Immunotherapy with tumor cell subpopulations

Summary L1210 tumor subpopulations were isolated by lectin-nylon chromatography and evaluated in active, specific immunotherapy of residual L1210 leukemia (following reduction in tumor burden by chemotherapy). Immunotherapy with cells either not binding mannosylspecific columns or eluted from fucose-specific columns resulted in a higher percent of long-term survivors compared to mice treated with chemotherapy only. In contrast, immunotherapy with cells eluted from galactose-specific columns was deleterious, and abrogated the beneficial effects of chemotherapy. The results emphasize that (a) clinical immunotherapy may be either beneficial or deleterious, depending upon the properties of the tumor cell vaccine, and (b) the therapeutic value of L1210 subpopulations is related to the expression of cell-surface carbohydrates.Supported, in part, by a research contract from the National Cancer Institute, USA     

Identification of effector T cells responsible for enhanced antitumor immunity induced by tumor vaccine and pyran copolymer

Summary The combination of concanavalin A-bound, but not concanavalin A-free, L1210 murine leukemia vaccine and pyran copolymer produced an enhanced therapeutic response in L1210-bearing mice. Immunoprophylactic experiments showed that the effective combination produced enhanced antitumor immunity as determined by refractoriness to the inoculation of live L1210 cells. In vitro antiproliferation and intraperitoneal adoptive transfer tests showed that antitumor effector cells were detected in the spleen and peritoneal cavity of primed mice after, but not before, live L1210 cell inoculation. These effector cells were identified as T cells on the basis of their non-adherence to plastic flasks and sensitivity to treatment with anti-mouse brain-associated T cell antigen antisera and complement. Although non-T cell populations, including macrophages of mice primed with L1210 vaccine and pyran copolymer, inhibited the in vitro proliferation of L1210 cells, we obtained evidence suggesting that they were not the primary antitumor effector cell populations responsible for the in vivo elimination of the inoculated L1210 cells.     

Rejection of reovirus-treated L1210 leukemia cells by mice

Summary L1210 leukemia cells were treated in vitro with 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) and reovirus to determine their interactive effects on rejection of these tumor cells by mice. The cells were treated with BCNU at concentrations of 0, 3, or 10 M, incubated for 48 h, then treated with reovirus at a multiplicity of infection of 0, 10, 30, or 100 for 2, 6, or 12 h. The survival of mice injected with cells treated with any amount of reovirus, regardless of BCNU treatment, was greater than that of mice injected with untreated cells. Exposure of the cells to reovirus for 6 or 12 h increased the survival of mice injected with these cells as compared with that of mice injected with cells exposed to reovirus for 2 h. Of the survivors, 76% were resistant to subsequent challenge with untreated L1210 cells. These results suggest that activities associated with reovirus replication may cause modifications of L1210 cells that enable them to induce an immune response, thus facilitating their rejection. A lack of correlation between differences in DNA synthesis (measured by ³H-thymidine uptake) by treated cells and the ability of those cells to kill recipient mice indicates that rejection of cells treated with reovirus or BCNU is not due to a decrease in their ability to proliferate or, presumably, to generate lethal tumors. The survival of mice injected with treated L1210 cell preparations containing as few as 2.9% reovirus-infected cells was enhanced to the same degree as that of mice injected with those containing as many as 14.6% infected cells, indicating that modification of only a minor component of the tumor cell population is sufficient to alter the ability of the cells to generate a lethal tumor.This work was supported by a research grant from the Miami University Faculty Research Committee and a Sigma Xi Grant-in-Aid of Research     

Non-cytotoxic activity of pyran copolymer-induced macrophages associated with potentiation of tumour vaccine in recipient mice

