴C]glucose than from [6-¹⁴C]glucose indicated that recycling of the products of the pentose-phosphate pathway takes place in these cells.Gradual inhibition of the pathway with increasing concentrations of 6-aminonicotinamide resulted in a parallel inhibition of the conversion of acetoacetate and of glucose into fatty acids and into cholesterol. Glycolysis was also strongly inhibited in the presence of 6-aminonicotinamide whereas the activity of the Krebs cycle was not affected.These results suggest that de novo synthesis of fatty acids and cholesterol by oligodendrocytes of neonatal rats is closely geared to the activity of the pentose-phosphate pathway in these cells.     

De Novo Purine Biosynthesis in Intact Cells of Cucurbita pepo

The capacity of intact cells of roots excised from summer squash plants (Cucurbita pepo L. cv Early Prolific Straightneck) to synthesize purine nucleotides de novo was investigated. Evidence that purine nucleotides are synthesized de novo included: (a) demonstration of the incorporation of [1-¹⁴C]glycine, [2-¹⁴C]glycine, NaH¹⁴CO₃, and H¹⁴COONa into total adenine nucleotides; (b) observation that the addition of azaserine or aminopterin, known inhibitors of de novo purine synthesis in other organisms, blocked the incorporation of these precursors into adenine nucleotides; and (c) demonstration that the purine ring synthesized from these precursors was labeled in a manner consistent with the pathway for de novo purine biosynthesis found in microorganisms and animal tissues. Under optimal conditions, the activity of this pathway in roots excised from 2-day-old squash plants was 244 ± 13 nanomoles (mean ± standard error, n = 17) NaH¹⁴CO₃ incorporated into ∑Ade (the sum of the adenine nucleotides, nucleoside and free base) per gram tissue during the 3-hour incubation period.

The possible occurrence of alternative enzymic reactions for the first steps of de novo purine biosynthesis was also investigated. No conclusive evidence was obtained to support the operation of alternative enzymic reactions in the intact cell of C. pepo.

     

Regulation of purine biosynthetic genes expression inSalmonella typhimurium IV Oc mutation site ofpurG and its function analysis

Salmonella typhimurium 5 phosphoribosylformylglycinamide (FGAR) amidotransferase encoded bypurG gene catalyzes the conversion of FGAR to formylglycinamide ribonucleotide (FGAM) in the presence of glu- tamine and ATP for thede novo purine nucleotide biosynthesis.purG gene is negatively regulated by a repressor-operator system. The O⁺ purG and O^c purG were cloned respectivelyin vivo. Restriction enzymes analysis of preliminary clones pLBG-1 (O⁺) and pLBG-2 (O^c) were carried out. The hybrid plasmids pLB1933 (O⁺) and pLB1927 (O^c) containing 5′ control region ofpurG were constructed and the DNA sequences were determined respectively, DNA sequences data showed that O^c mutation ofpurG occurred at the 3rd position of 16 bp PUR box in the 5′ control region (G→A). Gel retardation experiment indicated that the repressor bound well with O⁺ PUR box, but not with O^c PUR box. The result strongly supported the idea that PUR box is the binding region of repressor protein and the 3rd position base G of PUR box is essential for the binding function with repressor protein.     

Light-induced changes of enzyme activities in parsley cell suspension cultures: Increased rate of synthesis of phenylalanine ammonia-lyase

When dark-grown cell suspension cultures of parsley (Petroselinum hortense) were illuminated for increasing periods of time, increasing amounts of phenylalanine ammonialyase activity were obtained 5 hr after the onset of light.Pulses of [³⁵S]methionine of varying duration from 1 to 150 min were given to cell cultures in the dark period subsequent to a light period of 2.5 hr. The cells were harvested 5 hr after the onset of light. Analysis of the soluble proteins by polyacrylamide gel electrophoresis revealed a distinct peak of radioactivity coinciding with the activity of phenylalanine ammonia-lyase. The results of experiments in which radioactive methionine was administered for 10 min to dark-grown or light-induced cells at different times after the light period were compared. An efficient incorporation of radioactivity into the fractions possessing the enzyme activity was observed 5 hr after induction, while no significant labeling was detected either after 1.5 or 25 hr, or in extracts from nonilluminated cells. The radioactive fractions containing the enzyme activity were further analyzed by sodium dodecyl sulfate-disc gel electrophoresis. Significant amounts of radioactivity at the molecular weight of the subunits of phenylalanine ammonia-lyase (84,000) were found only in the extracts from cells which had been labeled 5 hr after induction. These results suggest that the light-induced increase in phenylalanine ammonia-lyase activity is due to de novo synthesis, but not to an activation of preformed, inactive enzyme.     

