T-cell neoplasm induced by subcutaneous transplantation of a plasmacytoma: characterization of tumor cells.

Thymocytes, isolated 6 days following subcutaneous (sc) transplantation of BALB/c MOPC-315 plasmacytoma into F₁ (BALB/c × C57BL) hybrid mice, when injected sc into normal syngeneic mice, caused the development of a solid sc tumor. The cells of the newly developed tumor were of a mixed population of θ⁺F₁ (BALB/c × C57BL) and θ^? BALB/c cells (approximately 1:1), which represents a new type of mixed T cell-plasma cell neoplasm. Efforts were made to isolate the transformed thymocytes (θ⁺) from the plasmacytoma (θ^?) cells in the new tumor, exploiting differences in their surface properties. Treatment of the mixed tumor cell population with peanut agglutinin (PNA) revealed that only the T tumor cells were agglutinated. The agglutinated cells were recovered after dispersing the clumps with d-galactose (0.15 M) and consisted of 95% θ⁺ cells. The PNA-agglutinated cells were found to induce a similar tumor (85% θ⁺ cells) when injected sc into F₁ (BALB/c × C57BL) mice.     

Antagonistic effects of insulin and cortisol on coordinate control of metabolism and growth in cultured fibroblasts

A variety of metabolic and biosynthetic pathways in chick embryo fibroblasts are stimulated coordinately by many unrelated exogenous agents. Three of the best characterized components of this coordinate response are the uptake of 2-deoxy-D-glucose (2-dGlc) and of uridine and the incorporation of thymidine into DNA. Insulin stimulates and cortisol inhibits the coordinate response. In cortisol-treated cultures, as little as 10^?3 units/ml of insulin may stimulate thymidine incorporation 4-fold and 10^?1 units/ml may stimulate as much as 40-fold. The higher concentrations of insulin completely override the inhibitory effect of cortisol. They also cause about a 5-fold stimulation of the uptake of 2-dGlc and of uridine and a 2-fold stimulation of proline incorporation into protein. The uptake rates of 2-dGlc and uridine double within 30 minutes after addition of insulin to cortisol-inhibited cultures, but the incorporation of thymidine only begins to increase markedly after a 4-hour delay. When cortisol is added to cultures in the absence of insulin, the rates of uptake of 2-dGlc and uridine begin to decrease within two hours, but the incorporation of thymidine remains constant for two hours before beginning to decrease. Deprivation of Mg²⁺ inhibits the accelerated coordinate response maintained by insulin, but does not further the inhibition induced by cortisol. Results with metabolic inhibitors indicate that the stimulation of 2-dGlc and uridine uptake by insulin do not require RNA synthesis, and also suggest that they do not require protein synthesis. These and other findings can be explained by a model for coordinate control in which insulin increases and cortisol decreases the availability of Mg²⁺ for a wide spectrum of regulatory reactions in different metabolic pathways. In this model both hormones affect only the rates of ongoing reactions and do not instruct the cell to carry out specific new reactions unless the cell was predetermined to do so.     

Functional alterations induced by fusarium T-2 toxin in Madin-Darby bovine Kidney (MDBK) and primary fetal bovine Kidney (PFBK) cultures

We recently reported that primary fetal bovine Kidney (PFBK) cells were consistently more sensitive to the cytotoxic effects of fusarium T-2 toxin than Madin-Darby bovine kidney (MDBK) cells in culture. The present report examined the influence of T-2 on selected biochemical parameters of these two culture types. T-2 toxin inhibited incorporation of labeled thymidine, uridine, and leucine in both culture types; at lower concentrations of the toxin, PFBK cells were affected to a greater extent than MDBK cells. T-2 toxin inhibited both the transport of thymidine as well as thymidine incorporation into macromolecules in MDBK cells during initial periods, but did not affect uridine incorporation. The cellular enzymes, K⁺- dependent phosphatase and succinic dehydrogenase were inhibited in MDBK but not in PFBK cultures; acid phosphatase was not influenced in either culture types. In a cell-free system none of the above enzymes were affected by T-2 until the toxin concentration exceeded 10^?5M.     

Acquisition of thymidylate by the obligate intracytoplasmic bacterium Rickettsia prowazekii.

