Rapid determination of hypoxanthine-guanine-phosphoribosyl transferase in human fibroblasts and amniotic cells.

A micromodification of the method of HGPRT and APRT assay is described, which measures the incorporation of 14C hypoxanthine and 14C adenine into cultured skin fibroblasts and amniotic cells grown on microtiter plates. Only about 10000 cells are needed per assay. By this method HGPRT deficient cells can be easily distinguished from normal cells. Investigations with respect to the effect of substrate concentrations and time of incubation have been carried out on some normal fibroblast cell lines, amniotic cell lines and 3 Lesch-Nyhan cell lines. Another modified method is described for quantitative determination of HGPRT activity by means of radio thin-layer chromatography.     

Mechanism of cytotoxic action of azaguanine and thioguanine in wild-type V79 cell lines and their relative efficiency in selection of structural gene mutants

The cytotoxic effects of azaguanine and thioguanine have been compared in two wild-type V79 cells. To achieve equitoxic effects in both cell lines a 10–20-fold higher concentration of azaguanine than thioguanine was required. Affinity of HGPRT for azaguanine was 10-fold lower than for hypoxanthine in both cell lines and was similar to that for thioguanine in V79S cells. Affinity for thioguanine differed by a factor of 3 in the two cell lines. The rate of cell kill by azaguanine was markedly slower than by thioguanine in both cell lines. Reduction of whole cell uptake of [¹⁴C]hypoxanthine incorporation by unlabelled azaguanine was only demonstrable after prolonged incubation periods as was incorporation of [¹⁴C]azaguanine into acid-insoluble material. Experiments with cell-free extracts indicated that hypoxanthine acts as a non-competitive inhibitor of the enzyme. The slow rate of dissociation of the HGPRT—azaguanine complex is reflected in the slow rate of killing of wild-type cells. Clones resistant to the cytotoxic effects of these analogues have been selected from both cell lines and have been shown to possess HGPRT with altered kinetic properties. Our data suggest that azaguanine and thioguanine may select for mutations at different sites on the HGPRT molecule in V79 cells and provide possible explanations for the differences in effectiveness of these two agents reported in other cell lines.     

Rapid prenatal and postnatal detection of inborn errors of propionate,methylmalonate, and cobalamin metabolism: A sensitive assay using cultured cells

Summary A sensitive, reliable, and easily performed procedure is described for the prenatal and postnatal detection of inborn errors of propionate, methylmalonate, and cobalamin metabolism using cultured amniotic cells and skin fibroblasts. With this assay, control fibroblast lines incorporated a mean of 6.89 nanoatoms ¹⁴C/mg protein from [1-¹⁴C]propionate into trichloroacetic acid (TCA)-precipitable cell material in 10h. Twenty-five mutant fibroblast lines from patients with propionicacidemia or one of the methylmalonicacidemias fixed 0.04 to 0.93 nanoatoms ¹⁴C/mg. Considerable variation was observed, both among and within discrete mutant classes, with respect to the residual amount of propionate pathway activity, possibly reflecting further molecular heterogeneity in these disorders.We applied this procedure to cultured amniotic cells from controls and 4 midtrimester pregnancies at risk for methylmalonicacidemia and diagnosed one fetus with a methylmalonyl CoA apomutase defect and 3 fetuses which were unaffected.Presented in part at the annual meeting of the Society for Pediatric Research, St. Louis, Missouri, April 1976.     

