Noninvasive monitoring of cancer therapy induced activated T cells using [18F]FB-IL-2 PET imaging

Cancer immunotherapy urgently calls for methods to monitor immune responses at the site of the cancer. Since activated T lymphocytes may serve as a hallmark for anticancer responses, we targeted these cells using the radiotracer N-(4-[¹⁸F]fluorobenzoyl)-interleukin-2 ([¹⁸F]FB-IL-2) for positron emission tomography (PET) imaging. Thus, we noninvasively monitored the effects of local tumor irradiation and/or immunization on tumor-infiltrating and systemic activated lymphocytes in tumor-bearing mice. A 10- and 27-fold higher [¹⁸F]FB-IL-2 uptake was observed in tumors of mice receiving tumor irradiation alone or in combination with immunization, respectively. This increased uptake was extended to several non-target tissues. Administration of the CXCR4 antagonist AMD3100 reduced tracer uptake by 2.8-fold, indicating a CXCR4-dependent infiltration of activated T lymphocytes upon cancer treatment. In conclusion, [¹⁸F]FB-IL-2 PET can serve as a clinical biomarker to monitor treatment-induced infiltration of activated T lymphocytes and, on that basis, may guide cancer immunotherapies.

Prediction model for regional or distant recurrence in endometrial cancer based on classical pathological and immunological parameters

Background:

Adjuvant therapy increases disease-free survival in endometrial cancer (EC), but has no impact on overall survival and negatively influences the quality of life. We investigated the discriminatory power of classical and immunological predictors of recurrence in a cohort of EC patients and confirmed the findings in an independent validation cohort.

Methods:

We reanalysed the data from 355 EC patients and tested our findings in an independent validation cohort of 72 patients with EC. Predictors were selected and Harrell's C-index for concordance was used to determine discriminatory power for disease-free survival in the total group and stratified for histological subtype.

Results:

Predictors for recurrence were FIGO stage, lymphovascular space invasion and numbers of cytotoxic and memory T-cells. For high risk cancer, cytotoxic or memory T-cells predicted recurrence as well as a combination of FIGO stage and lymphovascular space invasion (C-index 0.67 and 0.71 vs 0.70). Recurrence was best predicted when FIGO stage, lymphovascular space invasion and numbers of cytotoxic cells were used in combination (C-index 0.82). Findings were confirmed in the validation cohort.

Conclusions:

In high-risk EC, clinicopathological or immunological variables can predict regional or distant recurrence with equal accuracy, but the use of these variables in combination is more powerful.

Interleukin-6 receptor and its ligand interleukin-6 are opposite markers for survival and infiltration with mature myeloid cells in ovarian cancer

An increased level of interleukin-6 (IL-6) in epithelial ovarian cancer (EOC) is correlated with a worse prognosis. IL-6 stimulates tumor-growth and inflammation. We investigated the intricate interaction between the IL-6 signaling pathway and tumor-infiltrating myeloid cells (TIMs) to determine their prognostic impact in EOC. 160 EOC samples were analyzed for the expression of IL-6, its receptor (IL-6R) and downstream signaling via pSTAT3 by immunohistochemistry. Triple color immunofluorescence confocal microscopy was used to identify myeloid cell populations by CD14, CD33, and CD163. The relationship between these markers, tumor-infiltrating immune cells, clinical-pathological characteristics and survival was investigated. EOC displayed a dense infiltration with myeloid cells, in particular of the CD163⁺ type. The distribution pattern of all myeloid subtypes was comparable among the different histological subtypes. Analysis of the tumor cells revealed a high expression of IL-6R in 15% and of IL-6 in 23% of patients. Interestingly, tumors expressing IL-6 or IL-6R formed two different groups. Tumors with a high expression of IL-6R displayed low mature myeloid cell infiltration and a longer disease-specific survival (DSS), especially in late stage tumors. High expression of IL-6R was an independent prognostic factor for survival by multivariate analyses (hazard ratio = 0.474, p = 0.011). In contrast, tumors with high epithelial IL-6 expression displayed a dense infiltration of mature myeloid cells and were correlated with a shorter DSS. Furthermore, in densely CD8⁺ T-cell infiltrated tumors, the ratio between these lymphoid cells and CD163⁺ myeloid cells was predictive for survival. Thus, IL-6 and IL-6R are opposite markers for myeloid cell infiltration and survival.

Elevated serum CXCL16 is an independent predictor of poor survival in ovarian cancer and may reflect pro-metastatic ADAM protease activity

BACKGROUND

In certain cancers, expression of CXCL16 and its receptor CXCR6 associate with lymphocyte infiltration, possibly aiding anti-tumour immune response. In other cancers, CXCL16 and CXCR6 associate with pro-metastatic activity. In the current study, we aimed to characterise the role of CXCL16, sCXCL16, and CXCR6 in ovarian cancer (OC).

METHODS

CXCL16/CXCR6 expression was analysed on tissue microarray containing 306 OC patient samples. Pre-treatment serum sCXCL16 was determined in 118 patients using ELISA. In vitro, (primary) OC cells were treated with an ADAM-10/ADAM-17 inhibitor (TAPI-2) and an ADAM-10-specific inhibitor (GI254023x), whereupon CXCL16 levels were evaluated on the cell membrane (immunofluorescent analysis, western blots) and in culture supernatants (ELISA). In addition, cell migration was assessed using scratch assays.

RESULTS

sCXCL16 independently predicted for poor survival (hazard ratio=2.28, 95% confidence interval=1.29-4.02, P=0.005), whereas neither CXCL16 nor CXCR6 expression correlated with survival. Further, CXCL16/CXCR6 expression and serum sCXCL16 levels did not associate with lymphocyte infiltration. In vitro inhibition of both ADAM-17 and ADAM-10, but especially the latter, decreased CXCL16 membrane shedding and strongly reduced cell migration of A2780 and cultured primary OC-derived malignant cells.

CONCLUSIONS

High serum sCXCL16 is a prognostic marker for poor survival of OC patients, possibly reflecting ADAM-10 and ADAM-17 pro-metastatic activity. Therefore, serum sCXCL16 levels may be a pseudomarker that identifies patients with highly metastatic tumours.

The prognostic influence of tumour-infiltrating lymphocytes in cancer: a systematic review with meta-analysis

Background:

Tumour-infiltrating lymphocytes (TILs) are often found in tumours, presumably reflecting an immune response against the tumour. We carried out a systematic review and meta-analysis, aiming to establish pooled estimates for survival outcomes based on the presence of TILs in cancer.

Methods:

A Pubmed and Embase literature search was designed. Studies were included, in which the prognostic significance of intratumoural CD3+, CD4+, CD8+, and FoxP3+ lymphocytes, as well as ratios between these subsets, were determined in solid tumours.

