Changes in macrophage populations: phenotypic differences between normal and tumor-bearing host macrophages

Human Cytomegalovirus Host Interactions: EGFR and Host Cell Signaling Is a Point of Convergence Between Viral Infection and Functional Changes in Infected Cells

Viruses have evolved diverse strategies to manipulate cellular signaling pathways in order to promote infection and/or persistence. Human cytomegalovirus (HCMV) possesses a number of unique properties that allow the virus to alter cellular events required for infection of a diverse array of host cell types and long-term persistence. Of specific importance is infection of bone marrow derived and myeloid lineage cells, such as peripheral blood monocytes and CD34⁺ hematopoietic progenitor cells (HPCs) because of their essential role in dissemination of the virus and for the establishment of latency. Viral induced signaling through the Epidermal Growth Factor Receptor (EGFR) and other receptors such as integrins are key control points for viral-induced cellular changes and productive and latent infection in host organ systems. This review will explore the current understanding of HCMV strategies utilized to hijack cellular signaling pathways, such as EGFR, to promote the wide-spread dissemination and the classic life-long herpesvirus persistence.

Effect of perioperative chemoimmunotherapy with cyclophosphamide and autologous tumor vaccine in murine MBT-2 bladder cancer

The in vitro cytotoxic activity of splenocytes from C3H/He mice implanted subcutaneously with 10(6) syngeneic MBT-2 tumor cells on day 0 was significantly enhanced after cyclophosphamide (100 mg./kg., intraperitoneally) given 2 days before tumor resection on day 17, with or without active specific immunization with BCG plus autologous irradiated tumor cells (vaccine) 1 week after tumor resection. Furthermore, a significantly lower tumor incidence was seen in mice challenged with 10(5), but not 10(6), tumor cells per mouse 24 hours after tumor resection on day 17 and treated with cyclophosphamide on day 15 and postoperatively with vaccine than was found in nontreated tumor resected mice. Phenotypic analysis of cells from spleen showed that cyclophosphamide pretreatment and postoperative vaccine, either singly or in combination, induced a significant increase of both CD44+ memory T cells and CD11b+ myeloid/macrophage cells. Thus, in addition to a specific antitumor immune response, a nonspecific cytolytic mechanism may also play a role in the observed antitumor effect.

Role of macrophages in the host response to Lewis lung peritoneal carcinomatosis

Lewis lung (3LL) peritoneal carcinomatosis elicits a complex host response in the peritoneal compartment. The response was delayed, showing few inflammatory cells through day 6 after lethal challenge with 3LL cells. Responses began in about half the mice on day 7 and had appeared in all mice by day 11. On day 7, some mice still showed no detectable 3LL growth in the pertioneal lavage fluid, and no differences in the peritoneal cell populations as compared with the control group. Other tumor-bearing mice, however, had evidence of 3LL cells and hemorrhagic ascites in the peritoneal compartment, with increased numbers of peritoneal macrophages (PM) and polymorphonuclear neutrophils (PMN). By day 11, all tumor-bearing mice had 3LL growth and hemorrhagic ascites. On days 7-11, there was a major influx of macrophages with a later influx of PMN between days 11 and 14. Two distinct PM populations were detected on day 7 in mice that showed detectable 3LL peritoneal carcinomatosis: resident PM, which did not express the Mac-2 antigen, and recruited PM, which were Mac-2+. At least some resident PM remained in the peritoneal compartment through day 14. Analysis of the kinetics of the cytotoxic capabilities of PM from tumor-bearing mice showed that by day 7 macrophages were able to kill the B16 melanoma tumor target, but not the 3LL target. The PM, however, were able to be activated further to kill the 3LL target by treatment in vitro with lipopolysaccharide and interferon gamma. No inhibition of PM tumoricidal activity could detected in the peritoneal wash of tumor-bearing mice. A lack of activation of PM from 3LL tumor-bearing mice may be involved in progression of peritoneal carcinomatosis.