Immunological characterization of hypoxanthine-guanine phosphoribosyl transferase mutants of mouse L cells: Evidence for mutations at different loci in the HGPRT gene

A large collection (105) of mouse L cell mutants lacking hypoxanthine-guanine phosphoribosyl transferase activity (HGPRT; E. C. 2.4.2.8) were analyzed for the presence of serologically cross reacting material (CRM). Antibody directed against highly purified mouse liver HGPRT was used for detecting CRM activity by two methods: (1) the standard precipitation-inhibition assay; and (2) a radioimmune-precipitation assay. The latter assay proved to have far greater sensitivity for the detection of altered forms of HGPRT. Approximately 40% of the HGPRT⁻ cell lines contain CRM activity (i.e., were CRM⁺). This indicates that a minimum of 40% of the HGPRT⁻ clones arose as a result of mutations in the HGPRT structural gene. The CRM⁺ cell lines were shown to contain different levels of CRM activity. Measurements of the heat sensitivity of CRM in the different HGPRT⁻ cell lines showed a broad spectrum of CRM heat inactivation kinetics. These latter two observations provide strong evidence that the mutations giving rise to the HGPRT⁻CRM⁺ phenotype occurred at different sites in the HGPRT structural gene.     

Phenylalanine hydroxylation and tyrosine requirement of cultured cells : Evidence of phenylalanine hydroxylation in mastocytoma cells in culture

Growth of cells in tyrosine-free medium can be used to detect and select cells able to convert phenylalanine to tyrosine. Nine different cell types have been tested: fibroblastic cells derived from human skin, human amniotic fluid cells, continuous human lymphoid cells, rat hepatoma, Vero (monkey kidney), HeLa, mouse neuroblastoma, mouse melanoma, and mouse mastocytoma. Two cell lines, mastocytoma and hepatoma, grew well in tyrosine-free medium, and subsequent enzyme assay showed substantial phenylalanine hydroxylation. This enzyme activity has already been documented in hepatoma [1], but the demonstration of phenylalanine hydroxylation by a cell line of non-hepatic origin is new. Fibroblastic cells survived but did not grow without tyrosine. No conversion of [¹⁴C]phenylalanine to tyrosine was demonstrated in these cells.     

The thymidine-kinase locus of friend erythroleukaemic cells: 1. Mutation rates and properties of mutants

Spontaneous mutation at the thymidine-kinase locus in clone 707 of the Friend cell lines has been examined. The rate of mutation in BrdU resistance was found to be 2.6 × 10^?6 cell^?1 generation^?1. The rate of reversion to HAT resistance was found to vary from 1.1 × 10^?7 to 2.85 × 10^?6 cell^?1 generation^?1 in 4 BrdU-resistant clones. Of 14 mutant clones assayed for thymidine-kinase activity only one had greater than 13% the activity of wild-type cells. Fluctuation analysis showed that mutations occurred spontaneously and were not induced by the selective agent.The mutation rate at the thymidine-kinase locus is several orders of magnitude greater than those reported for several other cell lines. There does not appear to be a general genetic instability in this cell line as the mutation rate at the HGPRT locus is similar to those found in other established cell lines.It is suggested that the high forward mutation rate at the thymidine-kinase locus may be due to only one functional thymidine-kinase allele being present in cells of this alone.     

Histidine regulation in Salmonella typhimurium: XVI. A sensitive radiochemical assay for histidinol dehydrogenase

A sensitive radiochemical assay for measurement of histidinol dehydrogenase is presented. The method is based upon separation of the product of the reaction. [¹⁴C]histidine, from the substrate, [¹⁴C]histidinol, on small Dowex 50 columns. The assay can be performed on cell extracts or on toluenized cells and is approximately 100 times more sensitive than previously reported assays for this enzyme.[¹⁴C]histidinol is obtained in high yields through conversion of uniformly labeled ¹⁴C-glucose by a strain of Salmonella typhimurium derepressed for the histidine operon and blocked at the histidinol dehydrogenase step. Accumulated [¹⁴C]histidinol is purified from the culture supernatant by ion-exchange chromatography.This sensitive assay has facilitated measurement of reduced levels of histidine operon expression in promoter mutants, and has been adapted for study of histidine operon regulation in a cell free protein synthesizing system.     