The pathway for the acquisition of thymidylate in the obligate bacterial parasite Rickettsia prowazekii was determined. R. prowazekii growing in host cells with or without thymidine kinase failed to incorporate into its DNA the [3H]thymidine added to the culture. In the thymidine kinase-negative host cells, the label available to the rickettsiae in the host cell cytoplasm would have been thymidine, and in the thymidine kinase-positive host cells, it would have been both thymidine and TMP. Further support for the inability to utilize thymidine was the lack of thymidine kinase activity in extracts of R. prowazekii. However, [3H]uridine incorporation into the DNA of R. prowazekii was demonstrable (973 +/- 57 dpm/3 x 10(8) rickettsiae). This labeling of rickettsial DNA suggests the transport of uracil, uridine, uridine phosphates (UXP), or 2'-deoxyuridine phosphates, the conversion of the labeled precursor to thymidylate, and subsequent incorporation into DNA. This is supported by the demonstration of thymidylate synthase activity in extracts of R. prowazekii. The enzyme was determined to have a specific activity of 310 +/- 40 pmol/min/mg of protein and was inhibited greater than or equal to 70% by 5-fluoro-dUMP. The inability of R. prowazekii to utilize uracil was suggested by undetectable uracil phosphoribosyltransferase activity and by its inability to grow (less than 10% of control) in a uridine-starved mutant cell line (Urd-A) supplemented with 50 microM to 1 mM uracil. In contrast, the rickettsiae were able to grow in Urd-A cells that were uridine starved and supplemented with 20 microM uridine (117% of control). However, no measurable uridine kinase activity could be measured in extracts of R. prowazekii. Normal rickettsial growth (92% of control) was observed when the host cell was blocked with thymidine so that the host cell's dUXP pool was depressed to a level inadequate for growth and DNA synthesis in the host cell. Taken together, these data strongly suggest that rickettsiae transport UXP from the host cell's cytoplasm and that they synthesize TTP from UXP.     

Ligand-dependent modulation of membrane phospholipid metabolism in ConA-stimulated lymphocytes

Human peripheral lymphocytes were activated by ConA in serum-free culture medium, supplemented by BSA. Incorporation of [³H]thymidine into DNA, of [³H]uridine into RNA and of oleate or acetate into membrane phospholipids was investigated. DNA synthesis could be completely inhibited by αMM or by anti-ConA-IgG. Fab and F(ab)₂ fragments of the anti-ConA were equally active. When αMM or anti-ConA was added to cultures at different times after stimulation with ConA, incorporation of [³H]thymidine into DNA (measured after 72 h) could be prevented up to 6–8 h completely and up to 20–30 h partially. Incorporation of [³H]uridine into RNA could be arrested at any time of the culture up to 40 h at the level it had reached but did not reverse to the level of unstimulated cells for a long time. In contrast, incorporation of oleate into lecithin returned to the level of unstimulated cells within 2–3 h after removal of ConA. This suggests that the activation of the phospholipid turnover in stimulated cells is a direct consequence of the presence of the mitogen at the membrane and thus may be a critical initial event in lymphocyte activation.     

Cryoprotection of murine lymphocyte subpopulations using a microprocessor-controlled cooling system

Single-cell suspensions of splenic lymphocytes from 5- to 6-month-old C57BL/6 mice were cryopreserved using cooling rates ranging from ?0.25 to ?10.0 °C/min with the microprocessor-controlled cooling system developed in our laboratory. The cells (30 × 10⁶ cells/ml) were suspended in RPMI 1640 containing 10% FCS and 10% DMSO, and a total volume of 1.75 ml was frozen. Fluorescein-diacetate staining identified viable cells in unfrozen controls and frozen-thawed suspensions. Functional capacity was assessed in vitro by the incorporation of [³H]thymidine by dividing cells activated with graded concentrations of the T-lymphocyte mitogens, PHA-P and Con A, and the B-lymphocyte mitogen, LPS. High percentages of viable cells were recovered after cooling at rates ranging from ?0.5 to ?5.0 °C/min, as compared with those of unfrozen control suspensions. Incorporation of [³H]thymidine by T and B cells reached similar levels after cooling at rates ranging from ?0.25 to ?5.0 °C/min, and the percentage incorporation of [³H]thymidine as compared with that of unfrozen cells was 80–100%, except for T lymphocytes activated with PHA-P after cooling at ?5.0 °C/min. The relative response of cell suspensions to T- and B-cell mitogens, the relative mitogenic index, was unchanged from that of unfrozen controls in suspensions cooled at all rates including two (?0.25 and ?10.0 °C/min), which permitted recovery of only 55% of unfrozen cells. The importance of the constant cooling rates and rapid compensation for heat released at the phase change using the microprocessor-controlled system and of precise determinations of cellular viability and function are discussed and related to the apparent protection conferred on subpopulations of murine lymphocytes using cooling rates ranging from ? 0.25 to ?10.0 °C/min.     

