Direct demonstration of genetic alterations at the dihydrofolate reductase locus after gamma irradiation.

Gamma ray-induced mutants of Chinese hamster ovary cells lacking dihydrofolate reductase activity were screened for DNA sequence changes at the locus specifying this activity by using a cloned cDNA probe. Two of nine mutants screened displayed an altered restriction fragment pattern suggesting the occurrence of DNA deletions or rearrangements.

Adeno-associated virus gene expression inhibits cellular transformation by heterologous genes.

In this paper we report that adeno-associated virus (AAV) genomes inhibit stable transformation by several dominant selectable marker genes upon cotransfection into mouse tissue culture cells. Cotransfection of AAV genomes also inhibited the expression of pSV2cat in transient assays. In both cases, the inhibitory effect was independent of AAV DNA replication but required the AAV p5 and p19 genes, which encode proteins required for AAV DNA replication and regulation of AAV gene expression. Finally, addition of a cloned E4 gene in the transfection experiments partially blocked the AAV-mediated inhibitory activities.

DNA-mediated transfer of human melanoma cell surface glycoprotein gp130: identification of transfectants by erythrocyte rosetting.

DNA sequences encoding a human melanoma membrane-bound sialoglycoprotein of 130,000 molecular weight (gp130) were introduced into a clonal derivative of mouse B-16 melanoma cells with the selectable neomycin resistance gene (aminoglycoside phosphotransferase). Mouse transfectants were identified by a rapid and precise screening method with mouse monoclonal antibodies and erythrocyte rosetting. The frequency of gp130 transfectants was approximately 1 in 2,000 to 5,000 colonies with neo+ cells. Analysis of secondary mouse transfectants has revealed that the transfected gp130 has a molecular weight, isoelectric point, intracellular processing, peptide map, and spatial orientation of surface-exposed epitopes indistinguishable from those seen with gp130 from human melanoma cells. In contrast to primary transfectants, secondary transfectants expressing gp130 lack demonstrable human repetitive sequences.

Interspecific DNA-mediated transfer and amplification of a gene specifying a Mr 100,000 human melanoma-associated cell surface glycoprotein.

The gene that encodes the membrane-bound Mr 100,000 human melanoma-associated antigen (MAA) defined by mouse mAb 376.96, a leukocyte and fibroblast interferon-modulated glycoprotein having preferential distribution on melanoma and carcinoma cells, has been transfected into the mouse melanoma cell line B78H1 as a step toward molecular cloning and characterization of the MAA. Primary, secondary, and tertiary B78H1 transfectants expressing the Mr 100,000 MAA gene were generated by treatment with coprecipitated DNA from Mr 100,000 MAA+ human or transfectant mouse cells and they were detected by an indirect RBC rosetting assay. The Mr 100,000 MAA gene was also transferred into K-1735 mouse melanoma cells and into nonmalignant and malignant mouse fibroblast lines. The species immunoprecipitated by mAb 376.96 from human melanoma cells (Mr 100,000) and from mouse melanoma transfectant cells (Mr 97,000-100,000) were both converted to molecule(s) having an Mr of approximately 70,000 by enzymatic removal of asparagine-linked carbohydrate residues. Two independent secondary transformant clones of B78H1 cells express Mr 100,000 MAA antigenicity at levels significantly higher than those observed when one or two copies of the gene are present. Clone Mr 100,000 secondary-A spontaneously overexpresses Mr 100,000 MAA at least 5-fold and has greater than or equal to 10 times elevated levels of putatively Mr 100,000 MAA gene-associated human alu family repeat element (h-alu)-positive restriction fragments relative to "single" copy secondary transfectant cells. Clone Mr 100,000 secondary-B has increased copy number and expression of Mr 100,000 MAA as a consequence of a selective co-amplification procedure which is targeted to a mouse wild type dihydrofolate reductase (dhfr) gene expression vector. This vector was co-introduced into B78H1 cells in addition to the DNA of Mr 100,000 MAA+ primary transfectant cells and the initially selected aminoglycoside phosphotransferase (neo) gene vector. Stepwise selections of a secondary Mr 100,000 MAA+ transfectant clone with increasing concentrations of the dihydrofolate reductase-inhibitory antimetabolite methotrexate led to progressive increases in copy numbers of the introduced dhfr gene and to parallel increases in h-alu sequences, in cellular levels of dihydrofolate reductase protein, and in cellular mAb 376.96 reactivity. Levels of these entities ultimately reached 50-fold, relative to levels expressed prior to amplification. The array of h-alu+ restriction fragments amplified in Mr 100,000 secondary-B cell DNA is very similar to that observed in Mr 100,000 secondary-A cell DNA.(ABSTRACT TRUNCATED AT 400 WORDS)