Host-Pathogen Interactions : XXIV. Fragments Isolated from Suspension-Cultured Sycamore Cell Walls Inhibit the Ability of the Cells to Incorporate [C]Leucine into Proteins

A bioassay to measure the incorporation of [¹⁴C]leucine into acid-precipitable polymers of suspension-cultured sycamore (Acer pseudoplatanus L.) cells is described. Using this assay, cell wall fragments solubilized from sycamore cell walls by partial acid hydrolysis are shown to contain components that inhibit the incorporation of [¹⁴C]leucine into the acid-precipitable polymers. This inhibition was not attributable to a suppression of [¹⁴C]leucine uptake. The effectiveness of the wall fragments in inhibiting [¹⁴C]leucine incorporation was substantially relieved by plasmolysis of the cells. Fragments released from starch and citrus pectin are shown not to possess such inhibitory activities.     

Effect of ouabain resistance on human diploid fibroblasts carrying other genetic variants.

Human skin fibroblasts from a Lesch-Nyhan male with the G6PD A variant and those from a female with the cri-du-chat deletion have been treated with ethyl methane sulfonate and subjected to ouabain selection. Sixteen ouabain-resistant clones were obtained from 1.2 × l0⁸ cells plated in 10^?6 M ouabain. Some variation in degree of ouabain resistance was noted among subclones. The ouabain-resistant phenotype was stable and was associated with G6PD and HGPRT phenotypes and karyotypes similar to the parent strains except that tetraploidy characterized 2 of 5 of the clones karyotyped. The ouabain-resistant cells were used to study the influence of the mutation leading to ouabain resistance on the transfer of nucleotides from cell to cell. Results indicate that contact-feeding of nucleotides is not dependent upon the ouabain-sensitive Na⁺K⁺ transport system. It is suggested that ouabain resistance may provide a simple assay to detect agents mutagenic for human cells, and that cells carrying both HGPRT as well as ouabain-resistant markers are ideal for cell hybridization with strains having no selectable markers.     

Hypoxanthine transport in normal and hypoxanthine guanine phosphoribosyltransferase (HGPRT) deficient diploid human lymphoblasts

We have examined the possible relation between hypoxanthine guanine phosphoribosyltransferase (EC 2.4.2.7., HGPRT) activity and hypoxanthine transport in the normal human lymphoblast line MGL8 and two HGPRT- mutant lines derived from it. The mutant line MGL8A29 (L8A29) had considerable amounts of material cross-reacting immunologically to HGPRT, while mutant MGL8A18 (L8A18) had none. In the normal cells, hypoxanthine is taken up by both a saturable and non-saturable process. Kinetic studies show that the velocity of transport is much lower than HGPRT activity, while both have similar values of K_m. In the two mutant lines, we failed to demonstrate saturable transport, and the rates of hypoxanthine uptake by these cells were directly proportional to its concentration in the medium. Active HGPRT molecules appear to be related to the saturable transport process.     

Reversion in expression of hypoxanthine-guanine phosphoribosyl transferase following cell hybridization.

Hybridization of mutant cell lines deficient in hypoxanthine-guanine phosphoribosyl transferase (HGPRT; E.C.: 2.4.2.8) from a variety of established rodent sources with HGPRT plus human cells yielded progeny cells which grew in selective medium containing hypoxanthine, aminopterin and thymidine (HAT). The same result was obtained when the human cell used was an HGPRT minus transformed line derived from a patient with the Lesch-Nyhan syndrome. Electrophoretic analysis indicated that all HAT-resistant progeny clones contained an active HGPRT enzyme which was indistinguishable from the wild type enzyme of the corresponding normal rodent cells. In contrast, no HAT-resistant cells have been obtained when the same HGPRT minus rodent cells were subjected to fusion processes in the absence of human cells or when they fused with similarly derived HGPRT minus mutant cells of other rodents. Reversion in expression of the rodent gene for HGPRT was detected in clones which retained one or more human chromosomes and in clones which contained no detectable human chromosomal material. The observed re-expression of rodent HGPRT in HAT-resistant clones suggests that HGPRT plus as well as HGPRT minus human cells contributed a factor which determined the expression of respective rodent structural genes for HGPRT. In contrast, HGPRT minus rodent cells were unable to induce the synthesis or normal HGPRT in the cells derived from the patient with the Lesch-Nyhan syndrome.     