Stimulation of splenic T cells on syngeneic monolayers of epidermal basal cells (EBC) in mice. Regulation by Lyt 1+ and Lyt 2+ cell subsets

Syngeneic proliferative response of splenic T cells against monolayers of epidermal basal cells (EBC) was obtained with C57BL/6 and DBA/2 mice. Optimal response, as assessed by [³H]thymidine uptake, occurred on the 6th day of coculture. The level of [^3H]thymidine uptake by unseparated spleen cells was lower than by fractionated T cells from C57BL/6 mice, and null for DBA/2 mice. It was not significantly different when lymphocytes were cocultured with syngeneic or allogeneic epidermal cells. Ia antigens did not appear to be involved in the syngeneic response, since it was not prevented by pretreating stimulator monolayers with monoclonal anti-Ia^k antibody or by adding this antibody directly to the cultures. When the proliferative responses of separated Lyt 1⁺ and Lyt 2⁺ cell subsets were compared, the prominent role of Lyt 1⁺ cells was demonstrated. Enhancement of the T-cell reactivity by eliminating Lyt 2⁺ cells and suppression of the response of a constant number of Lyt 1⁺ cells by adding Lyt 2⁺ cells suggested that Lyt 2⁺ cells could suppress and modulate the Lyt 1⁺ cell proliferation.     

Nucleotide pools of Novikoff rat hepatoma cells growing in suspension culture. II. Independent snucleotide pools for nucleic acid synthesis

Novikoff rat hepatoma cells (subline NlSl-67) in suspension culture incorporate ³H-5-uridine into the acid-soluble nucleotide pool more rapidly than into RNA, resulting in the accumulation of labeled UTP in the cells. When labeled uridine is removed from the medium after 20 minutes or 4.75 hours of labeling, the rate of incorporation of label from the nucleotide pool into RNA decreases to less than 10% of the original rate within five to ten minutes, in spite of the presence of a large pool of labeled UTP in the cells, and incorporation ceases completely if an excess of unlabeled uridine is present during the chase. Upon addition of ¹⁴C-uridine to ³H-uridine pulse-labeled, chased cells, the ¹⁴C begins to be incorporated into RNA without delay and at a rate predetermined by the concentration of ¹⁴C-uridine in the medium and without affecting the fate of the free ³H-nucleotides labeled during the pulse-period. The results are interpreted to indicate that uridine is incorporated into at least two different pools, only one of which serves as primary source of nucleotides for RNA synthesis. During active synthesis of RNA, the latter pool of free nucleotides is very small and rapidly exhausted when uridine is removed from the medium. However, UTP accumulates in this pool when cells are labeled at 4–6°, since at this temperature RNA synthesis is blocked while uridine is still phosphorylated by the cells, and the UTP is rapidly incorporated into RNA during a subsequent ten-minute chase at 37°. From these types of experiments it is estimated that only 20–25% of the total uridine nucleotides formed in the cells from uridine in the medium is directly available for RNA synthesis and that the remainder becomes available only at a slow rate. Evidence is presented which suggests that one uridine nucleotide pool is located in the cytoplasm and another in the nucleus and that mainly the nuclear pool supplies nucleotides for RNA synthesis. The size of the latter pool is under strict regulatory control, since preincubation of the cells with 0.5 mM unlabeled uridine has little or no effect on the subsequent incorporation of ³H-uridine, although it results in an increase of the overall cellular uridine nucleotide content to at least 5 mM. Other results indicate that adenosine is also incorporated into two independent nucleotide pools, whereas the cells normally appear to possess a single thymidine nucleotide pool.     

Modulation by zinc chloride of concanavalin A binding to rat thymocytes and early inhibition of lectin-induced blastogenesis.