Oxidant inhibition of alphaLbeta2 integrin adhesion: evidence for coordinate effects on conformation and cytoskeleton linkage.

Dithiothreitol (DTT) and other dithiol antioxidants with closely spaced thiol pairs strongly activate leukocyte function antigen-1 (LFA-1, alphaLbeta2 integrin) to bind intercellular adhesion molecule-1 (ICAM-1). Because direct biochemical modification of LFA-1 by DTT is not apparently involved, we investigated the possible role of a reduction-oxidation (redox)-sensitive adhesion-regulatory pathway. Phenylarsine oxide (PAO), an oxidant selectively reactive with closely spaced pairs of thiol groups, inhibited LFA-1-dependent adhesion of human natural killer and HSB2 T leukemia cells to murine cells expressing human ICAM-1. PAO also induced disappearance of a conformation-sensitive LFA-1 epitope recognized by KIM127 antibodies and promoted an increase in total apparent cytoskeleton-linked LFA-1 in which a novel cytochalasin D-resistant linkage was involved. Exposure of PAO-pretreated cells to DTT caused a decline in LFA-1/cytoskeleton linkages in conjunction with rapid restoration of KIM127 epitope expression and LFA-1 adhesive function. Implicating an intracellular site of action were findings that (1) an epitope-tagged PAO probe bound predominantly to intracellular proteins but not detectably to immunoprecipitation-purified LFA-1 chains, and (2) membrane permeant but not impermeant dithiol antioxidants reversed PAO adhesion-inhibitory effects. These results support the concept of a reversible redox-sensitive linkage between LFA-1 and cytoskeleton by which oxidants and antioxidants may exert profound opposing effects on LFA-1 conformation and adhesive function.

Mutations in the c-erbA beta 1 gene: do they underlie euthyroid fibromyalgia?

Fibromyalgia, a chronic condition of widespread pain, stiffness, and fatigue, has proven unresponsive to drugs, the use of which is based on the 'serotonin-deficiency hypothesis'. An alternative hypothesis-failed transcription regulation by thyroid hormone-can explain the serotonin deficiency and other objective findings and symptoms of euthyroid fibromyalgia. Virtually every feature of fibromyalgia corresponds to signs or symptoms associated with failed transcription regulation by thyroid hormone. In hypothyroid fibromyalgia, failed transcription regulation would result from thyroid-hormone deficiency. In euthyroid fibromyalgia, failed transcription regulation may result from low-affinity thyroid hormone receptors coded by a mutated c-erbA beta 1 gene, yielding partial peripheral resistance to thyroid hormone. The hypothesis of this paper is that, in euthyroid fibromyalgia, a mutant c-erbA beta 1 gene (or alternately, the c-erbA alpha 1 gene) results in low-affinity thyroid-hormone receptors that prevent normal thyroid hormone regulation of transcription. As in hypothyroidism, this would cause a shift toward alpha-adrenergic dominance and increases in both cyclic adenosine 3'-5'-phosphate phosphodiesterase and inhibitory Gi proteins. The result would be tissue-specific hypothyroid-like symptoms despite normal circulating thyroid-hormone levels.

Human melanoma-associated antigens.