A general method of alpha-aminoaldehyde synthesis using alcohol dehydrogenase

A method for measuring ribose 1-phosphate in cell extracts is described. Cell extracts are first fractionated on polyethyleneimine-impregnated cellulose columns to remove nucleoside and base components which otherwise interfere with the enzymatic assay. Ribose 1-phosphate in the eluate is made limiting for the conversion of [¹⁴C]hypoxanthine to [¹⁴C]inosine in the presence of purine nucleoside phosphorylase. Labeled substrate and product are then easily separated on boronate gel columns or by paper chromatography.     

A radioactive assay for acetylcholinesterase using anion-exchange disk

A radioactive assay for acetylcholinesterase is described. The assay is based on the separation of [¹⁴C]acetate from [¹⁴C]acetylcholine by differential adsorption of the former on DEAE anion-exchange disks. The procedure is simple and sensitive and eliminates the use of ion-exchange resin columns or organic extractions. Moreover, when unpurified enzyme preparations are assayed, linear steady-state kinetics can be observed with this method as contrasted to the nonlinear colorimetric method using acetylthiocholine and dithiobisnitrobenzoate. This method also permits the detection in biological samples of low levels of acetylcholinesterase activity, which is not detectable by the colorimetric method. Using the present radioactive method, cellular levels of acetylcholinesterase have been surveyed in N4TG1 neuroblastoma cells, NG108-15 neuroblastoma x glioma hybrid cells, H9c2 myoblasts, and 3T3-L1 and 3T3-C2 fibroblasts.     

Evidence for linkage between glucose 6-phosphate dehydrogenase and hypoxanthine-guanine-phosphoribosyl transferase loci in Chinese hamster cells

G6PD and 6PGD activities were determined in diploid, hyperdiploid, tetraploid, and hybrid cells all originating from the same Chinese hamster cell line (the DON line). A relationship between gene multiplicity and enzyme activity has been observed. The same enzymes were studied in hybrid cells cultivated in selective media. Selection was carried out against and for the HGPRT⁺ locus. The differences in G6PD and 6PGD activities between the cell lines found under these conditions indicate a positive linkage of the G6PD and HGPRT loci and negative linkage of the 6PGD and HGPRT loci in these Chinese hamster cells.     

A microassay for mammalian histidine decarboxylase.

This report describes a microassay procedure for mammalian histidine decarboxylase (HDC) based on the measurement of [¹⁴C]O₂ formed from l-[1-¹⁴C]histidine. This assay is particularly useful for quick measurement of HDC activity both in microgram quantities of cell or tissue extract and in tissues that contain significant levels of endogenous histamine.Using this assay, we have shown that the pH optimum, K_m and thermolability of HDC are similar for extracts prepared both from normal rat peritoneal mast cells and from the Furth mouse mastocytoma. HDC activity could be detected in homogenates prepared from 10⁵ rat mast cells, and it was expressed on a per cell basis. Mast cell HDC activity varied with the strain of rat from which the cells were obtained and with the season when they were assayed.     

Direct visualization of IMP--GMP:pyrophosphate phosphoribosyltransferase in polyacrylamide gels

Direct visual detection of IMP-GMP: pyrophosphate phosphoribosyl-transferase (HGPRT) activity after separation by polyacrylamide gel electrophoresis has not been easy to achieve. Radiochemical assays have been used but they have the disadvantage of requiring considerable amounts of time before the results are available (1.2). A fluorescence assay that couples inosine 5′-monophosphate (IMP) to IMP dehydrogenase with concomitant formation of NADH has been described (3) but is inconvenient because the coupling enzyme is not commercially available. Bieber (4) has developed a fluorescence assay that can be used for HGPRT detection but it requires that the gels be sliced before they are incubated with the substrate mixture. A rapid, convenient method for visual observation of HGPRT activity would facilitate the study of this enzyme and its variants. In this paper we report the development of such a method based on precipitation of inorganic pyrophosphate, one of the reaction products, with Mn²⁺.     