Summary Mice inoculated with both L1210 murine tumour vaccine and pyran copolymer were more resistant to L1210 than those inoculated with either of these agents alone. Rabbit anti-mouse thymocyte globulin and silica reduced the augmented resistance of these mice, suggesting the involvement of activated anti-tumour T cells and macrophages in the augmented resistance. We studied the activation of these two cells separately and examined the possible contribution of pyran copolymer-induced peritoneal cells to the augmented resistance to an inoculation of live tumour. Pyran copolymer-induced peritoneal cells endowed the tumour vaccine-primed mice, but not unprimed mice, with resistance to implanted L1210 and, among those peritoneal cell populations, macrophages but not T cells were responsible for this effect since the activity was associated with a cell population which was (1) adherent to nylon wool columns, (2) sensitive to silica and (3) insensitive to anti-Thy 1.2 antibody plus complement. The pyran copolymer-induced peritoneal cells had very little antiproliferative activity when tested against L1210 in vitro and mice inoculated with these peritoneal cells did not survive a challenge of live L1210 cells much longer (<1 day) than L1210 inoculated control mice. Furthermore, the survival of L1210 vaccine-primed mice inoculated with one-tenth the amount of live L1210 (10²) was still much shorter than that of mice primed with L1210 vaccine plus pyran copolymer and challenged with ten times as many (10³) live L1210 cells. Therefore, direct tumouricidal activity was probably not a major factor in the in vivo immunological augmenting activity of the pyran copolymer-induced macrophages.     

Development of host-dependent high-grade tumor-specific immunity through a novel mechanism triggered by the Lyt-2+ tumor-specific T cell clone (K7L) that induces temporal growth of L1210 leukemia-K7L-variant

When a murine leukemia L1210-specific Lyt-2+ T cell clone, K7L, was injected i.p. into CD2F1 mice together with L1210, the normal growth of L1210 in the peritoneal cavity of the mice at the early stage (days 0 to 5) was strongly inhibited, but L1210 grew progressively at the middle-stage (days 5 to 10), and then was rejected at the late stage (days 10 to 20). The mice thus survived for long times (more than 60 days), whereas the normal control injected with L1210 alone died within 14 days. The L1210 that grew at the middle stage in mice initially inoculated with L1210 together with K7L was a K7L-insensitive (K7L-) variant. All of eight tumor clones established from L1210-K7L- by limiting dilution was insensitive to the antitumor activity of K7L, and this property of tumor clones was stable after repeated in vitro passage. The initial depression of the L1210 growth by K7L followed by growth and rejection of the variant L1210-K7L- by the host T cell activity was then found to prepare a strong, long-lasting (more than 3 mo) immunity to protect mice against the high-dose (10(7) cells per mouse) challenge of original L1210. Corresponding to this result, definite tumor (L1210)-specific cytotoxic T lymphocyte (CTL) activity against both variant and original L1210 targets was developed by antigen (L1210) restimulation in the culture of spleen cells from these mice, but was not increased to a detectable level before L1210-K7L- variant started to grow. It was suggested that the 1210-K7L- variant and the original L1210 should have the common tumor-specific antigen that was independent of the K7L-reactive antigen, and that original L1210, whose growth was retarded by K7L, primed the host with the common antigen to be enormously boosted by the subsequently growing L1210-K7L- variant.     

Modulation of the immune response to tumors by a novel synthetic compound,N-[4-[(4-fluorophenyl)sulfonyl]phenyl] acetamide (CL 259,763)

Summary CL 259,763, N-[4-[(4-fluorophenyl)sulfonyl]phenyl] acetamide, is an orally active compound capable of modifying the reactivity of certain lymphoid cell populations affected by the growth of a tumor. The compound augmented the response of lymphocytes from tumor-primed animals to syngeneic tumor cells, resulting in a marked increase in tumor cell destruction. Likewise, it enhanced macrophage inhibitory effects on the growth of tumor cells in vitro. These activated macrophages were detectable in peritoneal exudates of treated mice 4 to 12 days after receiving a single oral dose of CL 259,763, with peak activity being demonstrable by day 7. The compound also restored the alloreactivity of lymphocytes from immunodepressed mice bearing the Lieberman plasma cell tumor, possibly by interferring with suppressor cells. Macrophages and lymphocytes from treated mice released significantly more IL-1 and IL-2-like factors in culture than did the control counterparts. Sera from treated mice also possessed more colony stimulating factor than those from normal mice. Immunoadjuvant effects were evident when the compound was administered with an inactivated L1210 leukemia vaccine and it enhanced the effectiveness of cytotoxic chemotherapy when given to mice challenged with P388 murine leukemia. These immunomodulating effects of CL 259,763 may hopefully be exploited in efforts to augment the immune response of the host to a progressively growing tumor.     