The rapid advance of the immunogenetic study of melanoma provides a continually evolving view of antigens of melanoma cells as topological expressions of somatic and germline events related to melanocytic malignancy. In particular, characterization of the repertoire of melanoma-associated antigens restricted to subsets of cells representing particular stages of development, differentiation, or malignancy has increased rapidly owing to the availability of monoclonal antibodies. Certain of these MAA are influenced, in their display on melanoma cells, by expression of cellular oncogenes, which may play a role in the etiology or the progression of cancer, whereas other subsets of MAA are responsive to modulation by alpha-, beta-, or gamma-IFNs. As information about the nature, the cell specificity of distribution, and the genetic linkages of MAAs continues to accrue, it is likely that certain MAA will be recognized as markers for somatic or germline chromosomal events or for classic mutations involved in the etiology and the progression of melanoma. Most importantly, increased biologic understanding of MAA is likely to be accompanied by further advances in currently promising efforts to exploit MAA and the corresponding MAbs for immunodiagnostic and immunotherapeutic ends. Demonstrated cloning of genes encoding two MAA and preliminary suggestion of successful isolation of the gene for a third MAA presage use of the formidable resources of recombinant DNA technology to further the immunogenetic study and the clinical utilization of these markers for melanoma.

Expression of insulin-like growth factor I (IGF-I) in nevi and melanomas.

Expression of IGF-I mRNA and protein was evaluated in pigmented lesions by in situ hybridization and immunohistochemistry. An IGF-I cDNA clone (phigf1) was subcloned into pBluescript KS II-. Both sense and antisense 35S riboprobes were prepared and used for in situ hybridization on formalin-fixed, paraffin-embedded specimens. Control hybridizations with a beta-actin probe were also performed. Grains were counted in 787-microns2 melanocytic areas of sections hybridized with the antisense IGF-I probe. Seven common nevi contained a mean of 218 grains; nine dysplastic nevi, a mean of 463 grains; eight early primary melanomas, a mean of 402 grains; five advanced primary melanomas, a mean of 217 grains; and nine metastatic melanomas, a mean of 194 grains. The differences between common and dysplastic nevus, common nevus and early melanoma, early and advanced primary melanoma, and early primary melanoma and metastatic melanoma were statistically significant. Keratinocytes also expressed abundant IGF-I message. IGF-I protein was demonstrable by immunohistochemistry in melanocytes and keratinocytes. These results suggest that progression-associated variation occurs in the net expression of IGF-I mRNA in melanocytic tumors.

Cytotoxic activity toward mouse melanoma following immunization of mice with transfected cells expressing a human melanoma-associated antigen.

B78H1 is a mouse melanoma cell line that is weakly antigenic in syngeneic mice. In an attempt to augment their immunogenicity, B78H1 cells were transfected with genomic DNA from a line of human melanoma cells expressing a 96-kDa melanoma-associated antigen (ICAM-1). A selective co-amplification procedure was employed that generated a population of transfected cells (Ui11) that expressed fivefold higher quantities of the melanoma-associated antigen than the cells from which the DNA was obtained. To test the transfected cells' relative capacity to generate a cellular immune response against B78H1 cells, Ui11 cells and B78H1 cells were administered (in parallel) to syngeneic C57BL/6 mice, susceptible to the growth of the melanoma. Each cell line (lethally irradiated beforehand) was injected intraperitoneally at weekly intervals into the mice. After two or three injections, a standard chromium-release assay was employed to detect the presence of cellular immunity toward B78H1 cells. The population of spleen cells from mice immunized with the transfected melanoma cells exhibited higher levels of cytotoxicity toward B78H1 cells than spleen cells from mice immunized with equivalent numbers of nontransfected cells. This observation is consistent with the notion that the transfected human melanoma-associated antigen acted as a "second antigen" capable of potentiating cellular immune responses against the weakly immunogenic determinants of the mouse melanoma cells. The introduction of genes for foreign antigens into weakly antigenic tumor cells may generate immunogens that can lead to augmented anti-tumor cellular immune responses.