Results:

In pooled analysis, CD3+ TILs had a positive effect on survival with a hazard ratio (HR) of 0.58 (95% confidence interval (CI) 0.43–0.78) for death, as did CD8+ TILs with a HR of 0.71 (95% CI 0.62–0.82). FoxP3+ regulatory TILs were not linked to overall survival, with a HR of 1.19 (95% CI 0.84–1.67). The CD8/FoxP3 ratio produced a more impressive HR (risk of death: HR 0.48, 95% CI 0.34–0.68), but was used in relatively few studies. Sample size and follow-up time seemed to influence study outcomes.

Conclusion:

Any future studies should be carefully designed, to prevent overestimating the effect of TILs on prognosis. In this context, ratios between TIL subsets may be more informative.

Identification of genes and pathways associated with cytotoxic T lymphocyte infiltration of serous ovarian cancer

Background:

Tumour-infiltrating lymphocytes (TILs) are predictors of disease-specific survival (DSS) in ovarian cancer. It is largely unknown what factors contribute to lymphocyte recruitment. Our aim was to evaluate genes and pathways contributing to infiltration of cytotoxic T lymphocytes (CTLs) in advanced-stage serous ovarian cancer.

Methods:

For this study global gene expression was compared between low TIL (n=25) and high TIL tumours (n=24). The differences in gene expression were evaluated using parametric T-testing. Selectively enriched biological pathways were identified with gene set enrichment analysis. Prognostic influence was validated in 157 late-stage serous ovarian cancer patients. Using immunohistochemistry, association of selected genes from identified pathways with CTL was validated.

Results:

The presence of CTL was associated with 320 genes and 23 pathways (P<0.05). In addition, 54 genes and 8 pathways were also associated with DSS in our validation cohort. Immunohistochemical evaluation showed strong correlations between MHC class I and II membrane expression, parts of the antigen processing and presentation pathway, and CTL recruitment.

Conclusion:

Gene expression profiling and pathway analyses are valuable tools to obtain more understanding of tumour characteristics influencing lymphocyte recruitment in advanced-stage serous ovarian cancer. Identified genes and pathways need to be further investigated for suitability as therapeutic targets.

Frequencies and role of regulatory T cells in patients with (pre)malignant cervical neoplasia

Oncogenic human papillomavirus (HPV)-infection is crucial for developing cervical cancer and its precursor lesions [cervical intraepithelial neoplasia (CIN)]. Regulatory T cells (T(regs)) might be involved in the failure of the immune system to control the development of HPV-induced cancer. We investigated frequencies, phenotype and activity of T(regs) in patients with cervical neoplasia. CIN and cervical cancer patients showed increased CD4(+)/CD25(high) T cell frequencies in peripheral blood and CD4(+) T cell fraction. These CD4(+)/CD25(high) T cells represent T(regs) as demonstrated by their low proliferation rate, low interferon (IFN)-gamma/interleukin (IL)-10 ratio, high expression of CD45RO, GITR, CTLA-4, forkhead box P3 (FoxP3) and low CD45RA expression. Moreover, in HPV16(+) cervical cancer patients, in-vitro depletion of CD25(+) T cells resulted in increased IFN-gamma T cell responses against HPV16 E6- and E7 peptides. Thus, increased frequencies of T(regs) in cervical cancer patients may indeed suppress HPV-specific immunity. Longitudinal analysis of CD4(+)/CD25(high) T cell frequencies in patients showed a modest decline 1 year after curative surgery or chemoradiation. This study demonstrates increased frequencies and suppressive activity of T(regs) in cervical cancer. These results imply that T(regs) may suppress the immune control of cervical neoplasia and furthermore that suppression of immunity by T(regs) will be another hurdle to overcome in therapeutic immunization strategies against cervical neoplasia.

Viral vector-based prime-boost immunization regimens: a possible involvement of T-cell competition

Vaccination with recombinant viral vectors may be impeded by preexisting vector-specific immunity or by vector-specific immunity induced during the priming immunization. It is assumed that virus-neutralizing antibodies represent the principal effector mechanism of vector-specific immunity, while killing of infected cells by vector-specific cytotoxic T lymphocytes (CTLs) has also been suggested. Using recombinant Semliki Forest virus (rSFV) expressing E6E7 antigen from human papillomavirus, we demonstrate that secondary immune responses against E6E7 are neither affected by vector-specific antibodies nor by CTL-mediated killing of infected cells. Instead, the presence of the antigen during the prime immunization appeared to be the main determinant for the boosting efficacy. After priming with rSFVeE6,7, a homologous booster stimulated the primed E6E7-specific CTL response and induced long-lasting memory. Passively transferred SFV-neutralizing antibodies did not inhibit E6E7-specific CTL responses, although transgene expression was strongly reduced under these conditions. Conversely, in mice primed with irrelevant rSFV, induction of E6E7-specific CTLs was inhibited presumably due to vector-specific responses induced by the priming immunization. When during the priming with irrelevant rSFV, E7-protein was co-administered, the inhibitory effect of vector-specific immunity was abolished. These results suggest that, apart from vector-specific antibodies or killing of infected cells, T-cell competition may be involved in determining the efficacy of viral vector-based prime-boost immunization regimens.

Immunologic aspect of ovarian cancer and p53 as tumor antigen

Ovarian cancer represents the fifth leading cause of death from all cancers for women. During the last decades overall survival has improved due to the use of new chemotherapy schedules. Still, the majority of patients die of this disease. Research reveals that ovarian cancer patients exhibit significant immune responses against their tumor. In this review the knowledge obtained thus far on the interaction of ovarian cancer tumor cells and the immune system is discussed. Furthermore the role of p53 as tumor antigen and its potential role as target antigen in ovarian cancer is summarized. Based on the increased knowledge on the role of the immune system in ovarian cancer major improvements are to be expected of immunotherapy based treatment of this disease.

Induction of human papilloma virus E6/E7-specific cytotoxic T-lymphocyte activity in immune-tolerant, E6/E7-transgenic mice

Despite promising preclinical results of various therapeutic anticancer immunization strategies, these approaches may not be effective enough to eradicate tumors in cancer patients. While most animal models are based on fast-growing transplantable tumors, malignancies in, for example, cervical cancer patients in general develop much more slowly, which may lead to immune suppression and/or immune tolerance. As a consequence, the immunomodulating signal of any therapeutic immunization regimen should be sufficiently potent to overcome this immunocompromised condition. In previous studies, we demonstrated that an experimental vaccine against human papillomavirus (HPV)-induced cervical cancer, based on Semliki Forest virus (SFV), induces robust HPV-specific cellular immune responses in mice. Now we studied whether this strategy is potent enough to also prime a cellular immune response in immune-tolerant HPV transgenic mice, in which CTL activity cannot be induced using protein or DNA vaccines. We demonstrate that, depending on the route of immunization, SFV-expressing HPV16 E6 and E7 indeed has the capacity to induce HPV16 E7-specific cytotoxic T cells in HPV-transgenic mice.