软骨多糖对L1210白血病小鼠生长抑制作用的研究

目的:研究软骨多糖对L1210白血病小鼠的生长抑制作用,并探讨其抑瘤作用机理。方法:建立DBA/2小鼠L1210腹水瘤模型,将小鼠分为对照组、低剂量组、中剂量组和高剂量组进行实验,通过腹腔注射软骨多糖治疗,每天称重并记录小鼠的生存时间,计算生命延长率。于0h、24h、48h、72h抽取治疗组小鼠的腹水瘤细胞进行细胞周期的分析;采用常规HE染色观察细胞形态学变化;应用免疫荧光方法检测BCL-2和BAD蛋白表达变化,以进一步探讨软骨多糖的抑瘤机制。结果:软骨多糖可以明显提高DBA/2小鼠的生存率;细胞形态学观察可见细胞出现细胞浆浓缩、核固缩及凋亡小体等现象;软骨多糖作用后的L1210细胞,其细胞周期被阻遏于Go/G1期,24h-48h凋亡率迅速上升;Bad蛋白的表达水平于给药24h-72h后升高,抗凋亡基因Bcl-2表达下降。结论:软骨多糖可能通过影响肿瘤细胞周期和Bad、Bcl-2蛋白的表达来诱导L1210细胞凋亡,并显著抑制肿瘤细胞的生长,延长DBA/2小鼠的生存时间,是一种新型的抑癌活性物质。     

Tumor-specific idiotype vaccines. II. Analysis of the tumor-related network response induced by the tumor and by internal image antigens (Ab2 beta)

In this study the tumor-specific immuneresponse induced by irradiated tumor cells (L1210/GZL) and by anti-idiotype antibodies was analyzed. The anti-idiotype antibodies (Ab2) were made against the paratope of a monoclonal antitumor antibody (11C1) that recognizes a tumor-associated antigen which cross-reacts with the mouse mammary tumor virus-encoded envelope glycoprotein 52. Two Ab2, 2F10 and 3A4, induced idiotypes expressed by the monoclonal antitumor antibodies 11C1 and 2B2. Cytotoxic T cells, generated by immunization with irradiated tumor cells, lyse 2F10 and 3A4 hybridoma cells. Furthermore, immunization with Ab2 induces tumor-specific cytotoxic T lymphocytes. The frequency of tumor-reactive cytotoxic T lymphocyte was found to be similar in mice immunized with Ab2 or irradiated tumor cells when examined at the precursor level. However, only 2F10 induces protective immunity against the growth of L1210/GZL tumor cells. The depletion of a L3T4+ T cell population from 2F10 immune mice was found to increase the effectiveness of transferred T cells to induce inhibition of tumor growth. The inability of 3A4 to induce antitumor immunity could be correlated with the presence of a population of Lyt2+ regulatory T cells. Collectively, these results demonstrate the existence of a regulatory network controlling the expression of effective tumor immunity. Our results demonstrate that selection of binding site-related Ab2 may not be a sufficient criteria for the development of an idiotype vaccine. A better understanding of the regulatory interactions induced by anti-idiotypes is needed for the design of effective antitumor immunotherapy.     