Tumor growth alters macrophage responsiveness to macrophage colony-stimulating factor during reactivity against allogeneic and syngeneic MHC class II molecules

Tumor-induced changes in macrophage (M phi)2 accessory activities significantly suppress T-cell recognition of allogeneic and syngeneic major histocompatibility complex (MHC) class II molecules. Because these changes are often associated with altered responses to stimulatory and inhibitory cytokines, we investigated the possibility that tumor growth alters the contribution of a macrophage regulatory cytokine, macrophage colony-stimulating factor (M-CSF), during reactivity against allogeneic and syngeneic MHC class II molecules. T-cell reactivity against allogeneic MHC class II molecules was significantly suppressed by tumor-bearing host (TBH) M phi in the presence of M-CSF. M-CSF-induced suppression was independent of TBH M phi prostaglandin E2 (PGE2) synthesis. T-cell reactivity against syngeneic MHC class II molecules increased in the presence of M-CSF when normal host (NH) M phi served as the source of syngeneic molecules. However, T-cell reactivity against syngeneic MHC class II molecules in the presence of M-CSF did not change when TBH M phi served as stimulator/accessory cells. Although T-cell reactivity against NH syngeneic MHC class II molecules was additively increased by M-CSF and indomethacin (a PGE2 synthesis inhibitor) treatment, reactivity against TBH syngeneic MHC class II molecules increased solely through PGE2 synthesis inhibition. Admixtures of both NH and TBH M phi in the absence or presence of M-CSF suggest that tumor-induced suppression was not strictly due to decreased expression of MHC class II molecules. Collectively, these data suggest that TBH M phi are partly suppressive through altered responsiveness to M-CSF.

Tumor-induced modulation of macrophage class II MHC molecule mRNA expression

Class II MHC protein expression in macrophages (M phi) is reduced during tumor growth. Because regulation of class II MHC proteins occurs during transcription, tumor growth may suppress class II MHC protein expression by suppressing mRNA. The decrease in class II mRNA may result from (i) a decrease in M phi responsiveness to an inducing agent, such as interferon-gamma (IFN-gamma), or (ii) an increase in M phi sensitivity to suppressing agents, such as prostaglandin E2 (PGE2). To determine how tumors induce suppression of class II mRNA, M phi were cultured in the presence of IFN-gamma with or without other factors, and Northern blot analyses were performed. Unstimulated normal host (NH) or tumor-bearing host (TBH) M phi do not express detectable class II mRNA. The addition of IFN-gamma induces class II mRNA expression in NH and TBH M phi, but class II mRNA expression is significantly lower in TBH M phi. Kinetic studies suggested that NH M phi class II mRNA is induced faster and in greater amounts than TBH M phi class II mRNA. There is a decrease in M phi class II mRNA stability during tumor growth that may account for the decreased induction by IFN-gamma. Lipopolysaccharide (LPS) suppresses class II mRNA induction in both NH and TBH IFN-gamma-treated M phi, but TBH M phi are more sensitive to its suppression. PGE2 and tumor-necrosis factor-alpha (TNF-alpha), two factors produced by LPS-stimulated M phi, were tested for their ability to modulate class II mRNA expression in NH and TBH IFN-gamma-treated M phi. PGE2 suppressed class II mRNA expression in both NH and TBH M phi. The addition of TNF-alpha to IFN-gamma-treated M phi suppressed class II mRNA in NH M phi but, surprisingly, had an additive effect on IFN-gamma-induced class II mRNA expression. TNF-alpha did not induce class II mRNA expression in TBH M phi in the absence of IFN-gamma. The cause of the reduced class II mRNA expression during tumor growth is a decreased response to IFN-gamma and an increased sensitivity to PGE2. This change may cause the observed suppression mediated by TBH M phi.