A potential role of macrophage activation in the treatment of cancer

One of the functions of macrophages is to provide a defense mechanism against tumor cells. In the last decades the mechanism of tumor cell killing by macrophages have been studied extensively. The tumor cytotoxic function of macrophages requires stimulation either with bacterial cell wall products such as lipopolysaccharide (LPS) or muramyldipeptide (MDP) or with cytokines such as interferon-gamma (IFN-gamma) and granulocyte-macrophage colony-stimulating factor (GM-CSF). Activated macrophages secrete several substances that are directly involved in tumor cell killing i.e. tumor necrosis factor (TNF) and nitric oxide (NO). On the other hand, substances are secreted that are able to stimulate tumor cell growth, depending on the stage and the nature of the tumor. Several clinical trials have been performed aiming at the activation of macrophages or dendritic cells, a subpopulation of the macrophages. In this review we will summarize and discuss experimental studies and clinical trials based on the activation of macrophages.

Immunization strategy against cervical cancer involving an alphavirus vector expressing high levels of a stable fusion protein of human papillomavirus 16 E6 and E7

We are developing immunization strategies against cervical carcinoma and premalignant disease, based on the use of recombinant Semliki Forest virus (SFV) encoding the oncoproteins E6 and E7 from high-risk human papilloma viruses (HPV). Thus far, protein-based, as well as genetic immunization studies have demonstrated low to moderate cellular immune responses against E6 and E7. To improve these responses, we modified the structure and expression level of the E6 and E7 proteins produced by the SFV vector. Specifically, a construct was generated encoding a fusion protein of E6 and E7, while furthermore a translational enhancer was included (enhE6,7). Infection of cells with recombinant SFV-enhE6,7 resulted in the production of large amounts of the E6,7 fusion protein. The fusion protein was more stable than either one of the separate proteins. Immunization of mice with SFV-enhE6,7 resulted in strong, long-lasting HPV-specific cytotoxic T lymphocyte responses. Tumor challenge experiments in mice demonstrated that immunization with SFV-enhE6,7 resulted in prevention of tumor outgrowth and subsequent protection against tumor re-challenge.

Replication-defective recombinant Semliki Forest virus encoding GM-CSF as a vector system for rapid and facile generation of autologous human tumor cell vaccines

This paper describes the production of recombinant Semliki Forest virus encoding murine or human granulocyte-macrophage colony-stimulating factor (GM-CSF) and the capacity of these vectors to transduce murine and human tumor cells ex vivo. High-titer stocks (up to 3 x 10(9) particles/ml) of conditionally infective, replication-defective, recombinant SFV particles were generated using the SFV Helper-2 system. It is shown that the recombinant SFV/GM-CSF virus, as well as recombinant SFV carrying the beta-galactosidase reporter gene, efficiently transduce both murine tumor cell lines as well as primary human renal carcinoma cells. Using ELISA's specific for GM-CSF, levels of GM-CSF production by the cells were determined. Levels of murine GM-CSF (mGM-CSF) produced by SFV/mGM-CSF transduced renal cell cancer cultures were equal to or higher than corresponding levels reported in the literature after transduction of similar renal carcinoma cell cultures using a retroviral vector system. The biological activity of GM-CSF was demonstrated by using cells which are dependent on GM-CSF for growth and by using primary bone marrow cells. All the transduced cell cultures (including the human renal cell carcinoma samples) produced GM-CSF for up to at least 4 days after transduction. The results imply that the recombinant SFV system can be used for rapid and facile preparation of autologous cancer cell vaccines.

Expression of cyclooxygenase-2 and inducible nitric oxide synthase in human ovarian tumors and tumor-associated macrophages

This study investigates whether and to what extent cyclooxygenase type-2 (COX-2) and inducible nitric oxide-synthase (iNOS), both known to have an immunosuppressive effect, are expressed in human ovarian tumors. Because COX-2 and iNOS can be expressed by activated macrophages, the presence of tumor-associated macrophages and the expression of COX-2 and iNOS by these tumor-associated macrophages were determined. The results obtained may provide insight into the function of COX-2 and iNOS expression by tumors. The expression of COX-2 and iNOS in tumor cells and macrophages was assessed in 18 malignant, 15 borderline, and 14 benign human ovarian tumors by immunohistochemical staining of frozen tissue sections. The intra- and peritumoral macrophages were stained using an anti-CD68 monoclonal antibody. Most of the malignant tumors (15 of 18), 10 of 15 borderline, and 9 of 14 benign tumors showed COX-2 expression in the epithelial cells, a result which indicates that COX-2 expression is not exclusive to malignancy. In addition, COX-2 staining was more intense in the epithelial cells of benign and borderline tumors than in malignant tumors. Weak iNOS staining was observed in 5 of 18 malignant, 4 of 15 borderline, and 5 of 14 benign tumors. The number of tumor-associated macrophages varied widely between the different tumors. The highest number of tumor-associated macrophages (> or =20/0.125 mm(2)) was observed in malignant tumors, whereas low to moderate intra- and peritumoral macrophage infiltration (5-20/0.125 mm(2)) was observed in the borderline and benign tumors. COX-2-positive tumor-associated macrophages were found in 3 of 18 malignant tumors, 7 of 15 borderline tumors, and 1 of 14 benign tumors. The number of COX-2-positive tumor-associated macrophages ranged from 3 to 30% of the total macrophage population. Some malignant (4 of 18), borderline (5 of 15), and benign (2 of 14) tumors contained iNOS-positive macrophages. Notable was that COX-2- and iNOS-positive macrophages were predominantly located in the tumor stroma, the regions between tumor and stroma, and in the lumina of the tumor when located in the tumor tissue. These data indicate that not only malignant but also borderline and benign ovarian tumors can exhibit increased levels of COX-2 and iNOS expression. In addition, a small proportion of the tumor-associated macrophages found in malignant, borderline, and benign tumors seems to be in an activated state, judged by their iNOS and COX-2 expression. This subpopulation of tumor-associated macrophages was invariably located in the tumor stroma or in the lumina of the tumor, specifically suggesting that macrophages outside the tumor can be tumor cytotoxic.