Active immunotherapy of L1210 leukemia with neuraminidase-treated,drug-resistant L1210 sublines

Summary The effectiveness of neuraminidase-treated, drug-resistant L1210 sublines in active immunotherapy of L1210 leukemia was evaluated. Optimal conditions for the establishment of in vitro, drug-resistant cells included (a) proper drug concentration, (b) the use of logarithmic-phase cultures in fresh medium, containing 5 or 10% serum, and (c) continual exposure to drug. Active immunotherapy, after tumor burden was reduced with chemotherapy, with neuraminidase-treated cells alone was either effective or deleterious, depending upon the drug-resistant subline used for immunization. The combination of BCG and neuraminidase-treated cells was superior to treatment with chemotherapy only. Optimal response was observed with the use of parental L1210 cells, combined with BCG, in immunotherapy of parental L1210 tumor. The results emphasize that an important prerequisite to successful immunotherapy is that tumor vaccines must elicit immunologic products which are cytotoxic for residual tumor.Submitted in partial fulfillment of the requirements for the Masters of Science Degree, University of Oklahoma     

Tumor-specific idiotype vaccines. I. Generation and characterization of internal image tumor antigen

The concept of idiotype vaccines against tumor-associated antigens (TAA) was tested in the DBA/2 L1210 lymphoma subline, L1210/GZL. Monoclonal antibodies against a TAA that cross-reacts with the envelope glycoprotein gp52 of the mammary tumor virus were used to make hybridoma anti-idiotype antibodies (Ab2). In this report we describe the characterization of monoclonal anti-idiotypic antibodies against the combining site of 11C1 (Ab1), which recognizes a shared determinant of gp52 of mouse mammary tumor virus (MMTV) and the TAA of L1210/GZL. Hybridomas expressing the internal image of gp52 were screened by an idiotype inhibition assay. Mice sensitized with radiated L1210/GZL cells produced specific delayed type hypersensitivity (DTH) against the Ab2 hybridoma. Five Ab2 hybridomas were selected and were used to immunize DBA/2 mice. Such immunized animals showed specific DTH reaction against a challenge with the L1210/GZL tumor cells. Similar results were obtained in mice immunized with purified Ab2. Fluorescence-activated cell sorter analysis demonstrated that fluorescence staining of L1210/GZL cells by 11C1 can be completely inhibited with preabsorption on Ab2 hybridoma cells. Mice immunized with 2F10 and 3A4 coupled to keyhole limpet hemocyanin (KLH) contained antibodies binding to MMTV. But only in mice immunized with 2F10-KLH was significant inhibition of L1210/GZL tumor growth observed. Collectively, these results indicate that certain anti-idiotypic antibodies can mimic the MMTV gp52 antigen, as well as the gp52-like epitope expressed on the L1210/GZL tumor cells. These properties of anti-idiotypic antibodies mimicking TAA could be exploited for making idiotype vaccines against tumors.     

Ricin A-chain conjugated with monoclonal anti-L1210 antibody

Summary In studies of antitumor antibody-cytotoxic agent conjugates as potential antitumor agents with improved tumor specificity, the toxic subunit A-chain of ricin was conjugated with a monoclonal antibody to a tumor-associated antigen expressed weakly on murine leukemia L1210 cells and strongly on L1210/GZL cells, a guanazole-resistant subline of L1210, employing N-succinimidyl 3-(2-pyridyldithio)propionate as cross-linking agent. The conjugate (anti-L1210 conjugate) exhibited a potent concentration-dependent cytotoxicity against cultured L1210/GZL cells, and inhibited cell growth at concentrations over 0.8 g/ml. The conjugate killed all L1210/GZL cells at a concentration of 100 g/ml. Neither nonimmune conjugate similarly prepared from mouse nonimmune IgG nor unconjugated anti-L1210 IgG alone showed cytotoxicity against L1210/GZL cells. When (BALB/c×DBA/2)F₁ mice inoculated with 1 × 10⁵ L1210/GZL cells were treated with IP injections of 27 g anti-L1210 conjugate 1 h and 5 days after tumor cell inoculation, a life-prolonging effect was observed. [Lifespan in treated animals as percentage of that in controls (T/C)=146%]. However, when the dose per injection was increased to 50 g per mouse, survival was the same as in the control group. Postmortem examination of mice that had been treated with 50 g anti-L1210 conjugate revealed lesions with necrosis and hemorrhage in the liver parenchyma and the intestinal epithelium, respectively. A similar toxic effect on the host mice was also observed with nonimmune conjugate.     