Interferon-gamma reduces tumor-induced Ia- macrophage-mediated suppression: role of prostaglandin E2, Ia, and tumor necrosis factor-alpha

Tumor growth enhances macrophage (M phi) suppressor activity by causing M phi to increase synthesis of inhibitory molecules such as prostaglandin E2 (PGE2) or decreasing their expression of up-regulatory molecules such as the class II MHC protein Ia. Although these tumor-induced changes are correlated, it is unknown whether tumor-bearing host (TBH) Ia- M phi become more suppressive by increasing their PGE2 synthesis. To assess the role of PGE2 in tumor-induced Ia- M phi-mediated suppression of CD4+ T-cell alloreactivity, unseparated (Ia(+)-enriched) or Ia(+)-depleted (Ia-) populations of murine normal host (NH) or TBH splenic M phi were added to mixed lymphocyte reaction (MLR) cultures. NH or TBH Ia- M phi were significantly more suppressive than their respective unseparated populations, and TBH Ia- M phi were more suppressive than their NH counterparts. When PGE2 production was blocked with indomethacin, TBH Ia- M phi-mediated suppression was reduced more than suppression mediated by all other M phi populations. A PGE2-specific ELISA showed more PGE2 in Ia- M phi-containing cultures than in those with whole M phi and more in cultures containing TBH Ia- M phi than in their NH counterparts. Because interferon-gamma (IFN-gamma) is a potent M phi activation molecule that regulates both Ia expression and PGE2 production, the effects of IFN-gamma on tumor-induced Ia- M phi-mediated suppression were investigated. Exogenous IFN-gamma reduced suppression mediated by all M phi populations except NH unseparated M phi. IFN-gamma suppressed alloreactivity without M phi or with NH unseparated M phi. Suppression mediated by NH or TBH Ia-, and TBH unseparated M phi was also reduced when M phi were pre-incubated with IFN-gamma before their addition to MLR cultures. IFN-gamma addition did not block Ia- M phi-mediated suppression by decreasing M phi PGE2 production. In fact, IFN-gamma addition increased PGE2 production two-fold in MLR cultures. However, IFN-gamma partly reduced suppression mediated by exogenous PGE2 added to M phi-depleted cultures. Cytofluorometric analysis showed that IFN-gamma increased the percentage of Ia+ M phi in NH and TBH Ia- M phi populations. Blocking TNF-alpha activity with anti-TNF-alpha antibodies caused IFN-gamma to suppress alloreactivity in all M phi-added cultures. Collectively, these data show that tumor-induced suppression mediated by Ia- M phi is caused by increased PGE2 synthesis.(ABSTRACT TRUNCATED AT 400 WORDS)

Tumor growth and adherence change the expression of macrophage Mac-2

The galactose-specific animal lectin, Mac-2, has been identified in macrophage (M phi) membrane, cytoplasmic, and nuclear fractions. Flow cytometric analyses showed that there is a decrease in membrane Mac-2 during tumor growth. After 24-h adherence there was an increase in the number of normal host (NH) and tumor-bearing host (TBH) Mac-2+ M phi. Immunoblot analyses of NH and TBH M phi identified changes in the subcellular localization of Mac-2. The increase in nuclear Mac-2 during tumor growth, and after prolonged adherence of NH and TBH M phi, correlates with an increase in M phi entering the late G1 phases of the cell cycle. Northern blot analyses showed an increase in Mac-2 mRNA during tumor growth, and an increase in NH and TBH M phi after 24-h adherence. Tumor growth is able to manipulate the immune system through M phi by causing a down-regulation in membrane Mac-2 and an up-regulation in intracellular Mac-2. NH and TBH M phi respond to adherence by expressing increased membrane and nuclear Mac-2, but TBH M phi response is lower.