Quantification and analysis of reverse mutations at the hgprt locus in Chinese hamster ovary cells

We describe an assay for the quantification of reverse mutations at the hypoxanthine-guanine phosphoribosyltransferase (hgprt) locus in Chinese hamster ovary cells utilizing the selective agent L-azaserine (AS). Conditions are defined in terms of optimal AS concentration, cell density, and phenotypic expression time. After treatment, replicate cultures of 10⁶ cells are allowed a 48-h phenotypic expression time in 100-mm plates. AS (10 μM) is then added directly to the growing culture and AS-resistant (AS^r) cells form visible colonies. This assay is used to quantify ICR-191-, ICR-170-, and N-ethyl-N-nitrosourea-induced reversion of independently isolated HGPRT^? clones. The AS^r phenotype is characterized both physiologically and biochemically. All AS^r clones isolated are stably resistant to AS and aminopterin but sensitive to 6-thioguanine. They also have re-expressed HGPRT enzyme. In addition, several revertants are shown to contain altered HGPRT. The data provide further evidence that ICR-191 and ICR-170 cause structural gene mutations in mammalian cells and also suggest that ICR-191, ICR-170, and N-ethyl-N-nitrosourea induce similar types of mutations in Chinese hamster ovary cells.     

A dispersed-whole cell method for the determination of androgen receptors in human skin fibroblasts

A method is described for the determination of binding capacity (R_o) and dissociation constant (K_d) of androgen receptors in dispersed, whole, cultured human skin fibroblasts. The cells, obtained from punch biopsies or operative specimens of skin, are grown to confluence in monolayers, harvested, washed, and dispersed in medium. Binding is assessed by incubating the cells with [³H]dihydrotestosterone³ (DHT) at 22°C for one hour followed by washing, centrifugation and counting. Non-specific binding is determined by adding radioinert methyltrienolone (R1881). Scatchard plots are constructed using 6 concentration points; binding is expressed as sites/cell. The method is precise (R_o = 12,105 ± 4305 (S.D.) sites/cell; K_d = 1.0 ± 0.7 (S.D.) × 10^?9M, n = 14 for one prepuce cell line) and independent of cell passage number. Binding is linear with respect to cell number and shows those characteristics commonly attributed to androgen receptors: high affinity, low binding capacity, saturable nuclear binding, androgen specificity, and an 8S peak in fibroblast cytosol using sucrose density gradients. Cell lines shown by other published methods to lack androgen receptors had no detectable DHT binding with this method. This assay technique has the advantages of simplicity, rapidity, and precision.     

UDP-glucose: α-D-galactose-1-phosphate uridylyltransferase activity in cultured human fibroblasts

Galactose-1-phosphate uridyl transferase activity of normal, heterozygous and galactosemic strains is determined throughout the culture cycle of human fibroblasts using a new direct method of assay. The enzyme activities of high-density, stationary-phase cultures define three nonoverlapping classes, which correspond to the genotypes of the donors. During rapid growth, however, galactosemic strains show near-normal transferase activity. The incorporation of ¹⁴C from ¹⁴C₁-galactose by living cells is measured. While heterozygous strains do not appear to differ from normal controls, homozygous mutant cells incorporate ¹⁴C at about one-half the normal rate throughout the culture cycle. Variables affecting the assay are investigated and the implications of our results for further genetic studies of mutations affecting transferase are discussed.Paper # 1105 from the Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin. This work was supported by the National Institutes of Health (Grants # GM-08217, # GM-398, and # GM-06983).