Exploitation of differential homeostatic proliferation of T-cell subsets following chemotherapy to enhance the efficacy of vaccine-mediated antitumor responses

The 5-year survival rate for stage IB-III non-small-cell lung cancer (NSCLC) remains 15%. Surgical resection followed by adjuvant chemotherapy with cisplatin and vinorelbine is one standard-of-care. We sought to determine in a preclinical model whether (a) the combination of cisplatin and vinorelbine could positively modulate components of the immune system independent of antitumor activity, and (b) there were synergistic effects of this drug combination and vaccine immunotherapy. We examined the effect of cisplatin/vinorelbine on gene expression, cell-surface phenotype, and CTL-mediated cytolysis of murine lung carcinoma cells in vitro; we also assessed the effects of cisplatin/vinorelbine on immune subsets and function of Tregs in vivo. Finally, we evaluated the potential synergy between chemotherapy and a recombinant yeast-CEA vaccine in a murine model transgenic for CEA with mice bearing lung tumors. These studies demonstrate that exposure of lung tumor cells to the platinum doublet cisplatin/vinorelbine modulates tumor cell phenotype and increases sensitivity to CTL-mediated cytolysis. These studies also demonstrate that cisplatin/vinorelbine (a) induces sub-myeloablative leucopenia that differentially modulates reconstitution of Treg versus effector T-cell subsets and (b) can be employed synergistically with vaccine, exploiting homeostatic peripheral expansion of T cells. Antitumor studies show for the first time that cisplatin/vinorelbine combined with vaccine increases the survival of mice with established NSCLC. These findings provide the rationale for the potential clinical benefit of the combined use of vaccine with cisplatin/vinorelbine chemotherapy regimens.     

Acquisition of multidrug resistance by L1210 leukemia cells decreases their tumorigenicity and enhances their susceptibility to the host immune response

The use of antineoplastic drugs for cancer treatment is frequently associated with the acquisition of a multidrug-resistant (MDR) phenotype that renders tumoural cells insensitive to antineoplastics. It remains elusive whether the acquisition of the MDR phenotype alters immunological parameters that could influence the cell sensitivity to an eventual host immune response. We report that immunisation of syngeneic mice with -irradiated L1210S (parental line) and L1210R (MDR phenotype) cells results in a significant rejection of subsequently implanted L1210R-based tumours, but not of the L1210S ones. Notably, L1210R tumours display a twofold reduction in vivo proliferative capacity and are less aggressive in terms of mouse survival than their sensitive counterparts. Also, analysis of surface expression of molecules involved in antigen presentation and cytokine activity revealed a slight increase in IFN- receptor expression, a decrease of Fas molecule, and a fourfold up-regulation of MHC class I molecules in L1210R cells. Nonetheless, both cell lines were able to induce a cytotoxic response in syngeneic mice and were equally susceptible to cytotoxicity by splenic cells. Together, these findings indicate that acquisition of drug resistance by L1210 cells is accompanied by pleiotropic changes that result in reduced tumour proliferative capacity and tumorigenicity in syngeneic mice. Hence, immunological studies of MDR tumours may assist in the design of specific therapeutic strategies that complement current chemotherapy treatments.     