Activation of peritoneal cells upon in vivo transfection with a recombinant alphavirus expressing GM-CSF

In this study we determined the in vivo localization of recombinant proteins expressed by intraperitoneally (i.p.) injected recombinant Semliki Forest virus (SFV) particles. Subsequently, we investigated the influence of i.p. administered SFV particles encoding recombinant murine granulocyte-macrophage colony-stimulating factor (rmGM-CSF) on intraperitoneal recruitment and activation of cells. Finally, the therapeutic effect of SFV-GM-CSF treatment on an i.p. growing ovarian tumor was determined. Intraperitoneal injections of recombinant SFV particles encoding the reporter protein luciferase resulted in a high level of luciferase activity in cells of the peritoneal lining and tumor cells in the peritoneal cavity. Low levels of luciferase activity were found in liver, spleen and lungs. Injection of SFV-GM-CSF particles resulted in a slight increase in the number of peritoneal macrophages and in a significant increase in the number of neutrophils. In contrast to multiple i.p. injections with commercially available recombinant GM-CSF, i.p. injected SFV-GM-CSF particles activated the macrophages to tumor cytotoxicity. Although treatment of tumor-bearing mice with SFV-GM-CSF particles did not result in prolonged survival, tumor growth was inhibited for 2 weeks. Our findings indicate that macrophage-activating cytokines expressed by the efficient and safe recombinant SFV system when administered i.p. may provide an immunotherapeutic treatment modality additional to current chemotherapeutic treatment of intraperitoneally growing cancers.

Genetic immunization against cervical carcinoma: induction of cytotoxic T lymphocyte activity with a recombinant alphavirus vector expressing human papillomavirus type 16 E6 and E7

Infection of genital epithelial cells with human papillomavirus (HPV) types 16 and 18 is closely associated with the development of cervical carcinoma. The transforming potential of these high-risk HPVs depends on the expression of the E6 and E7 early viral gene products. Since the expression of E6 and E7 is selectively maintained in premalignant and malignant cervical lesions these proteins are attractive candidates for immunotherapeutic and prophylactic strategies. This report describes the construction, characterization and the in vivo immunotherapeutic potential of recombinant Semliki Forest virus (SFV) expressing the HPV16 E6 and E7 proteins (SFV-E6E7). Western blot analysis and immunofluorescence staining demonstrated expression of E6 and E7 in BHK cells infected with SFV-E6E7. Immunization of mice with SFV-E6E7 resulted in an efficient in vivo priming of HPV-specific CTL activity. The induced CTL lysed murine tumor cells transformed with the HPV16 genome and EL4 cells loaded with an immunodominant class I-binding HPV E7 peptide. CTLs could reproducibly be induced by immunization with three injections of as few as 10(5) infectious units of SFV-E6E7. Protection from tumor challenge was studied using the tumor cell line TC-1. Immunization with 5 x 10(6) SFV-E6E7 particles protected 40% of the mice from tumor challenge. These results indicate that E6E7 expression by the efficient and safe recombinant SFV system represents a promising strategy for immunotherapy or immunoprophylaxis of cervical carcinoma.

Chemo-immunotherapy of ovarian cancer in a murine tumour model

BACKGROUND

As a majority of ovarian cancer patients will ultimately develop recurrent disease, there is an urgent need for alternative or additional approaches in the treatment of this cancer.

MATERIALS AND METHODS

The antitumour effect of i.p. administered cisplatin, liposomal muramyltripeptide phosphatidylethanulamine (L-MTP-PE) and granulocyte-macrophage colony-stimulating factor (GM-CSF) were investigated using an i.p. growing murine ovarian tumour. Tumour growth was followed by measuring weight and survival of the mice.

RESULTS

An i.p. injection of L-MTP-PE in non-tumour bearing mice resulted in an approximately 10-fold increase in the number of peritoneal cells, which were highly cytotoxic. Nonetheless, treatment of mice inoculated with MOT cells with cisplatin, L-MTP-PE and GM-CSF using different treatment schedules did not result in inhibited tumour growth when compared to treatment with cisplatin alone.

CONCLUSION

Although L-MTP-PE showed an enormous increase in peritoneal cells with high tumour cytotoxic capacity, the immunotherapeutic treatment with GM-CSF and L-MTP-PE, aimed at the recruitment and activation of the peritoneal cell population, failed to result in a significant prolongation of survival.

Serum obtained from rats after partial hepatectomy enhances growth of cultured colon carcinoma cells

Tumour-bearing rats were randomized to a 70% partial hepatectomy or a sham operation. At days 1, 3 or 14, portal and systemic serum was obtained and colon carcinoma cells were cultured in the presence of 5, 10, 20 or 50% serum. Proliferation and epidermal growth factor receptor (EGFr) expression was measured in tumour cells. Proliferation was 25-40% higher in tumour cells cultured with portal serum after hepatectomy than after sham operation when using serum obtained at day 3, but not days 1 and 14 after operation. In cultures with serum obtained at day 14 after operation CC 531 cells showed a 30% higher proliferation rate with systemic hepatectomy serum than CC 531 cells with sham systemic serum. These effects were not mediated by a change in EGFr mRNA and protein levels as the used colon carcinoma cells did not reveal EGFr activity by any of the three detection methods used.

Induction of cytotoxic T lymphocyte activity by fusion-active peptide-containing virosomes

Priming of cytotoxic T lymphocyte (CTL) activity with exogenous antigen requires introduction of the antigen into the MHC class I presentation pathway of antigen-presenting cells. In the present study, we used fusogenic reconstituted envelopes (virosomes), derived from influenza virus, as a carrier system for delivery of a synthetic soluble peptide corresponding to a major murine CTL epitope of the influenza virus nucleoprotein (NP). Virosomes containing encapsulated NP-peptide efficiently sensitized target cells for recognition by influenza-specific CTLs generated through priming of mice with infectious virus. Intramuscular immunization of mice with peptide-containing virosomes induced a potent class I MHC-restricted CTL response against influenza-infected target cells. By contrast, an equal dose of NP-peptide encapsulated in fusion-inactivated virosomes did not induce CTL activity, indicating an essential role of the membrane fusion activity of the virosomes in the induction of the response. Likewise, NP-peptide encapsulated in liposomes, NP-peptide mixed with empty virosomes and NP-peptide in IFA failed to induce a CTL response. These results demonstrate that fusion-active virosomes represent a promising delivery system for induction of class I MHC-restricted CTL activity with non-replicating viral antigens.

[3H]thymidine incorporation into whole liver as an alternative to [3H]thymidine incorporation into DNA as a parameter of cell proliferation in regenerating liver tissue in rats

OBJECTIVE

To monitor liver regeneration following partial hepatectomy, liver cell proliferation can be measured by assaying in vivo [3H]thymidine incorporation into liver cell DNA. We hypothesized that [3H]thymidine incorporation into whole liver tissue parallels [3H]thymidine incorporation into liver cell DNA, both in high proliferating and low proliferating liver.

STUDY DESIGN

Liver cell proliferation in rats after partial hepatectomy or a sham operation was studied by measuring incorporation of [3H]thymidine into various fractions of liver tissue on days 1, 2, 3, 4 and 10 after surgery.