Transformation of the gene for hypoxanthine phosphoribosyltransferase.

Purified DNA from wild-type Chinese ovary (CHO) cells has been used to transform three hypoxanthine phosphoribosyltransferase (HPRT) deficient murine cell mutants to the enzyme positive state. Transformants appeared at an overall frequency of 5 x 10(-8) colonies/treated cell and expressed CHO HPRT activity as determined by electrophoresis. One gene recipient, B21, was a newly isolated mutant of LMTK- deficient in both HPRT and thymidine kinase (TK) activities. Transformation of B21 to HPRT+ occurred at 1/5 the frequency of transformation to TK+; the latter was, in turn, an order of magnitude lower than that found in the parental LMTK- cells, 3 x 10(-6). Thus both clonal and marker-specific factors play a role in determining transformability. The specific activity of HPRT in transformant extracts ranged from 0.5 to 5 times the CHO level. The rate of loss of the transformant HPRT+ phenotype, as measured by fluctuation analysis, was 10(-4)/cell/generation. While this value indicates stability compared to many gene transferents, it is much greater than the spontaneous mutation rate at the indigenous locus. The ability to transfer the gene for HPRT into cultured mammalian cells may prove useful for mutational and genetic mapping studies in this well-studied system.

New class of streptomycin-resistant mutants incompatible with supX suppressor mutations in Salmonella typhimurium.

Streptomycin-resistant colonies of Salmonella typhimurium appearing in platings of supX suppressors of strain leu-500 are less variegated in size than are those derived from strain leu-500 counterparts. Several of the streptomycin-resistant leu-500 clones, furthermore, yield suppressors and revertants of the leu-500 auxotrophy at unusually low rates, suggesting that they provide a genetic background inimicable to supX suppression. Two such "suppression-restrictive" leu-500 streptomycin-resistant (str) mutants, designated strains M(1) and M(4), were characterized as to their ability to receive the trp-supX-cysB linkage region by transduction. Coentry of a donor supX deletion mutation with the selected trp(+) marker was not observed even though these sites display more than 10% linkage in control experiments. This was demonstrably the result of nonviability of the combined supX mutant, M(1) or M(4) streptomycin-resistant genotype, rather than the lack of suppression of the leu-500 imparted auxotrophy. Both M(1)- and M(4)-type resistance was accompanied by pleiotropic effects resembling those caused by strB (nonribosomal)- rather than strA (ribosomal)-type resistance, but both restrictive mutants had a high upper limit of resistance corresponding to that of strA-type mutants. Transduction analyses indicated that the str character of neither the M(1) nor the M(4) strain was linked to the strA or the strB gene. These mutations define a previously undescribed locus, which we propose to designate strC, apparently related to streptomycin uptake rather than its intracellular action. Mutation at this locus is evidently incompatible with the inactivation or removal of the supX site, suggesting a functional association between products of the genes.

Efficient DNA-mediated transfer of selectable genes and unselected sequences into differentiated and undifferentiated mouse melanoma clones.

We have found that three phenotypically dissimilar mouse B16 melanoma subclones are competent recipients for DNA-mediated gene transfer. Two of these approach and a third, amelanotic clone B78H1, surpasses mouse LTK cells in frequencies of transferent colony formation after treatment with either of two codominantly selectable plasmid vectors, pSV2gpt or pGCcos3neo. Melanoma transferents incorporate both selectable plasmid-homologous sequences and substantial amounts of unselected donor DNA into their cellular DNAs. In addition they retain the distinctive states of differentiation characteristic of the untreated clones. Frequencies of pGCcos3neo-mediated transfer of neo gene-encoded antibiotic resistance into B78H1 can reach 10(-2) in response to treatment with as little as 15 ng plasmid/ml coprecipitate/dish. B78H1 cells readily give rise to "secondary" transferents for the neo gene after treatment with DNA from a "primary" B78H1 neo transferent. This gene transfer system has potential applications for study of regulation of melanoma and neural crest differentiation and malignancy.