Protein kinase C-alpha antagonizes apoptosis induction by histone deacetylase inhibitors in multidrug resistant leukaemia cells

Previous studies have documented that while several drug-resistant cells enter apoptosis upon treatment with histone deacetylase inhibitors (iHDACs), their drug-sensitive counterparts do not. In the present study, we have investigated at the molecular level why parental drug-sensitive tumor cells do not respond to Trichostatin A and suberoylanilide hydroxamic acid, two iHDACs that promote apoptosis in drug-resistant leukaemia cells. Taking murine leukaemia L1210 cells as a model, we have determined that: (i) PKC-alpha expression is more elevated in parental L1210 than in drug-resistant L1210/R cells, (ii) activation of PKC neutralizes iHDACs-mediated apoptosis in L1210/R cells, (iii) depletion of PKC in parental L1210 cells results in a positive response to iHDACs-mediated apoptosis, and (iv) transfection of a mutant constitutively active PKC-alpha form in L1210/R cells makes the cells refractory to apoptosis induction by iHDACs. These results allow us to conclude that activation/high expression of PKC-alpha protects parental drug-sensitive L1210 cells from iHDACs-mediated apoptosis. Thus, determination of PKC-alpha levels/activity in leukaemia seems to be relevant when choosing efficient chemotherapy protocols based on the use of apoptosis-inducing anticancer drugs.     

Effect of levamisole on cytotoxic T-cell-mediated immune resistance to L1210 murine leukemia in hyperimmune mice

Summary The effect of levamisole (LMS) on T-cell-mediated antitumor immunity was examined in adult and aged mice hyperimmune to L1210 leukemia. The immune resistance of aged mice was depressed compared with that of adult mice, which almost completely rejected 5×10⁷ L1210 cells inoculated IP. A significant level of tumor-specific cytotoxicity was detected in the spleen cells of adult hyperimmune mice by the ⁵¹Cr-release assay after in vitro sensitization with mitomycin C-treated L1210 cells. This was mediated by cytotoxic T cells, since in vivo administration of antithymocyte serum or in vitro treatment of the spleen cells with anti-Thy 1.2 antibody and complement abrogated the cytotoxicity completely. In aged mice, however, cytotoxic T-cell activity was lower although the animals were immune to L1210.Administration of LMS (0.38 mg/kg) restored the depressed cytotoxicity of aged mice to the level seen in adult mice. Furthermore, in adult hyperimmune mice LMS augmented T-cell-mediated cytotoxic activity and restored the reduced cytotoxicity caused by in vivo administration of antithymocyte serum. These results indicate that LMS was effective in augmenting T-cell-mediated tumor immunity in immunologically competent or deficient hosts.     

Potentiation of the efficacy of murine L1210 leukemia vaccine by a novel immunostimulator 7-thia-8-oxoguanosine: Increased survival after immunization with vaccine plus 7-thia-8-oxoguanosine

Summary We have investigated the ability of a novel immunopotentiator, 7-thia-8-oxoguanosine (7T8OG) to increase the efficacy of a weakly immunogenic murine L1210 leukemia vaccine. The vaccine was prepared by irradiating L1210 leukemia cells in a cesium source with a total of 6000-R dose. DBA/2 mice were treated with 150 mg/kg 7T8OG and/or with vaccine consisting of 10⁷ irradiated cells. In combination therapy, mice first received the vaccine and then were injected with 75 mg/kg 7T8OG 2 h and 4 h after vaccination. One week after the last treatment all mice were inoculated with 10⁴ live leukemia cells intraperitoneally. Control, untreated mice (n = 66) injected with 10⁴ live leukemia cells had a mean survival time ± standard error of 10.5±0.2 days. Treating mice (n = 66) with one, two or three doses of 7T8OG administered i.p. 1 week apart did not increase survival (mean survival time = 10.7 days). Mice immunized with one, two or three doses of vaccine had 14.5±1.1, 45.4±6.2 and 68.3±10.6 days mean survival, respectively. 7T8OG-stimulated vaccination increased the survival dramatically. The best survival was noted when the mice were treated with 2× (vaccine + 7T8OG). Immunization of mice (n = 30) with this treatment regimen increased the mean survival to 156±10.0 days. Over 90% of mice that were treated this way had a cumulative survival time greater than 160 days. In contrast, only 12% of the mice immunized twice with the leukemia vaccine alone survived over 160 days. These results suggest a rationale for the use of this immuno-potentiator with various vaccines for a more effective immunization.     