Nitrate reductase-deficient mutants in barley : immunoelectrophoretic characterization

Nitrate reductase-deficient barley (Hordeum vulgare L.) mutants were assayed for the presence of a functional molybdenum cofactor determined from the activity of the molybdoenzyme, xanthine dehydrogenase, and for nitrate reductase-associated activities. Rocket immunoelectrophoresis was used to detect nitrate reductase cross-reacting material in the mutants. The cross-reacting material levels of the mutants ranged from 8 to 136% of the wild type and were correlated with their nitrate reductase-associated activities, except for nar 1c, which lacked all associated nitrate reductase activities but had 38% of the wild-type cross-reacting material. The cross-reacting material of two nar 1 mutants, as well as nar 2a, Xno 18, Xno 19, and Xno 29, exhibited rocket immunoprecipitates that were similar to the wild-type enzyme indicating structural homology between the mutant and wild-type nitrate reductase proteins. The cross-reacting materials of the seven remaining nar 1 alleles formed rockets only in the presence of purified wild-type nitrate reductase, suggesting structural modifications of the mutant cross-reacting materials. All nar 1 alleles and Xno 29 had xanthine dehydrogenase activity indicating the presence of functional molybdenum cofactors. These results suggest that nar 1 is the structural gene for nitrate reductase. Mutants nar 2a, Xno 18, and Xno 19 lacked xanthine dehydrogenase activity and are considered to be molybdenum cofactor deficient mutants. Cross-reacting material was not detected in uninduced wild-type or mutant extracts, suggesting that nitrate reductase is synthesized de novo in response to nitrate.     

ACTH stimulation of purine nucleotide biosynthesis in the adrenal cortex. ACTH stimulation of purine biosynthesis

In the presence of azaserine an inhibitor of phosphoribosylformylglycineamidine synthetase (EC 6.3.5.3) the incorporation of [2-¹⁴C]glycine into 5′-phosphoribosylglycineamide and its formyl derivative was measured in 105,000g supernatant fraction prepared from a homogenate of adrenal cortex. Corticotropin at a level of 1-0.001 nm markedly stimulated in 10 min these early steps of purine biosynthesis. The stimulus was in addition to that achieved with added glucose-6-phosphate and NADP. Increased synthesis of precursors of purine nucleotides is due to ACTH activation of adrenal glucose-6-phosphate dehydrogenase (EC 1.1.1.49) and thus the pentose cycle with an increase in 5′-phosphoribosylpyrophosphate. The generation of this latter compound is presumed to be a rate-limiting factor to 5′-phosphoribosylpyrophosphate amidotransferase (EC 2.4.2.14) the first enzyme of de novo purine biosynthesis.     

Stress Responses in Alfalfa (Medicago sativa L.) : V. Constitutive and Elicitor-Induced Accumulation of Isoflavonoid Conjugates in Cell Suspension Cultures

The isoflavonoid conjugates medicarpin-3-O-glucoside-6″-O-malonate (MGM), afrormosin-7-O-glucoside (AG), and afrormosin-7-O-glucoside-6″-O-malonate (AGM) were isolated and characterized from cell suspension cultures of alfalfa (Medicago sativa L.), where they were the major constitutive secondary metabolites. They were also found in alfalfa roots but not in other parts of the plant. The phytoalexin medicarpin accumulated rapidly in suspension cultured cells treated with elicitor from Colletotrichum lindemuthianum, and this was subsequently accompanied by an increase in the levels of MGM. In contrast, net accumulation of afrormosin conjugates was not affected by elicitor treatment. Labeling studies with [¹⁴C]phenylalanine indicated that afrormosin conjugates were the major de novo synthesized isoflavonoid products in unelicited cells. During elicitation, [¹⁴C]phenylalanine was incorporated predominantly into medicarpin, although a significant proportion of the newly synthesized medicarpin was also conjugated. Treatment of ¹⁴C-labeled, elicited cells with l-α-aminooxy-β-phenylpropionic acid, a potent inhibitor of PAL activity in vivo, resulted in the initial appearance of labeled medicarpin of very low specific activity, suggesting that the phytoalexin could be released from a preformed conjugate under these conditions. Our data draw attention to the involvement of isoflavone hydroxylases during the constitutive and elicitor-induced accumulation of isoflavonoids and their conjugates in alfalfa cell cultures.     