CD45-cross-linking stimulates IFN-gamma production in NK cells.

The in vitro demonstration of the ability of NK cells to secrete cytokines prompted in vivo studies that illustrated the importance of NK cell-derived cytokines in regulating immune responses. Cross-linking of CD16 on NK cells can stimulate cytokine production. CD16-independent interactions capable of stimulating cytokine production have also been described, but molecules mediating such stimulations remain to be biochemically defined. We report here that cross-linking of CD45 specifically stimulates IFN-gamma production in human NK cells. The NK cells used were IL-2-activated adherent NK cells and from the NK3.3 cell line. The ability of CD45 mAbs to stimulate NK cells appears not to be dependent on CD16, as CD45 mAbs of both IgG1 and IgG2a isotypes were equally stimulatory, as were F(ab')2 compared with whole anti-CD45 mAbs. Resting NK cells, like T cells, express predominantly CD45RA, whereas IL-2 activated adherent NK cells acquire expression of CD45RO. Abs specific for CD45RO, but not CD45RA, were able to stimulate IFN-gamma production in NK cells. It has been reported that one ligand for CD45RO is CD22 beta. We tested the ability of CD22-expressing transfectants to bind to and stimulate NK cells. Whereas NK cells bound to CD22 alpha and CD22 beta transfectants, this interaction was not inhibited by CD45RO Abs. In addition, neither of the CD22-transfectants were able to stimulate NK3.3 cells to secrete IFN-gamma. These observations collectively suggest that binding of NK3.3 cells to CD22 may be independent of CD45RO on NK3.3 cells.

Mechanism of catecholamine-mediated destabilization of messenger RNA encoding Thy-1 protein in T-lineage cells.

The Ig superfamily cell surface glycoprotein Thy-1 expressed on immune cells and neurons of rodents and humans is hypothesized to function in cell adhesion and signal transduction in T cell differentiation, proliferation, and apoptosis. This study analyzes effects of cAMP and catecholamines on transcriptional Thy-1 gene expression. Incubation of murine thymocytes or S49 mouse thymoma cells with dibutyryl-cAMP, 8-bromo-cAMP, cholera toxin, norepinephrine, or isoproterenol caused time- and concentration-dependent decreases in levels of Thy-1 mRNA assayed by Northern hybridization or T2 nuclease protection. After 4 h of treatment with 500 microM dibutyryl-cAMP or 8-bromo-cAMP, 1 nM cholera toxin, 100 microM norepinephrine, or 100 microM isoproterenol, Thy-1 mRNA levels were 60 to 96% lower than those of controls. Norepinephrine-mediated decreases in Thy-1 mRNA levels were prevented by the beta-adrenergic receptor antagonist propranolol (10 microM). Dibutyryl-cAMP and norepinephrine decreased the apparent half-life of S49 cell Thy-1 mRNA from >>6 h to 2 to 3 h, whereas nuclear run-on assays showed no cAMP or norepinephrine effect on de novo transcription of the Thy-1 gene. In mutant S49 cells lacking cAMP-dependent protein kinase A, neither dibutyryl cAMP nor norepinephrine affected Thy-1 mRNA levels. These observations show that exogenous cAMP and norepinephrine can induce decreases in steady state Thy-1 mRNA levels in T-lineage cells through posttranscriptional destabilization of Thy-1 mRNA, associated with protein kinase A-mediated protein phosphorylation. Catecholamine-mediated beta-adrenergic protein kinase A-dependent Thy-1 mRNA destabilization may be an example of a more general mRNA decay system regulating cellular responses to stress.

CD54/ICAM-1 is a costimulator of NK cell-mediated cytotoxicity.