RESULTS

[3H]thymidine incorporation into whole liver tissue and in the protein fraction correlated well with DNA-specific [3H]thymidine incorporation into regenerating (r > .80, P < .0001) and nonregenerating liver (r > .69, P < .005). [3H]thymidine incorporation into DNA was < 5% of the total amount of administered [3H]thymidine in both sham-operated and hepatectomized rats. Significant differences in [3H]thymidine incorporation into partially hepatectomized livers as compared to sham-operated rat livers were found on days 1 and 2 (whole liver tissue and protein fraction) or day 1 (DNA) after surgery.

CONCLUSION

[3H]thymidine incorporation into whole liver tissue is a simple technique that can be used for the study of liver cell proliferation after partial hepatectomy in rats.

Effect of intraperitoneally administered recombinant murine granulocyte-macrophage colony-stimulating factor (rmGM-CSF) on the cytotoxic potential of murine peritoneal cells

We studied the effect of recombinant murine granulocyte-macrophage colony-stimulating factor (rmGM-CSF) on the cytotoxic potential of murine peritoneal cells. Mice received rmGM-CSF intraperitoneally using different dosages and injection schemes. At different time points after the last injection, mice were sacrificed, peritoneal cells isolated and their tumour cytotoxicity was determined by a cytotoxicity assay using syngeneic [methyl-3H]thymidine-labelled colon carcinoma cells. Also, the cytotoxic response to a subsequent in vitro stimulation with lipopolysaccharide was determined. Upon daily injection of 6000-54,000 U rmGM-CSF over a 6-day period, the number of peritoneal cells increased over ten fold with the highest rmGM-CSF dose. Increases in cell numbers was mainly due to increases in macrophage numbers. Upon injection of three doses of 3000 U rmGM-CSF per day for 3 consecutive days, the number of macrophages remained elevated for minimally 6 days. Although the peritoneal cells from rmGM-CSF-treated mice were not activated to a tumoricidal state, they could be activated to high levels of cytotoxicity with an additional in vitro stimulation of lipopolysaccharide. Resident cells isolated from control mice could be activated only to low levels of tumour cytotoxicity with lipopolysaccharide. Tumour cytotoxicity strongly correlated with nitric oxide secretion. When inhibiting nitric oxide synthase, tumour cell lysis decreased. Thus, the expanded peritoneal cell population induced by multiple injections of rmGM-CSF has a strong tumour cytotoxic potential and might provide a favourable condition for immunotherapeutic treatment of peritoneal neoplasms.

Different intrahepatic distribution of phosphatidylglycerol and phosphatidylserine liposomes in the rat

Liposomes with diameters of 200 to 400 nm containing phosphatidylserine (PS) or phosphatidylglycerol (PG) were injected intravenously into rats. Two hours after injection, 75% of the injected dose of PS liposomes was found in the liver and only 10% found in the spleen, while 35% of the PG liposomes was found in the liver and as much as 40% was found in the spleen. Cell-isolation experiments revealed the following remarkable difference in the intrahepatic distribution between the two liposome formulations: the PS liposomes distributed in about equal amounts to Kupffer cells and hepatocytes, despite their size (200-400 nm) exceeding that of the endothelial fenestrae (average 150 nm), whereas the PG liposomes were only taken up by the Kupffer cells and not at all by the hepatocytes. Double-label studies, using liposomes in which the lipid-moiety was radio labeled with [3H]cholesteryloleylether ([3H]CE) and the water phase with [14C]sucrose, showed that the liposomes were taken up as intact particles. These observations were confirmed through electron microscopy by determining the in situ localization of liposome-encapsulated colloidal gold particles in thin sections of liver and spleen. The differences in organ distribution are ascribed to differences in opsonization patterns of the two liposomal surfaces. For the difference in intrahepatic distribution, we offer the following two explanations: the exploitation of the blood cell-mediated forced sieving concept and the indication of a PS-specific pharmacological effect on the dimensions of the fenestrations.

Liposomal phosphatidylserine inhibits tumor cytotoxicity of liver macrophages induced by muramyl dipeptide and lipopolysaccharide

Liposomes can very efficiently deliver immunomodulators to macrophages so as to induce tumor cytotoxicity. Liposomes most widely used for that purpose contain negatively charged lipids, in particular phosphatidylserine (PS), to enhance liposome uptake by the macrophages. We investigated the effect of three negatively charged liposomal lipids on the in vitro activation of liver macrophages to tumor cytotoxicity by muramyl dipeptide (MDP) and lipopolysaccharide (LPS). Both MDP- and LPS-induced tumor cytotoxicity towards murine colon adenocarcinoma cells were strongly inhibited by PS-containing liposomes. Under comparable conditions phosphatidylglycerol (DPPG)-containing or dicetyl phosphate (DCP)-containing liposomes did not inhibit or only marginally inhibited the induction of tumor cytotoxicity. We did not observe PS-mediated inhibition of tumor cell toxicity when the exposure of the macrophages to PS-liposomes was limited to the 4-h activation period prior to addition of the tumor target cells, suggesting that the inhibitory effect is accomplished at the level of the later stages of the activation process. Previously, we showed that macrophages which are activated to tumor cytotoxicity during a 24-h incubation with MDP become refractory to a second activation with MDP. Now we observed that simultaneous incubation with PS-containing liposomes partially prevents this refractoriness, which is also compatible with an interfering action of PS at a relatively late stage in the activation process. We conclude that PS, despite its reported stimulatory effect on liposome uptake by macrophages, can seriously antagonize the effectiveness of immunomodulating agents acting on macrophages. This bears relevance to the use of PS-containing liposomes as a vehicle for such agents. The results are discussed in perspective of earlier reported pharmacological effects of PS and its metabolites.

Heterogeneity in secretory responses of rat liver macrophages of different size

Four subpopulations of hepatic macrophages, differing in size, were isolated from rat liver. The secretion of nitric oxide (NO), tumor necrosis factor-alpha (TNF-alpha), prostaglandin E (PGE) and interleukin-1 (IL-1) by freshly isolated as well as cultured cells was studied after in vitro stimulation with the immunomodulator muramyl dipeptide (MDP) in free or liposome-encapsulated form. Freshly isolated liver macrophages could be induced to secrete significant levels of NO, TNF-alpha, PGE and IL-1. The extent of secretion, however, varied substantially between macrophages of different size. The highest levels of secretion of TNF-alpha, PGE and IL-1 were observed in the fraction containing the large-size macrophages, while progressively lower levels of secretion were observed with decreasing size. In contrast, the highest levels of NO secretion were observed by small macrophages and steadily decreased with increasing size. Hepatic macrophages of different size displayed differences in secretory potential during in vitro culture. The ability of small liver macrophages to secrete NO, TNF-alpha, or PGE, following activation with MDP, gradually increased with time in culture. In contrast, large liver macrophages gradually lost their secretory ability after 1-2 days and the intermediate-size cells after 2-3 days in culture. This functional heterogeneity in secretory properties among rat liver macrophages of different size is discussed with reference to their potential role and significance in host defense against metastatic tumor growth in the liver.