Folate-dependent enzymes in cultured Chinese hamster cells: folypolyglutamate synthetase and its absence in mutants auxotrophic for glycine + adenosine + thymidine.

Dialyzed sonicates from Chinese hamster ovary (CHO) and V-79 lung cells catalyze the addition of l-[U-¹⁴C]glutamate to tetrahydrofolate (H₄PteGlu). Catalysis is optimal between pH 8.5 and 10.2 and is dependent on Mg²⁺ and a purine nucleotide triphosphate. Cobalamins do not stimulate the system even when the cells are grown in the absence of cyanocobalamin (CN-Cbl). Incubations with dl-H₄-[G-³H]PteGlu + l-[U-¹⁴C]glutamate show that the product routinely assayed by DEAE-cellulose chromatography is tetrahydropteroyldiglutamate (H₄PteGluGlu). Higher reduced folylpolyglutamates are formed when the standard assay level of dl-H₄PteGlu is decreased from 100 μm to 1–5 μm. Using either dialyzed extracts or a 25-fold purified enzyme fraction, dATP is 1.6 times more effective than ATP. The folyl specificity for diglutamate synthesis is H₄PteGlu > H₄-homofolate > 5-formyl-H₄PteGlu > 5-MeH₄ PteGlu. dl-5-MeH₄PteGlu is only about 15% as active as dl-H₄PteGlu. Extracts from a CHO mutant AUXB1 (requiring glycine + adenosine + thymidine) and a V-79 mutant ght-1 (requiring glycine + hypoxanthine + thymidine) have <3% of their respective parent cell amounts of H₄PteGluGlu synthetase activity. CHO AUXB1 and V-79 ght-1 extracts are also inactive with the other three reduced folyl compounds cited above and PteGlu. Twelve out of 16 revertant clones that were isolated from CHO AUXB1 in media lacking glycine + adenosine + thymidine contained 44–66% of the wild-type level of H₄PteGluGlu synthetase activity. Both parent CHO and V-79 extracts catalyzed the conversion of H₄PteGluGlu and tetrahydropteroyl triglutamate to higher glutamyl conjugates. The AUXB1 and ght-1 mutant extracts again lacked these catalytic properties. In contrast, revertants of AUXB1 with about 50% of the wild-type H₄PteGluGlu synthetase activity displayed a proportionate ability to synthesize higher polyglutamyl conjugates. From our findings and published genetic data, we conclude that in cultured hamster cells a single synthetase can successively add at least three glutamates to H₄PteGlu. Loss of its function in certain mutants is responsible for their triple auxotrophy.     

<Emphasis Type="Italic">De novo</Emphasis> Formation of Synapses in Cultures of Chick Neural Tube

THE presence of synapses in long term organ cultures of mammalian and avian nervous tissue has been demonstrated previously by light and electron microscopic and neurophysio-logical studies^1–5. A close correlation of the appearance of synapses and the onset of bioelectric activity has also been reported in cultures of foetal rat spinal cord^{6, 7}. Here we report that silver and electron microscopic studies of cultures of chick neural tube reveal morphological evidence of de novo formation of synapses on cells differentiated from neuroepithelial cells, the precursors of the neuronal elements.     