Zinc chloride was shown to modulate the number and mobility of concanavalin A receptors of rat thymocytes at 4 °C. Zinc was able to induce the exposition at the cell surface of the same number of receptors that can be exposed by high doses of concanavalin A. It only weakly restricted their mobility. Moreover, zinc chloride was shown to inhibit rat thymocyte stimulation by succinyl-concanavalin A. This inhibition occurred most effectively if zinc was present during the first few hours after mitogen addition to cell cultures, as assessed by [³H]uridine incorporation in RNA and [³H]thymidine incorporation in DNA. The time at which DNA synthesis took place was not modified by zinc. Blast transformation in the presence of zinc was characterized by fewer blast cells which otherwise appeared identical to blast cells in control cultures. The possible action on membrane-cytoskeleton interactions is discussed.     

An autoradiographic method of detectingA. laidlawii andM. hyorhinis in cell cultures

Summary The autoradiographic investigation of L cells and Chinese hamster cells for the presence of mycoplasmas (A. laidlawii andM. hyorhinis) using uridine/uracil (UdR/U) testing is a rapid and reliable method suitable for the serial checking of even a small number of cells. It depends on a reduced incorporation of [³H]uridine and an increased uptake of [³H]uracil into the RNA of mycoplasma-infected cells, shown in autoradiograms by the density of the grains and their distribution. Results obtained by the autoradiographic technique correspond approximately to specific activity values of RNA-infected cells after the incorporation of [³H]uridine and [³H]uracil.     

Effect of insulin at dilution endpoint concentrations on macromolecular synthesis in normal mouse mammary and human breast cancer epithelial cells

Employing defined media conditions, the insulin sensitivities of mouse mammary gland epithelial cells in primary culture and MCF-7 human mammary epithelial cells were determined. Insulin stimulated the rates of [³H]uridine incorporation into RNA and [³H]leucine incorporation into protein in both primary mouse mammary gland epithelial cell cultures and MCF-7 cell cultures at concentrations approximating the dilution endpoint of the hormone (10⁻²¹ M). Insulin stimulated the rate of [³H]thymidine incorporation into DNA in primary mouse mammary gland epithelial cells at the dilution endpoint concentrations. However, MCF-7 cells required insulin concentrations 100–1000-times that necessary in mouse mammary epithelial cultures to elicit an increased rate of [³H]thymidine incorporation into DNA. Evidence is presented which suggests that the increased rates of uptake of [³H]uridine, [³H]thymidine and [³H]leucine into their respective precursor pools is not responsible for the apparent stimulatation of RNA, DNA and protein synthesis.     

Electron microscope analysis of amplifying ribosomal DNA from Xenopus laevis.

The inhibition of human prostatic epithelial cell (MA-160) replication by cAMP and certain analogs was explored in tissue cultures. When untreated fetal bovine serum was used to supplement the culture medium, cyclic AMP (cAMP) markedly inhibited cell growth. The inhibition was reversed by equimolar concentrations of uridine. Inhibition by 8-methyl-thio-cAMP (MES) was somewhat less effective and was not reversed by uridine. After heat treatment of the fetal bovine serum, which inactivated the cAMP phosphodiesterases, cAMP became less effective in cell growth inhibition, whereas the activity of MES remained unaltered. Dibutyryl cAMP (db-cAMP) had no effect on cell growth, however, when combined with the phosphodiesterase inhibitor, 1-methyl-3-isobutylxanthine (MIX), significant retardation of cell replication was observed. Cells treated for 24 h with 0.5 mM MES took up and incorporated significantly less [³H]TdR and [³H]uridine than control cells. Treatment of cells with 0.5 mM cAMP for 24 h, on the other hand, resulted in both substantially increased [³H]TdR uptake and increased [³H]uridine incorporation into RNA. The effects of similar treatment with db-cAMP plus MIX closely paralleled those of MES with marked inhibition of the uptake and incorporation of both thymidine and uridine.     

Cellular effects of ornithine decarboxylase induction in cells maintained with a salts/glucose medium

Cultures preincubated in a growth restricted salts/glucose medium in the presence and absence of ornithine decarboxylase (ODC) activating factors were then incubated under ideal growth conditions to study the influence of these factors on cell growth. Incubation of confluent cultures in a salts/glucose medium alone did not induce ODC or change the other biochemical parameters investigated. However, if cultures were incubated in the salts/glucose medium supplemented with asparagine (ASN) and agents that increase cellular cAMP levels then ODC was induced after 6–8 h. This primary induction in the salts/glucose medium resulted in altered and delayed ODC induction during growth stimulation and also caused a delay in (³H) thymidine incorporation without affecting (³H) uridine and (³H) leucine incorporation. These results demonstrate that incubation of cultures in a salts/glucose media with ASN and dibutyryl cAMP (dBcAMP) causes refractory ODC induction and altered (³H) thymidine incorporation upon growth challenge with complete medium. These effects were not observed when cells were preincubated in a salts/glucose medium alone.     