Antitumor reactivity induced by liposomal MTP-PE in a liver metastasis model of colon cancer in the rat

The antitumor effects of muramyl tripeptide phosphatidylethanolamine, incorporated within the lipophilic phase of liposomes (lipMTP-PE) were studied using a model of liver metastasis of colon cancer in the rat. Intravenous immunotherapy with lipMTP-PE, when started 2 days before the inoculation of tumor cells and given twice a week, significantly reduced subsequent tumor growth in the liver. The main effect of treatment appeared to be a substantial local increase in the number of tumoricidal macrophages and lymphocytes. Tumor cell lysis by isolated macrophages in vitro, however, appeared not to be elevated above the level triggered by tumor growth alone. Therefore, the observed therapeutic effect of lipMTP-PE probably results from a combination of (1) an increase in the number of cytotoxic macrophages at the onset of metastatic growth in the liver, thus increasing the probability of lethal contacts between tumoricidal effectors and tumor cells and (2) indirect effects of lipMTP-PE, via the induction of cytokine production by liver macrophages, leading to increased numbers and/or activity of cytotoxic lymphocytes and natural killer cells.

Histochemical and electron microscopic characterization of hepatic macrophage subfractions isolated from normal and liposomal muramyl dipeptide treated rats

Subfractions of the hepatic macrophage population, differing in cell size, were isolated from normal rats and rats treated with liposomal muramyl dipeptide (lipMDP) and analyzed histochemically and by ultrastructural peroxidase cytochemistry. The majority of cells in all subfractions of control rats displayed the ultrastructural endogenous peroxidase pattern of resident liver macrophages and showed positive staining with the general macrophage markers nonspecific esterase (NSE) and monoclonal antibody ED1. Heterogeneity in intensity of NSE and ED1 staining was observed among macrophages of different size. Generally, the intensity of NSE and ED1 staining decreased with decreasing cell size. After injection of lipMDP, we observed the appearance of a discrete subpopulation of cells in the liver in addition to the resident macrophages. These cells, containing a nucleus with a characteristic shape, were predominantly recovered in the small-sized fractions and were characterized by an immature ultrastructural macrophage morphology (no or only a few lysosomes and phagosomes) and a lack of ED1 reactivity, NSE, and endogenous peroxidase. We suggest an important role for these cells in lipMDP induced antitumor capacity of the liver.

Liposomal doxorubicin-induced toxicity: depletion and impairment of phagocytic activity of liver macrophages

Doxorubicin entrapped within conventional liposomes (200 nm in diameter; lip-Dox) has major toxic effects on liver macrophages of the rat for a considerable period of time following i.v. administration, with respect to both specific phagocytic capacity and cell numbers. At different time-points after injection of lip-Dox or free doxorubicin, radiolabeled, negatively charged, "empty" test liposomes were injected. Phagocytic capacity was determined by isolating the liver macrophages and measuring the amount of macrophage-associated radioactivity. Four subfractions of liver macrophages of different cell-size and with intrinsically different phagocytic capacity were isolated. Twenty-four hours after injection of lip-Dox, the phagocytic capacity of the larger-sized liver macrophages was strongly decreased. The relatively low intrinsic phagocytic capacity of the smaller-sized macrophages was only slightly impaired. Phagocytic capacity after injection of lip-Dox was nearly restored to control values after 14 days. Blood clearance of Klebsiella pneumoniae bacteria after pre-treatment with lip-Dox was strongly decreased. Pre-treatment with the free drug and/or placebo liposomes had no effect on phagocytic and bacterial blood-clearance capacity. A major depletion of the liver macrophage population was observed, as revealed by both macrophage isolation and histology. Only 2 weeks after injection of lip-Dox, the number of cells had returned to that seen in control animals. In view of the important host-defense functions of the liver macrophages, especially in the control of tumor growth and infection, the findings reported here should be taken into consideration when lip-Dox is to be administered in anti-tumor therapy.

Tumoricidal response of liver macrophages isolated from rats bearing liver metastases of colon adenocarcinoma

Intraportal inoculation of CC531 adenocarcinoma cells into syngeneic rats causes an increase of liver macrophage cell number but not of major histocompatibility complex class II antigen expression. On day 1 after inoculation of 10(5) CC531 cells, a fixed number of isolated liver macrophages lysed significantly more target cells in vitro than did control cells. This effect was still present after 4 weeks. A 10-fold higher initial tumor dose significantly suppressed the macrophage response during the first 2 weeks. In contrast to tumoricidal activity induced by lipopolysaccharide in vitro, the tumoricidal response following in vivo challenge with tumor cells appeared not closely related to the production of reactive nitrogen intermediates, as in the latter case it was not abrogated in the presence of nitric oxide synthase inhibitor. Furthermore, the liver macrophage population appeared not fully activated after tumor inoculation as lipopolysaccharide further increased tumoricidal activity in vitro. The observed numerical and functional response of liver macrophages to intraportally inoculated tumor cells points at an important role of these cells in aspecific immune reactivity aimed at the reduction of local tumor growth. Results suggest that mechanistic differences exist between macrophage tumoricidal activity induced by tumor cells as compared with lipopolysaccharide.

Cytotoxic effects of alkylphosphocholines or alkylphosphocholine-liposomes and macrophages on tumor cells

The influence of the alkylphosphocholines (APC) on macrophage activation to tumor cytotoxicity was investigated in vitro with both mouse peritoneal and rat liver macrophages. For this purpose the compounds were used either in micellar or in liposomal form. The cytotoxic effect of micellar or liposomal APC was increased with prolongation of the aliphatic chain and was reduced for the liposomal form. Peritoneal macrophages incubated with APC-liposomes gave a comparable cytotoxic effect on MethA cells to that of the free, highly toxic APC alone. These liposomes can activate rat liver macrophages (Kupffer cells) in vitro to a moderate tumor cytotoxicity on C26 colon carcinoma cells, while the micellar APC were toxic to macrophages. A significant release of NO-radicals from peritoneal macrophages was obtained with Liposomes but not with micellar lipid. The release of tumor necrosis factor (TNF) was stimulated by incubation with micellar or liposomal HPC. Whereas the micellar HPC was comparable to lipopolysaccharide (LPS) in TNF release stimulation, the HPC-liposomes caused a much higher release.