Tumor growth changes the contribution of granulocyte-macrophage colony-stimulating factor during macrophage-mediated suppression of allorecognition

Tumor-bearing host (TBH) macrophages (M phi) suppress T cell alloresponses, and this study suggests granulocyte-macrophage colony-stimulating factor (GM-CSF), a molecule associated with suppressive M phi activity during tumor growth, signals more immunosuppression. In the absence of M phi, GM-CSF increased T cell proliferation in response to alloantigen. However, TBH M phi-mediated suppression of allorecogntion was further induced by GM-CSF. Allogeneic mixed lymphocyte reaction (MLR) cultures, containing normal host (NH) M phi, were either unaffected or enhanced. Prostaglandin E2 (PGE2), a highly suppressive monokine that decreases alloreactivity, did not seem to be involved in the suppression caused by the TBH M phi/GM-CSF interaction. M phi-CSF (M-CSF) addition to cultures did not reverse the suppression caused by TBH M phi and GM-CSF, and inhibition of PGE2 synthesis did not change the response to M-CSF. TBH Ia- M phi, a suppressor population that predominates among splenic M phi during tumor growth, demonstrated significantly lower reactivity in the presence of GM-CSF. In contrast, alloresponses suppressed by NH Ia- M phi demonstrated higher reactivity in the presence of GM-CSF. The data collectively suggest that TBH M phi respond differently to GM-CSF, and that tumor-induced changes in GM-CSF responsiveness affect M phi accessory ability.

Macrophages stimulated by receptor-ligand interactions exhibit differences in cell-cycle kinetics during tumor growth: stimulation at Mac-1 and Mac-3 receptors alters DNA synthesis

Phenotypic and functional changes associated with tumor-bearing host (TBH) macrophages (M phi) are partly responsible for immunosuppression during tumor growth. Flow cytofluorometric analyses revealed differences in cell-cycle kinetics between normal host (NH) and TBH M phi that were stimulated at specific receptors. Receptor-ligand interactions were induced by antibodies against Mac-1, -2, -3, and Ia receptors and changes in DNA synthesis were measured over a 12-h time course by incorporation of propidium iodide. TBH M phi showed higher DNA synthesis than NH M phi over this time course irrespective of the receptor induced. NH M phi stimulated at the Mac-1 receptor demonstrated higher DNA synthesis than control NH M phi although TBH M phi stimulated at this receptor and control TBH M phi failed to show any differences. Both NH and TBH M phi exhibited small, short-term decreases in DNA synthesis when stimulated at the Mac-2 receptor. TBH M phi that were stimulated at the Mac-3 receptor demonstrated higher DNA synthesis than their control counterparts while NH M phi stimulated at this receptor and control NH M phi showed identical levels of DNA synthesis. No differences in DNA synthesis were found among normal or TBH M phi that were stimulated through Ia. Differences in DNA synthesis did not appear to be attributable to differences in receptor expression. Further analysis of Mac-1 and Mac-3 stimulated cells revealed that DNA synthesis in NH M phi stimulated at the Mac-1 receptor returned to control levels at 48 h.(ABSTRACT TRUNCATED AT 250 WORDS)

Piroxicam, indomethacin and aspirin action on a murine fibrosarcoma. Effects on tumour-associated and peritoneal macrophages

Growth of a methylcholanthrene-induced fibrosarcoma in BALB/c mice was accompanied by an increase in the activation state of tumour-associated macrophages (TAM), as measured by their FcIgG receptor expression, phagocytic index and beta-glucuronidase levels. All of these parameters were markedly higher in TAM than in peritoneal macrophages (PM) derived from the same animal. On the other hand, PM from tumour-bearing mice showed lower activation parameters than PM from normal animals. We also studied the effect on tumour development of three inhibitors of prostaglandin synthesis: indomethacin, piroxicam and aspirin. Intraperitoneal administration of these drugs during 8 d was followed by the regression of palpable tumours. Indomethacin (90 mg/d) induced 45% regression, while with piroxicam (two 400 mg/d doses and six 200 mg/d doses) and aspirin (1 mg/d) 32% and 30% regressions, respectively, were observed. The growth rate of nonregressing tumours, which had reached different volumes by the end of the treatment, was delayed to a similar extent by the three anti-inflammatory non-steroidal drugs (NSAID). With respect to TAM, the treatment did not induce any significant change in their activation state, though both piroxicam and indomethacin increased slightly the TAM number. In contrast, NSAID administration was followed by a remarkable increase in the activation parameters of PM when compared with PM from tumour-bearing mice receiving no treatment. Indeed, these parameters were in some cases higher than those of PM from normal mice. The leukocytosis (60,000/microliters) with neutrophilia (80%) induced by tumour growth on peripheral blood leukocytes (PBL) was reversed by the treatment to values close to normal, in parallel with the reduction of tumour size. A drop in haematocrit was also noted which was most probably a consequence of tumour growth rather than of the treatment. This study reveals that the three NSAID tested have a remarkable antitumour activity, which correlates with the restoration of PM activity and PBL values.