Thymidine transport by cultured Novikoff hepatoma cells and uptake by simple diffusion and relationship to incorporation into deoxyribonucleic acid

The initial rate of thymidine-³H incorporation into the acid-soluble pool by cultured Novikoff rat hepatoma cells was investigated as a function of the thymidine concentration in the medium. Below, but not above 2 µM, thymidine incorporation followed normal Michaelis-Menten kinetics at 22°, 27°, 32°, and 37°C with an apparent K_m of 0.5 µM, and the V_max values increased with an average Q₁₀ of 1.8 with an increase in temperature. The intracellular acid-soluble ³H was associated solely with thymine nucleotides (mainly deoxythymidine triphosphate [dTTP]). Between 2 and 200 µM, on the other hand, the initial rate of thymidine incorporation increased linearly with an increase in thymidine concentration in the medium and was about the same at all four temperatures. Pretreatment of the cells with 40 or 100 µM p-chloromercuribenzoate for 15 min or heat-shock (49.5°C, 5 min) markedly reduced the saturable component of uptake without affecting the unsaturable component or the phosphorylation of thymidine. The effect of p-chloromercuribenzoate was readily reversed by incubating the cells in the presence of dithiothreitol. Persantin and uridine competitively inhibited thymidine incorporation into the acid-soluble pool without inhibiting thymidine phosphorylation. At concentrations below 2 µM, thymidine incorporation into DNA also followed normal Michaelis-Menten kinetics and was inhibited in an apparently competitive manner by Persantin and uridine. The apparent K_m and K_i values were about the same as those for thymidine incorporation into the nucleotide pool. The over-all results indicate that uptake is the rate-limiting step in the incorporation of thymidine into the nucleotide pool as well as into DNA. The cells possess an excess of thymidine kinase, and thymidine is phosphorylated as rapidly as it enters the cells and is thereby trapped. At low concentrations, thymidine is taken up mainly by a transport reaction, whereas at concentrations above 2 µM simple diffusion becomes the principal mode of uptake. Evidence is presented that indicates that uridine and thymidine are transported by different systems. Upon inhibition of DNA synthesis, net thymidine incorporation into the acid-soluble pool ceased rapidly. Results from pulse-chase experiments indicate that a rapid turnover of dTTP to thymidine may be involved in limiting the level of thymine nucleotides in the cell.     

Generation of suppressor lymphocytes during sensitization in culture against a syngeneic tumor: affinity chromatography on insolubilized histamine

We investigated the effect of depletion of histamine-binding lymphoid cells on immunological properties of lymphocytes sensitized in culture against tumor cells. C57BL/6 spleen cells that were sensitized in vitro on monolayers of the syngeneic Lewis lung carcinoma (3LL) became cytotoxic to the tumor cells in vitro after 3 to 5 days of sensitization. Sensitized cells harvested after 4 days of sensitization occasionally enhanced tumor growth in vivo. Fractionation of the sensitized lymphocytes over insolubilized histamine-rabbit serum albumin-Sepharose (HRS) columns decreased or abolished the enhancing activity in vivo and specifically increased the in vitro cytotoxic activity of the depleted lymphocytes. A similar increase in the cytotoxic activity of HRS-fractionated cells was observed in an allogeneic combination of C57BL spleen cells sensitized against C3H fibroblasts. The effect of HRS chromatography on the in vitro cytotoxic activity increased with prolonged incubation of the depleted effector cells with the target cells.     

Cytotoxicity of allogeneic lymphocytes sensitized against H-2 antigens in vitro

A system is described in which C57/Bl lymphocytes can be sensitized in vitro against H-2 alloantigens of DBA/2 fibroblasts. Cytotoxicity of sensitized lymphocytes was measured by ⁵¹Crrelease from DBA/2 mastocytoma cells which were used as sensitive target cells. During the sensitization period one can observe lymphoid blast transformation and proliferation to start from the third day. Optimal cytotoxic effect of sensitized lymphocytes is reached on the fifth day. C57/Bl lymphocytes sensitized on C₃H fibroblasts were found not to be cytotoxic to DBA/ 2 mastocytoma cells.     