Secretion pattern of the rat liver macrophage population following activation with liposomal muramyl dipeptide in vivo and in vitro

Incubation of rat liver macrophages in vitro with free or liposome-encapsulated muramyl dipeptide (N-acetylmuramyl-L-alanyl-D-isoglutamine; MDP) resulted in a rapid but transient release of tumor necrosis factor-alpha (TNF-alpha), followed by a slow, steady release of nitric oxide (NO) and prostaglandin (PG) E. The secretion pattern induced in situ was determined by isolating the liver macrophages at 2, 12, 24, 48, and 72 h after injection of liposomal MDP and measuring the amounts of products secreted in a 24-h period following isolation. TNF-alpha secretion was detected only in macrophages isolated as early as 2 h after injection of liposomal MDP and not at later time points. Considerable heterogeneity was observed among macrophages of different size: For example, the large-sized cells were far more potent in TNF secretion than the smaller cells. Nitric oxide secretion, on the other hand, was maintained over a full 24-h period following MDP administration and was virtually independent of macrophage size. With regard to PGE release, similar to TNF-alpha secretion, considerable differences in secretory activity between cells of different size were observed. Also in this case the large cells were several times more active than the small cells. In contrast to TNF, however, PGE secretion could be detected up to 24 h after injection of liposomal MDP. These findings support the notion that the development and maintenance of the activated state of liver macrophages, induced by immunomodulators such as liposomal MDP, are under the control of a complex network of regulatory functions and that multiple secretory products play a role in the observed macrophage-mediated cytotoxicity.

Proliferation of rat liver macrophages in vitro: influence of hemopoietic growth factors

We examined the effects of several hemopoietic growth factors on proliferation of rat liver macrophages in vitro. The proliferative response of liver macrophages to hemopoietic growth factors was assayed on the basis of [methyl-3H]thymidine uptake. Macrophage colony-stimulating factor and recombinant murine granulocyte-macrophage colony-stimulating factor stimulated [methyl-3H]thymidine incorporation in a concentration-dependent manner. With granulocyte-macrophage colony-stimulating factor, maximum incorporation was observed at 50 U/ml, whereas with macrophage colony-stimulating factor no incorporation plateau was observed up to 50% L929-conditioned medium. Incubation of liver macrophages with various concentrations of recombinant human interleukin-2, recombinant murine interleukin-3 and recombinant human interleukin-6 or culture medium alone did not result in significant incorporation of [methyl-3H]thymidine. When liver macrophages were fractionated according to cell size, highest incorporation was observed in the large macrophages. Proliferating cells in cultures of all subfractions were microscopically identified as typical macrophages by the use of macrophage-specific monoclonal antibodies. After 6 days in culture, these macrophages had functional properties similar to those of resident liver macrophages with respect to phagocytosis and in vitro activation with immunomodulators to tumorcytotoxicity and secretion of nitric oxide and tumor necrosis factor-alpha. These results suggest that macrophage colony-stimulating factor and granulocyte-macrophage colony-stimulating factor play important roles among the regulatory factors that support local proliferation of rat liver macrophages.

Functional characteristics of the rat liver macrophage population after a single intravenous injection of liposome-encapsulated muramyl peptides

In this study, we investigated different functional characteristics of the rat liver macrophage population after a single i.v. injection of liposome-encapsulated muramyl dipeptide (MDP) or its lipophilic derivative muramyl tripeptide-phosphatidylethanolamine (MTP-PE). The in situ induced tumoricidal activity of the liver macrophage population was determined in vitro against C26 colon adenocarcinoma cells. For investigating which cells are responsible for the observed cytotoxic effects, subfractions of the liver macrophage population, differing in cell size, were isolated at different intervals after injection of the liposomal muramyl peptides. From these subfractions, the number of cells, degree of cytotoxicity, and the response to an additional activation with free MDP in vitro were determined. Maximal induction of tumoricidal activity of the liver macrophage population was reached between 12 and 24 hours after injection of liposomal MDP, while no significant differences between the subfractions were observed. Heterogeneity of tumor cytolytic capacity was observed in subfractions of macrophages isolated at 2 and 48 hours after injection. At these time points, highest cytolytic activity was observed for the small to intermediate-size macrophages. No significant cytotoxicity was detectable in any subfraction 72 hours after injection of liposomal MDP. An identical pattern of macrophage tumoricidal activity was observed after injection of liposomal MTP-PE, although slightly lower cytotoxicity levels were found. When isolated during the first 12 hours after injection of liposomal MDP, the macrophage population was unable to respond to a subsequent in vitro exposure to MDP, with respect to tumor cytotoxicity. Twenty-four and 48 hours after injection, the smallest cells could be slightly reactivated, whereas the larger cells still remained unresponsive.(ABSTRACT TRUNCATED AT 250 WORDS)

Chemoimmunotherapy of murine liver metastases with 5-fluorouracil in combination with liposome-encapsulated muramyl dipeptide

The therapeutic effect of a combination of liposomal muramyl dipeptide (MDP) and 5-fluorouracil (5FU) was studied in a murine tumor model of hepatic metastases of the tumor cell line C26, a colon adenocarcinoma. Liposomal MDP (250 micrograms/kg body wt) and a low, nontoxic, dose of 5FU (10 mg/kg body wt) were mixed and administered during 6 consecutive days once daily, three times i.v. and three times i.p. Treatment was initiated 4 days after intrasplenic tumor cell injection. The combination of liposomal MDP and 5FU significantly reduced the number of liver metastases and the total tumor load in the liver. Liver weights of tumor-bearing mice treated with the combination were significantly lower than the liverweights of control mice (p < 0.005) and of mice treated with 5FU alone (p < 0.02) or liposomal MDP alone (p < 0.05). Liposomal MDP and 5FU, when given as single treatment modalities, had no significant effect on the number of metastases and liver weight. These results show that liposomal MDP can enhance the therapeutic effect of 5FU for the treatment of liver metastases.

The effect of liver macrophages on in vitro cytolytic activity of 5FU and FUdR on colon carcinoma cells: evidence of macrophage activation

While investigating the effects of 5-fluorouracil (5FU) and 5-fluoro-2'-deoxyuridine (FUdR) on the tumoricidal state of rat liver macrophages activated in vitro by means of liposome-encapsulated muramyl dipeptide (MDP), we observed that 5FU in combination with macrophages produced substantially higher extents of cytolytic activity on tumor cells than 5FU alone. In contrast, FUdR failed to produce this effect; rather, at relatively low FUdR concentrations, lytic activity in the presence of macrophages was even significantly diminished as compared with FUdR in the absence of macrophages. Both 5FU and FUdR were able to enhance the cytolytic activity of macrophages activated by liposome-encapsulated MDP. This finding indicates that, rather than inhibiting the activation of macrophages by liposomal MDP, 5FU can act as a stimulator of macrophage activation by itself. This is further supported by the observations that (i) in combination with 5FU, the secretion of TNF induced by liposomal MDP was synergistically enhanced and (ii) that a second treatment of macrophages with the drug, 24 h after the first, fails to produce increased macrophage cytotoxicity. Our results also show that neither 5FU nor FUdR are likely to unfavorably influence the induction of cytotoxic activity of the macrophages. Rather, combinations of 5FU or FUdR and liposomal MDP may result in an additive or synergistic tumoricidal effect.