Modulation of alloreactivity by Mac-1+, -2+, and -3+ macrophages from normal and tumor-bearing hosts: flow cytofluorometrically separated macrophages

Macrophages (M phi) are multifunctional cells that regulate humoral and cellular immune responses. Our studies of tumor-induced M phi-mediated dysfunction used M phi subsets which were defined by their Mac-1, Mac-2, and Mac-3 surface markers. To measure the accessory activity of M phi for T cell alloreactivity, thioglycollate-elicited peritoneal M phi from normal and tumor-bearing hosts (TBH) were labeled with anti-Mac-1, -2, or -3 antibodies and separated by flow cytofluorometry. The separated Mac-1+, -2+, and -3+ M phi were called sorted M phi, while unseparated M phi were designated unsorted M phi. Both M phi types were added to mixed lymphocyte reaction (MLR) cultures at concentrations ranging from a low of 2% M phi to a high of 20% M phi. The low concentration of unsorted normal host M phi caused a 31% suppression of alloreactivity. Suppression reached 68% when high concentrations of unsorted normal host M phi were added to the MLR cultures. Unsorted TBH M phi reduced alloreactivity by 64% and 86% at low and high concentrations, respectively. When separated into subpopulations, normal host Mac-1+ M phi reduced alloreactivity by 48% and 81% when added at low and high concentrations, respectively. TBH Mac-1+ reduced alloreactivity by 31% and 59% at low and high concentrations, respectively. There were no differences in the suppression caused by normal or TBH Mac-2+ M phi, and by normal or TBH Mac-3+ M phi. Indomethacin treatment did not effect the suppression caused by Mac-1+ M phi, suggesting that proataglandin E2 was not involved. Indomethacin treatment did reduce suppression mediated by Mac-2+, -3+, and unsorted M phi. Mac-2+ M phi dramatically enhanced alloreactivity at low concentrations with normal host Mac-2+ M phi providing greater enhancement of alloreactivity than TBH Mac-2+ M phi. The division of M phi into subpopulations on the basis of Mac antigens suggested that Mac-1+ and -3+ M phi played a major role in immunosuppression in the normal host, while Mac-3+ M phi were more active in TBH immunosuppression. Because no one population of sorted TBH M phi was more suppressive than sorted normal host M phi, we suggest that tumor-induced immunosuppression may involve a network of suppressor M phi.

Tumor modulation of autoreactivity: decreased macrophage and autoreactive T cell interactions