Reversible arrest of Chinese hamster V79 cells in G2 by dibutytyl AMP.

Mouse L cells 929 were cloned in supplemented Eagle's minimal medium enriched with lactalbumin and yeast extract and buffered with HEPES. Multiplication was followed photographically in single clones from the 8-cell stage through 6–7 days. Addition of the folic acid analogue methotrexate (amethopterin) in 5 × 10^?6 M concentration slowed growth only after two cell generations; 10^?4 M uridine had no effect on growth except when combined with methotrexate. The two agents together blocked cell division quickly and symptoms of thymine-less death developed in few days. The cells could be rescued before 48 h by removal of the inhibitors, or by addition of folic acid or thymidine. The combination of methotrexate with uridine blocks DNA synthesis in Tetrahymena by inhibition of thymidylate synthesis and of thymidine uptake from the complex medium. Apparently the same mechanisms operate in L cells grown in a complex medium containing thymidine.     

Biological activities of chemically synthesized N-acetylneuraminic acid-(alpha 2----6)-monosaccharide analogs of lipid A

The mitogenicity and lethal toxicity of chemically synthesized lipid A analogs, in which 2,3-acyloxyacylglucosamine-4-phosphate linked to tetraacetyl-N-acetylneuraminic acid (compound A-207) or to N-acetylneuraminic acid (compound A-307), were examined. Although the mitogenic activity of the synthetic compounds was weaker than that of bacterial LPS, doses of 10-50 micrograms/ml of A-207 and 5-10 micrograms/ml of A-307 were capable of increasing incorporation of [3H]thymidine into cultured spleen cells of C57BL/6 mice. Lethal toxicity of A-207 was observed at 10 micrograms/mouse in C57BL/6 mice sensitized with D-galactosamine hydrochloride. However, the attachment of tetraacetyl-N-acetylneuraminic acid or N-acetylneuraminic acid does not appear to enhance the biological activity of acyloxyacylglucosamine-4-phosphate.     

IN VITRO INCORPORATION OF 3H-THYMIDINE, 3H-URIDINE, 3H-LEUCINE AND 3H-MELPHALAN BY PLASMACYTOMA PLASMA CELLS

Bone marrow plasma cells from fifteen cases of multiple myeloma, immunologically typed, were incubated with different tritiated compounds. The labelling index with tritiated thymidine is generally low, while the mean grain count is fairly normal in the active cells. The labelling index of ³H-uridine and ³H-leucine was very high, while the mean grain count per cell lies within the normal range. The results obtained with ³H-phenylalanine-mustard (melphalan), which is a drug used in the treatment of the plasmacytoma, show also incorporation values roughly comparable to those of ³H-leucine. The present data seem to support the clinical use of melphalan as a compound that is actively incorporated into the plasma cells of plasmacytoma although inhibition of protein synthesis due to specific binding to protein was not demonstrated.     

Central suppression of monoclonal B cells: DNP-MGG suppresses proliferation and immunoglobulin synthesis in anti-DNP-secreting hybridoma and myeloma

Our laboratory has established that 2,4-dinitrophenyl-conjugated mouse IgG (DNP-MGG) can specifically suppress the anti-DNP secretion in hybridoma 35-12 and plasmacytoma MOPC-315 cells. To further study the mechanism of this suppression, the effect of DNP-MGG on anti-DNP synthesis and cell proliferation was investigated in these cell lines. Cultured tumor cells (1 × 10⁶) were injected ip into syngeneic mice. These mice were then given either 1 mg MGG or 1 mg DNP-MGG. At different days after injection, tumor cells obtained from these mice were assayed for anti-DNP secretion, anti-DNP synthesis, cell proliferation, and tumor cell size. When the anti-DNP secretion was suppressed by DNP-MGG, the intracellular synthesis of anti-DNP, demonstrated by [³H]leucine incorporation into DNP-binding activity, was also suppressed. Simultaneous assays of [³H]thymidine incorporation demonstrated that proliferation was also suppressed. Tumor cells injected ip into mice normally become small nonsecreting cells and later return to preinjection size and secrete antibody. Those cells whose antibody synthesis and proliferation were suppressed by DNP-MGG remained smaller.