The receptors and the array of cell adhesion molecules regulating MHC-unrestricted cytotoxic activity of NK cells toward tumor targets have not completely characterized. Antibody inhibition studies suggest roles for a number of cell adhesion molecules (CAMs). Recent studies suggest that CAMs can function to stabilize cell-to-cell interactions and/or to provide costimulatory signals that are crucial for T cell activation. It has been difficult to experimentally demonstrate that adhesion molecules also function as costimulators in NK cell-mediated cytotoxicity. We have developed an experimental system using cells transfected with genes encoding huICAM-1 and/or LFA-3 to investigate the function of adhesion molecules. Here we report that neither the expression of transfected ICAM-1 or LFA-3 alone nor the expression of both ICAM-1 and LFA-3, in the absence of MHC class I molecules, converts a murine cell line that is resistant to NK cell-mediated lysis into a susceptible one. We next tested the ability of ICAM-1 or LFA-3-mediated interactions to provide costimulation of NK cell cytolytic activity using a "three cell" experimental system comprising human NK cells, 51C-labeled target cells, and transfected mouse cells as a source of costimulation. The ability of NK cells to lyse K562 cells or anti-CD16-coated target cells was significantly enhanced by the addition of ICAM-1-transfected cells, whereas the addition of cells transfected with LFA-3 or irrelevant genes did not enhance lytic activity. Since the transfected huICAM-1 interacts with NK cells at sites spatially separate from the NK cell-target cell interactions, our data suggest that LFA-1-ICAM-1 or MAC-1-ICAM-1 interactions can provide remote costimulation, via signaling events, to induce cytotoxic activity in NK cells.

ICAM-1 and LFA-3 enhance the ability of anti-CD3 mAb to stimulate interferon gamma production in interleukin-2-activated T cells.

Interleukin-2 (IL-2)-activated killer cells, also referred to as lymphokine-activated killer (LAK) cells, are stimulated by tumor cells to express cytotoxic activity and to also secrete cytokines such as interferon gamma (IFN gamma) and tumor necrosis factor alpha (TNF alpha). We previously reported that secretion of cytokines by IL-2-activated T cells (LAK-T cells) is dependent on the initial cross-linking of the T cell receptor (TCR)-CD3-molecular complex, but the cross-linking of accessory molecules, such as LFA-1, CD2, CD44 and CD45, on LAK-T cells can enhance this cytokine production. We have developed an approach involving interspecific gene transfer to define further the contributions of LFA-1 and CD2 to the activation of LAK-T cells. The genes for huICAM-1 (a ligand for LFA-1) and huLFA-3 (a ligand for CD2) were transfected singly and in combination into a null mouse melanoma background, and clonal populations of cells that stably express ICAM-1 and/or LFA-3 were derived. Expression of the introduced ICAM-1 and/or LFA-3 by transfected cells enhanced their ability to bind LAK-T cells; the LFA-1/ICAM-1-mediated binding was not further enhanced by activation with phorbol 12-myristate 13-acetate. ICAM-1- and/or LFA-3-transfected cells, in the presence of immobilized anti-CD3, exhibited a greater ability to stimulate IFN gamma secretion by LAK-T cells compared to the untransfected parental lines. This experimental system, which allows ICAM-1/LFA-1 and CD2/LFA-3 interactions to occur on the LAK-T cell at a site distal from the anti-CD3 signal, extends our understanding of LAK-T cell activation by establishing that both LFA-1/ICAM-1 and CD2/LFA-3 can mediate co-stimulation via adhesion and signaling events.

Stimulation of IFN-gamma, TNF-alpha, and TNF-beta secretion in IL-2-activated T cells: costimulatory roles for LFA-1, LFA-2, CD44, and CD45 molecules.