The dynamics of cardiolipin synthesis post-mitochondrial fusion

Alteration in mitochondrial fusion may regulate mitochondrial metabolism. Since the phospholipid cardiolipin (CL) is required for function of the mitochondrial respiratory chain, we examined the dynamics of CL synthesis in growing Hela cells immediately after and 12 h post-fusion. Cells were transiently transfected with Mfn-2, to promote fusion, or Mfn-2 expressing an inactive GTPase for 24 h and de novo CL biosynthesis was examined immediately after or 12 h post-fusion. Western blot analysis confirmed elevated Mfn-2 expression and electron microscopic analysis revealed that Hela cell mitochondrial structure was normal immediately after and 12 h post-fusion. Cells expressing Mfn-2 exhibited reduced CL de novo biosynthesis from [1,3-³H]glycerol immediately after fusion and this was due to a decrease in phosphatidylglycerol phosphate synthase (PGPS) activity and its mRNA expression. In contrast, 12 h post-mitochondrial fusion cells expressing Mfn-2 exhibited increased CL de novo biosynthesis from [1,3-³H]glycerol and this was due to an increase in PGPS activity and its mRNA expression. Cells expressing Mfn-2 with an inactive GTPase activity did not exhibit alterations in CL de novo biosynthesis immediately after or 12 h post-fusion. The Mfn-2 mediated alterations in CL de novo biosynthesis were not accompanied by alterations in CL or monolysoCL mass. [1-¹⁴C]Oleate incorporation into CL was elevated at 12 h post-fusion indicating increased CL resynthesis. The reason for the increased CL resynthesis was an increased mRNA expression of tafazzin, a mitochondrial CL resynthesis enzyme. Ceramide-induced expression of PGPS in Hela cells or in CHO cells did not alter expression of Mfn-2 indicating that Mfn-2 expression is independent of altered CL synthesis mediated by elevated PGPS. In addition, Mfn-2 expression was not altered in Hela cells expressing phospholipid scramblase-3 or a disrupted scramblase indicating that proper CL localization within mitochondria is not essential for Mfn-2 expression. The results suggest that immediately post-mitochondrial fusion CL de novo biosynthesis is “slowed down” and then 12 h post-fusion it is “upregulated”. The implications of this are discussed.     

Purine nucleotide synthesis in lymphoblasts cultured from normal subjects and a patient with Lesch-Nyhan syndrome

Human lymphoblasts derived from normal and hypoxanthine-guanine phosphoribosyltransferase (HGPRT) deficient individuals have been maintained in permanent tissue culture, and comparative studies of their purine metabolism have been undertaken. In agreement with previous observations in fibroblasts, the HGPRT-deficient lymphoblasts (less than 2% normal HGPRT activity) demonstrate threefold increases in the production of purines by the de novo pathway and four- to eightfold increases in intracellular concentrations of 5-phosphoribosyl 1-pyrophosphate (PRPP). The activities of the enzymes of purine metabolism responsible for production and utilization of PRPP were measured under optimal conditions in each cell line. The activities of adenine phosphoribosyltransferase (APRT), PRPP synthetase, and PRPP amidotransferase were independent of cell density and were not significantly different in the two cell lines. The K _m values of the common substrate, PRPP, were determined in normal lymphoblast extracts for APRT (K _m of 0.033 mM), HGPRT (K _m of 0.074 mM), and PRPP amidotransferase (K _m of 0.3 m M). The relatively low affinity of PRPP amidotransferase for PRPP suggests that deficiency of the HGPRT enzyme with its attendant increase in PRPP concentration should be accompanied by increased in vivo activity of PRPP amidotransferase, the first and presumed rate-limiting enzyme of de novo purine biosynthesis.This work was supported in part by National Institutes of Health Grants AM-05646, AM-13622, and GM-17702.     

Light-dependent monoterpene synthesis in Pinus radiata cultures

Callus cultures of Pinus radiata that synthesized monoterpenes de novo and which were stable for at least 1 year have been established. The products differed from those of parent plants in that α-pinene (87–100%) rather than β-pinene was the main component. The best lines accumulated monoterpenes (ca 2 × 10^?3% wt/wet wt)in yields 40–20% of that in the parent stem and needles. The composition of the extractable oil depended on the light regime. After culture in total darkness toluene and acetone accumulated. These compounds also occurred (at low levels) in dark-grown seedlings and in seeds of P. radiata and a route for their formation from α-pinene is suggested. Cell-free extracts of the culture lines converted [¹⁴C] IPP into geraniol, nerol and α- and β-pinenes in up to 46% total yield. These are the most active crude extracts for monoterpene biosynthesis that have been reported from either tissue cultures or higher plants.     