Histologic evaluation of L1210 leukemia in treated and untreated mice

Summary BDF₁ mice bearing L1210 leukemia were treated with chemotherapy or in combination with neuraminidase-treated cells and BCG. Histological evaluation was done on these mice at various intervals after therapy in order to determine the rate and extent of metastatic involvement in various tissues and organs. Results were compared to tumor-bearing mice which were not treated. In all animals, tissues were classed as having minimal involvement, moderate involvement or maximal involvement based on a scale of 0 through 4. Results indicated that: (a) mice which were long term survivors did not completely reject their tumor for weeks after treatment with chemotherapy and immunotherapy; (b) complete tumor rejection did not indicate a restoration of normal tissue integrity; and (c) failure of chemotherapy-immunotherapy had no consistent pathology, but was probably due to tumor distribution rather then tumor burden per se.This study was supported, in part, by Contract No. NO1-CB-43864 and Grant No. CA 14460 from the National Cancer InstituteThe Abbreviations used are: BCNU; 1,3-bis-(2-chloroethyl)-1-nitros-ourea; Saline: 0.9% NaCl solution; BCG: Bacillus Calmette-Guerin; C. parvum: Corynebacterium parvum; pfu: plaque-forming units     

Ribosomal RNA on the surfaces of nonleukemic mouse ascites tumor cells

RNAs on the cell surfaces of two nonleukemic and two leukemic strains of mouse ascites tumor cells were studied by fractionating the RNAs released from the cell surface by gentle pronase treatment after sucrose density gradient centrifugation, by indirect membrane immunofluorescence that used anti-RNA antibody and by cell electrophoresis. RNA was extracted from the cell supernatants of Ehrlich ascites tumor and sarcoma 180 cells (nonleukemic) that had been treated or not treated with pronase (1 microgram/ml, 37 degrees C, 20 min) followed by sucrose density gradient centrifugation. It was clearly demonstrated that the amounts of ribosomal RNA (18S and 28S) released after pronase treatment were approximately 80% greater than that of nonpronase-treated cells. Ehrlich ascites tumor cells that had been treated with actinomycin D (100 micrograms/kg body weight of mouse, 16 h) in vivo released an amount of ribosomal RNA after pronase treatment only 20% greater than the value for untreated cells. Actinomycin D treatment greatly reduced both the cell surface negative charge and the cell surface immunofluorescence when rabbit anti-RNA antibody was used. Under the same experimental conditions with actinomycin D, only ribosomal RNA synthesis showed preferential inhibition, not the syntheses of poly A-containing messenger RNA, 4S or other small-size RNAs. In contrast, L1210 and C1498 cells (leukemic) showed no change in the amounts of ribosomal RNA released after pronase treatment. L1210 cells also showed no change in the surface negative charge after being treated with actinomycin D.(ABSTRACT TRUNCATED AT 250 WORDS)     

The preparation of xenoantiserum specific for a murine mastocytoma cell line

Summary A method is described whereby a xenoantiserum directed toward membrane components of DBA/2 murine mastocytoma P815 cells was raised. This antiserum was found to be specific for tumor cell extracts and had no reactivity with comparable extracts of normal cells when tested by complement fixation. The antiserum was capable of killing P815 cells in the presence of guinea-pig complement but had no reactivity with L1210 leukemia cells or a variety of normal DBA/2 cell preparations. When mixed with varying numbers of tumor cells and injected IP to either DBA/2 or B6D2 Fl mice, the antiserum demonstrated a protective effect by either prolonging survival time or, when low numbers of cells were injected, apparently facilitating complete removal from the body of tumor cells. When administered following resection of SC grown tumors in B6D2 Fl mice, the antiserum prevented tumor recurrence in 50% of treated mice in comparison to animals treated with normal rabbit serum, in which recurrence occurred in all test animals.