The autologous mixed lymphocyte reaction (AMLR) is an in vitro measure of autoreactivity, a key mechanism in immune homeostasis. In this system, macrophages (M phi) act as accessory cells to autoreactive L3T4+ T cells by presenting self-Ia and releasing soluble modulators. During tumor growth, changes occur in M phi and T cells. Tumor-bearing host (TBH) M phi have a reduced ability to act as accessory cells. In fact, TBH M phi suppressed autoreactivity by 60-70%. The decrease in TBH M phi or T-cell abilities was not due to differences in cell numbers or incubation time. Because tumor growth causes increased prostaglandin E2 (PGE2) production by M phi, indomethacin was used to assess the contribution of prostaglandins. Normal and TBH T-cell reactivity increased nearly 50% when stimulated by normal host M phi, while normal and TBH T-cell reactivity increased nearly 100% when stimulated by TBH M phi. Thus increased prostaglandin production is partly responsible for the increased TBH suppressor M phi activity and in the normal host, suppressor M phi may be responsible for maintaining immune regulation. To assess the direct role of prostaglandins in T-cell hyporesponsiveness, PGE2 was titrated into the cultures. PGE2 suppressed normal and TBH T-cell responsiveness in a dose-dependent manner. Normal host T cells were suppressed to a greater extent than TBH T cells by PGE2 (66% versus 42% suppression, respectively). Reduced Ia expression and active suppressor mechanisms are not the only mechanisms mediating hypoautoreactivity during tumor growth. TBH autoreactive L3T4+ T cells were less responsive to self-Ia; they were only 60-80% as reactive as their normal counterparts. To address whether the helper T (TH)-cell defect involved cytokines, T cells were treated with interleukin (IL)-1, IL-2, and IL-4. In all cases, the TBH T-cell response to the factors was decreased (only 60-75% as reactive as normal T cells). Because TBH M phi-mediated suppression can override the addition of IL-1, IL-2, and IL-4, indomethacin was also added with the exogenous interleukins. This coaddition significantly enhanced normal host autoreactivity above control levels while TBH autoreactivity (the combination of TBH T cells and TBH M phi) only returned to normal host unstimulated levels. Tumor growth modulates the immune response at least by (i) decreasing the accessory cell abilities of TBH M phi through decreased Ia expression and increased production of suppressive molecules such as prostaglandins; and (ii) decreasing the responsiveness to immune enhancing factors by TH cells.

Normal and tumor-bearing host macrophage responses: variability in accessory function, surface markers, and cell-cycle kinetics

Normal and tumor-bearing host (TBH) peritoneal macrophage (M phi) responses to in vitro lipopolysaccharide (LPS) treatment were measured by assessing functional and phenotypic changes. Both normal and TBH untreated M phi suppressed mixed lymphocyte reaction (MLR) reactivity at all concentrations. Normal host M phi treated with LPS for 3 h were suppressive at all concentrations. TBH M phi treated with LPS for 3 h were not suppressive in the MLR until more than 5% were added. Surprisingly, 24 h treatment of normal and TBH M phi with LPS induced cells that significantly enhanced MLR reactivity when added at 2% or 5%. These cells were not suppressive until a 20% M phi concentration was reached. LPS treatment of normal and TBH M phi changed the percentage of cells expressing the surface markers Mac-1, -2, -3, and Ia as determined by flow cytometry. Normal host peritoneal M phi treated with LPS for 3 h had decreased Mac-1 and -3 expression, but there was no change in Mac-2 or Ia. Plating for 24 h did not change the percentage of M phi expressing Mac-1, -3, or Ia but did cause an increase in Mac-2+ M phi. Treatment of normal host M phi with LPS for 24 h led to a decrease in Mac-1+ and Ia+ M phi, no change in Mac-3+ M phi, but an increase in Mac-2+ M phi. LPS treatment of TBH M phi for 3 h decreased the number of Mac-1+ M phi, but Mac-2+, -3+, or Ia+ M phi numbers did not change. Plating TBH M phi for 24 h caused a decrease in the number of Mac-1+ M phi, no change in Mac-3+ or Ia+ M phi, but an increase in Mac-2+ M phi. Treatment with LPS for 24 h led to no change in the number of Mac-1+, -3+, or Ia+ TBH M phi, but Mac-2+ M phi increased. The phenotypic and functional changes after LPS treatment led us to ask if these changes were detectable at the level of DNA and RNA. Flow cytometric analysis of acridine orange-stained M phi was used to measure DNA and RNA levels. This analysis determines M phi cell-cycle kinetics and estimates their RNA synthesis. In normal host M phi, a 3-h LPS treatment caused a decrease of cells in G0/G1 but an insignificant change in RNA levels.(ABSTRACT TRUNCATED AT 250 WORDS)