Induction of sesquiterpenoid biosynthesis in tobacco cell suspension cultures by fungal elicitor

Large amounts of the sesquiterpenoid capsidiol accumulated in the media of tobacco (Nicotiana tabacum L. cv KY14) cell suspension cultures upon addition of fungal elicitor. Capsidiol accumulation was proportional to the amount of elicitor added. The accumulation of capsidiol was preceded by a transient increase in the capsidiol de novo synthesis rate as measured by the incorporation of exogenous [¹⁴C]acetate. Changes in 3-hydroxy-3-methylglutaryl-CoA reductase activity (HMGR; EC 1.1.1.34), an enzyme of general isoprenoid metabolism, paralleled the changes in [¹⁴C]acetate incorporation into capsidiol. Incubation of the cell cultures with mevinolin, a potent in vitro inhibitor of the tobacco HMGR enzyme activity, inhibited the elicitor-induced capsidiol accumulation in a concentration dependent manner. [¹⁴C]Acetate incorporation into capsidiol was likewise inhibited by mevinolin treatment. Unexpectedly, [³H] mevalonate incorporation into capsidiol was also partially inhibited by mevinolin, suggesting that mevinolin may effect secondary sites of sesquiterpenoid biosynthesis in vivo beyond HMGR. The data indicated the importance of the induced HMGR activity for capsidiol production in elicitor-treated tobacco cell suspension cultures.     

De novo synthesis of 3'-nucleotidase in germinating wheat embryo

The enzyme 3′-AMP nucleotidase was purified 2,500- to 5,000-fold from extracts of an acetone powder of wheat (Triticum aestivum) embryonic axes germinated for 40 hours. Sodium dodecyl sulfate acrylamide gel electrophoresis and chromatography on Biogel-P100 indicate that the enzyme is monomeric with a molecular weight of 39,000. Extracts of embryos germinated up to 6 hours have only 1% of the 40-hour level of enzyme activity. To see if the increase to 40 hours represents de novo synthesis, extracts were compared for their ability to react with a rabbit antibody prepared against the enzyme. In immunodiffusion tests, 40-hour extracts showed a strong precipitin line coincident with that of the purified enzyme, whereas no precipitation was observed with 1-hour extracts. When the enzyme present in 40-hour extracts was partially inactivated by EDTA, it still blocked the ability of the antibody to inhibit enzyme activity. Extracts of 1-hour embryos, in contrast, were not able to block the inhibitory activity of the antibody. Embryos allowed to take up ³⁵SO₄ between 40 and 46 hours of germination synthesized ³⁵S-labeled 3′-nucleotidase. In contrast, no radioactive protein synthesized by embryos during the first 6 hours of germination coincided on gel electrophoresis with the enzyme. These results indicate that the increase in 3′-nucleotidase activity is a consequence of de novo synthesis of the enzyme.     

An unlinked mutation affecting control of purine metabolism in a revertant of an ad-7 auxotroph of Neurospora crassa lacking the phosphoribosylpyrophosphate amidotransferase

Summary Prototrophic revertants of an ad-7 mutant recover phosphoribosylpyrophosphate amidotransferase activity, indicating ad-7 is the structural gene for the first enzyme in the de novo biosynthesis of purine nucleotides. Some revertants excrete purines and cross-feed ad-3A conidia which have a lesion in the de novo pathway. A mutant apu, not linked to ad-7 or ad-8, is responsible for the ability to excrete purines. This mutation is not allelic to a mutant in the aza-1 locus which is also known to excrete purines.     

Leishmania mexicana: Purine metabolism in promastigotes,axenic amastigotes,and amastigotes derived from vero cells

Leishmania mexicana mexicana promastigotes, axenic amastigotes, and amastigotes derived from Vero cells were examined for de novo purine synthesis and mechanisms of purine salvage. Both promastigotes and axenic amastigotes were incapable of de novo purine synthesis, as shown by the lack of [¹⁴C]formate and [¹⁴C]glycine incorporation into purine nucleotide pools. However, the ready incorporation of [¹⁴C]hypoxanthine, [¹⁴C]adenine, and [¹⁴C]guanine suggested that purine salvage pathways were operating. In addition, a significant percentage (?60%) of the total label from these purine precursors was associated with adenylate nucleotides. Nucleotide pool levels of axenic amastigotes were consistently greater but the specific activities were less than those of promastigotes, suggesting a slower rate of purine metabolism in the axenic amastigote form. Similar results were obtained from amastigotes isolated from infected Vero cells.