Lymphokine-activated killer (LAK) cells are peripheral blood lymphocytes (PBLs) that possess the ability to kill target cells in a non-major histocompatibility complex (MHC)-restricted manner. Both NK and T cells can be stimulated with interleukin-2 (IL-2) to become LAK cells. We previously reported that the interaction of LAK cells with tumor cells also induces the secretion of interferon-gamma (IFN-gamma). The NK subset of LAK (LAK-NK) cells is stimulated by tumor cells to secrete IFN-gamma in a non-MHC-restricted manner while the T cell subset of LAK (LAK-T) cells is stimulated to secrete IFN-gamma upon cross-linking of the T cell receptor (TCR)-CD3 complex. We here report that LAK-T cells stimulated with anti-CD3 mAbs and tumor cells secrete two additional cytokines, tumor necrosis factor-alpha (TNF-alpha) and TNF-beta/lymphotoxin (TNF-beta). In addition, we demonstrate that at least four other structurally unrelated molecules, in addition to the TCR-CD3 complex, on LAK-T cells participate in the stimulation of IFN-gamma, TNF-alpha, and TNF-beta production. These molecules are the lymphocyte function associated antigen-1 (LFA-1), lymphocyte function associated antigen-2 (LFA-2), CD44, and CD45. LFA-1 is an integrin, LFA-2 is a member of the immunoglobulin supergene family, CD44 is homologous to the cartilage link proteins, and CD45 is a tyrosine phosphatase. Ligands to three of these molecules have been identified; ICAM-1, LFA-3, and hyaluronic acid binding to LFA-1, LFA-2, and CD44, respectively. LFA-1, LFA-2, and CD44 are reported to function both as adhesion molecules and as costimulators in resting T cells. Our data suggest that these three molecules enhance IFN-gamma, TNF-alpha, and TNF-beta production by augmenting LAK-T cell to tumor cell adhesion and also by functioning as costimulators.

Heat-stable enterotoxin of Escherichia coli: in vitro effects on guanylate cyclase activity, cyclic GMP concentration, and ion transport in small intestine.

A partially purified preparation of the heat-stable enterotoxin of Escherichia coli caused a rapid and persistent increase in electric potential difference and short-circuit current when added in vitro to the luminal surface of isolated rabbit ileal mucosa. As little as 1 ng/ml produced an easily detectable response. Under short-circuit condition, the enterotoxin abolished net Cl- absorption; this change was half that produced by theophylline, which stimulated net secretion. The enterotoxin did not change cyclic AMP concentration but caused large and persistent increases in cyclic GMP concentration. The electrical and nucleotide responses exhibited similar and unusually broad concentration-dependences and maximal effects could not be demonstrated. Theophylline elevated cyclic GMP concentration 3-fold both in the presence and absense of the enterotoxin, suggesting no effect of the toxin on cyclic GMP phosphodiesterase. Guanylate cyclase [GTP pyrophosphatelyase(cyclizing); EC 4.6.1.2] activity in a crude membrane fraction from intestinal epithelial cells was stimulated 7-fold by the enterotoxin. These results suggest that guanylate cyclase stimulation is the basis for the toxin's diarrheagenic effect.

Isolation of nontoxinogenic mutants of Vibrio cholerae in a colorimetric assay for cholera toxin using the S49 mouse lymphosarcoma cell line.

A mouse lymphosarcoma (S49) cell line that is growth-inhibited by agents that elevate intracellular concentrations of adenosine 3':5'-cyclic phosphate was used in a sensitive and convenient colorimetric assay for cholera toxin. S49 cells suspended in Dulbecco's modified Eagle's minimal essential medium containing 10(-5)--10(-6) M RO 20-1724, an analogue of 4-(3,4-demethoxybenzyl)-2-imidazolidinone and a phosphodiesterase inhibitor, were growth-inhibited by subnanogram concentrations of cholera toxin. Effects of toxin were detected by the absence of a yellow pH change (phenol red indicator) which normally accompanies the production of acid metabolites by lymphoma cells. An assay using S49 cells grown in microtiter plates, which is capable of detecting 10 pg of cholera toxin or 0.01 units of cholera antitoxin, was used in screening for nontoxinogenic mutants of Vibrio cholerae strain 569B. The properties of two mutants of the Tox--phenotype, which lacked biologically and immunologically detectable toxin products, are described.