Normal and tumor-bearing host splenic macrophage responses to lipopolysaccharide

Lipopolysaccharide (LPS) was used to assess the responses of normal and tumor-bearing host (TBH) macrophages (M phi) to activation signals. M phi were incubated with LPS for either 3 hr or 24 hr and then assayed for phenotypic, functional, or cell-cycle changes. A 3-hr LPS treatment had no significant effect on M phi phenotype. In contrast, the 24-hr LPS treatment caused a significant decrease in the percentage of normal host Mac+ and Ia+ M phi. In the TBH, a 24-hr LPS treatment caused an increase in the percentage of Mac-1+ and -2+ M phi and a decrease in the percentage of Mac-3+ and Ia+ M phi. When normal host M phi were plated for 24 hr (control), there was an increase in Mac-1+ and -2+ M phi and a decrease in Ia+ M phi. The 24-hr TBH control showed a decrease in Mac-1+ and Ia+ M phi. To assess functional changes, LPS-treated normal and TBH M phi were added to the allogeneic mixed lymphocyte reaction (MLR) or the autologous MLR (AMLR). There were no significant differences in M phi accessory activity after a 3-hr LPS treatment. A 24-hr LPS treatment of normal host M phi also had no effect. A 24-hr LPS treatment of TBH M phi led to a significant decrease in allogeneic T-cell reactivity, and even the 24-hr TBH control showed significant suppression of T-cell responsiveness. In the AMLR, a measure of autoreactive T-cell responsiveness, a 3-hr LPS treatment had no affect on normal host M phi but led to increased accessory ability in TBH M phi. TBH M phi, however, were still less than 50% as responsive as normal host M phi even after LPS treatment. The 24-hr LPS treatment caused a significant decrease in normal or TBH M phi accessory activity. A 24-hr plating of normal host M phi decreased their accessory ability. In addition to the phenotypic and functional changes after LPS treatment, M phi cell-cycle kinetics were also investigated. The percentages of normal host M phi in G0/G1 were not changed significantly after a 3-hr LPS treatment. In contrast, M phi plated for 24 hr with or without LPS had a decreased percentage of cells in G0/G1. Normal host M phi showed little change in total RNA levels after a 3-hr treatment but had increased RNA levels after a 24-hr treatment.(ABSTRACT TRUNCATED AT 400 WORDS)

Immunosuppression in murine renal cell carcinoma. I. Characterization of extent, severity and sources

Four cell-mediated immunological responses related to tumor elimination have been examined in mice injected with a transplantable renal cell carcinoma (Renca). Lymphokine-activated killer (LAK) cells generated in vitro from spleen cells of normal mice were capable of attacking Renca, EL-4, P815 and YAC-1 targets, but those from mice bearing Renca for 3 weeks could not. Natural killer activity, stimulated in vivo by administering poly(I) poly(C), was less than 50% of normal in Renca-bearing hosts. In addition, development of cytotoxic T lymphocytes to allogeneic targets was markedly inhibited in mice possessing the renal tumor. Finally, the delayed hypersensitivity response to a dermally applied hapten was approximately 70% less than normal in tumor-bearing mice, no matter whether the tumor existed subcutaneously or intrarenally. A kinetic study of the development of non-responsiveness using the LAK assay showed onset of poor response at 1 week, which became maximal within 3 weeks following receipt of tumor subcutaneously. The immunological depression was seen to be attributable in part to suppressor cells present among spleen cells but not bone marrow cells of tumor-bearing hosts. The suppressor cells prevented in vitro LAK generation by normal spleen cells and, when adoptively transferred to normal mice, they inhibited natural killer stimulation and delayed hypersensitivity generation. Another source of immunological down-regulation was provided by Renca cells themselves. Incorporation of Renca cells that had been X-irradiated with 30,000 rad into cultures of normal and Renca-derived splenic cells suppressed replication of both almost completely. Furthermore, the presence of X-irradiated Renca cells in cultures of normal spleen cells prevented development of LAK cells. Thus, the suppression seen in Renca-bearing mice derives from multiple sources and whether each is in any way related to the other has been discussed. Identification of the phenotypes of cells responsible for the lymphoid cell-mediated suppression and examination of its elimination are communicated in the companion paper.

Two-color flow cytometric analysis of the expression of MAC and MHC class II antigens on macrophages during tumor growth

Tumor-bearing host (TBH) macrophages (M phi) exhibit immune dysfunction that is concomitant with phenotypic changes. We examined M phi subpopulations by changes in the expression of surface antigens Mac-1, -2, -3, and Ia on normal and TBH peritoneal and splenic M phi. M phi were double-labeled and analyzed by flow cytometry to observe multiple expression of surface antigens. Tumor growth alters the multiple expression of these M phi markers. Peritoneal and splenic M phi had different Mac+ and Mac+Ia+ population percentages. In TBH, peritoneal M phi had decreased percentages of Mac-1+2+, Mac-1+3+, Mac-2+3+, and Mac+Ia+ M phi. This decrease correlated with functional changes in TBH M phi. In contrast, there was an increase in Mac-2-Ia- TBH peritoneal M phi. Previously undiscovered Mac-1+2-3- and Mac-1-2-3+ populations were found. In contrast to peritoneal M phi, there was an increase in the percentage of Mac-1+2+, Mac-1+3+, and Mac-2+3+ splenic TBH M phi but, like peritoneal M phi, there was a decrease in the percentage of Mac+Ia+ M phi. Also, TBH splenic M phi showed a smaller but more uniform antigen density than normal host splenic M phi. Tumor growth modulated phenotypic alterations in peritoneal and splenic M phi subpopulations. Combined with earlier functional studies of M phi subpopulations, these data suggested a relationship between changes in M phi phenotype and tumor-induced dysfunction of M phi-modulated immune activity.

Tumor-induced alteration in macrophage accessory cell activity on autoreactive T cells

Using a tumor-model system, differences in the accessory cell capabilities on autoreactive T cells of splenic macrophages from normal and tumor-bearing hosts (TBH) were assessed in the syngeneic mixed lymphocyte reaction. Tumor development caused a drop in autoreactivity. At 0 and 7 days of tumor growth, no drop in reactivity occurred when TBH macrophages were used as accessory cells and L3T4+ autoreactive T cells from normal mice were used as responder cells. However, by day 14, there was a 32% drop in reactivity, and by day 21 only 22% of the T cell reactivity remained when TBH macrophages were used as accessory cells. Alterations in macrophage Ia antigen during tumor growth were first investigated as the potential cause of reduced autoreactivity. Before tumor growth (day 0) 59% of the splenic macrophages were found to be Ia+. Day-7 TBH macrophages showed no difference in Ia antigen expression when compared to day 0 macrophages. However, by day 14, TBH macrophages showed a 9% decrease, and by day 21 they showed a 36% decrease in the number which were Ia+. Concomitant with the decrease in the number of Ia+ cells was a decrease in the density of Ia antigen expression on day-14 and -21 TBH macrophages. In day-14 and -21 TBH macrophages, two populations were seen that were Ia+. The first had a 10%-20% decrease in Ia antigen expression per cell while the second population had a greater than 50% drop in Ia antigen expression per cell. By titrating and mixing TBH macrophages with normal host macrophages, we assessed whether they could actively mediate suppression of autoreactive T cells. A titratable suppressive phenomenon was demonstrated using day-21 TBH macrophages. In contrast, day-7 and -14 TBH macrophages titrated with normal host macrophages had no effect on the syngeneic mixed lymphocyte reactivity. Lastly, we investigated whether the macrophage-mediated suppression was caused by increased prostaglandin secretion. Addition of indomethacin to cultures increased autoreactive T cell reactivity stimulated by normal or TBH macrophages (59% and 99% increase, respectively). Although indomethacin reduced suppression mediated by TBH macrophages, autoreactivity did not return to levels induced by untreated or indomethacin-treated cells from a normal host. Taken together, the data suggested that tumor growth modulates the function of macrophage accessory cells with autoreactive T cells in at least two ways: by decreasing Ia antigen expression and by increasing suppressor activity.