Maintenance of tumoricidal activity and susceptibility to reactivation of subpopulations of rat liver macrophages

The liver macrophage population was fractionated according to cell size into three subpopulations by means of elutriation centrifugation. The total liver macrophage population and the three subpopulations were cultured and exposed to the immunomodulators muramyl dipeptide (MDP), in a free or liposome-encapsulated form, and/or lipopolysaccharide (LPS). The tumor cytotoxic activity thus induced in the populations, the preservation of this activity and the response to a second stimulus were studied. The in vitro induced cytolytic activity was determined by a radioactivity release assay, using C26 colon adenocarcinoma cells, labeled with [methyl-3H]thymidine, as target cells. MDP or LPS readily activated the total macrophage population in maintenance culture to a tumor cytotoxic state during the first 2 days after isolation. Four days after isolation, the activation induced with both MDP and LPS was strongly reduced. The small to intermediate-size macrophages could be activated to tumor cytotoxic activity with MDP for up to 3 days and with LPS for up to 4 days in culture. The large-size macrophages could only be activated up to day 2 in culture with MDP or LPS or both. The combination of MDP and LPS, however, induced all cell populations in a synergistic way to become cytolytic for up to 4 days in culture. With free MDP as an activator, the activated state decayed within 1 day to almost zero levels, but less rapidly in the small cells than in the large cells. With liposome-encapsulated MDP, the activated state was preserved considerably longer, except in the largest cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Therapy of murine liver metastases by administration of MDP encapsulated in liposomes

In a reproducible murine model of liver metastases, it was demonstrated that liposomal muramyl dipeptide (MDP) as an adjuvant therapy reduces and prevents the development of metastases. C26 colon adenocarcinoma cells were injected into the spleen (5 x 10(4) cells per mouse) of syngeneic BALB/c mice. On day 3, the spleen was removed to prevent a large tumor burden in the spleen. On day 17, 100% of the mice had developed tumor foci in the liver. Liposomal MDP treatment consisted of the i.v. or i.p. administration of 1 mumol of liposomal lipid containing 5 micrograms of MDP per mouse for ten consecutive days. When therapy was initiated two days after tumor cell inoculation, the number of metastases that had developed on day 17 was strongly reduced compared to control mice. Approximately 20% of the mice were free of liver metastases. Initiation of therapy two days prior to tumor cell inoculation enhanced the effect significantly: about 45% of the mice were free of metastases on day 17. The treatment protocol for survival studies was slightly different; liposomal MDP was administered on the first six consecutive days followed by administration twice weekly, through day 24. Control mice died between day 21 and 33 after tumor cell inoculation, whereas liposomal MDP treated mice died between day 26 and 46 with 1 out of 25 mice surviving for more than 120 days. The mortality of the liposomal MDP treated mice that were free of liver metastases was caused by a local tumor at the site of operation.(ABSTRACT TRUNCATED AT 250 WORDS)

Conditions controlling tumor cytotoxicity of rat liver macrophages mediated by liposomal muramyl dipeptide

Activation of rat liver macrophages with free and liposome-encapsulated muramyl dipeptide (MDP) to a tumorcytotoxic state was characterized by employing various experimental conditions. Macrophage-mediated tumor cytotoxicity was determined using two standard assay systems: a [methyl-3H]thymidine release assay to measure the extent of tumor cell lysis and a [methyl-3H]thymidine incorporation assay to measure the combined effects of tumor cell lysis and stasis. The extent of cell lysis was not affected by the ratio of macrophages to tumor cells within the ratio range of 30:1 to 5:1, provided that the macrophages form a confluent monolayer. Tumor cell lysis, however, was significantly influenced by macrophage density; a low macrophage density for example resulted in a low percentage of tumor cell lysis. Tumor target cells used in this study, i.e., C26 adenocarcinoma, B16 melanoma and P815 mastocytoma, differed in their susceptibility towards macrophage-mediated cell lysis, whereas no differences were observed with respect to tumor cell stasis. Non-tumorigenic cell lines such as human fibroblastic cells and LLC monkey kidney cells were not lysed by activated macrophages, although proliferation of these cells was markedly inhibited. Additionally, the effects of liposomal lipid composition on macrophage activation were studied. With a basic composition of phospholipid/cholesterol/dicetylphosphate, we used either egg-yolk, dipalmitoyl-, distearoyl- or dihexadecylphosphatidylcholine as the bulk phospholipid constituent. Although these liposomes display a widely different susceptibility to lysosomal phospholipase activities, we could not detect any significant difference in either the extent or the duration of the tumoricidal activity induced by MDP encapsulated in these different types of liposomes.

Differential effects of liposome-incorporation on liver macrophage activating potencies of rough lipopolysaccharide, lipid A, and muramyl dipeptide. Differences in susceptibility to lysosomal enzymes

We investigated the in vitro activation of rat liver macrophages to a tumor-cytotoxic state with muramyl dipeptide (MDP), rough LPS (Re-LPS) and lipid A in both a free and liposome-encapsulated form. The tumor cytotoxic state of the liver macrophages was determined with a [methyl-3H]thymidine release assay using C26 colon adenocarcinoma cells as target cells. As was shown previously, the encapsulation of MDP within multi-lamellar phospholipid vesicles greatly enhanced the activating potency of the drug; by contrast, encapsulation of Re-LPS or lipid A significantly reduced the activation of macrophages as compared to the free form of these agents. At a dose of 1 ng of free Re-LPS per ml a significant induction of tumor cell lysis was observed whereas a maximal level was obtained at a concentration of approximately 10 ng/ml. By encapsulation of Re-LPS in liposomes the activating potency diminished 20- to 100-fold. The minimal concentration required to induce detectable macrophage activation with free lipid A was 10 ng/ml, while liposome-encapsulated lipid A did not induce any detectable tumor cell lysis up to a concentration of 200 ng/ml. After a 1-h pre-incubation with a lysosomal fraction from rat liver at pH 4.8, the macrophage-activating potency of Re-LPS and lipid A was diminished by up to 95% whereas MDP remained fully active under these conditions. We conclude that, due to endocytic uptake of liposome-incorporated Re-LPS and lipid A and subsequent intralysosomal degradation, these immunomodulators are inactivated with respect to their potency to activate liver macrophages to tumor cytotoxicity.

Differential effects of liposome-incorporation on liver macrophage activating potencies of rough lipopolysaccharide, lipid A, and muramyl dipeptide. Differences in susceptibility to lysosomal enzymes

We investigated the in vitro activation of rat liver macrophages to a tumor-cytotoxic state with muramyl dipeptide (MDP), rough LPS (Re-LPS) and lipid A in both a free and liposome-encapsulated form. The tumor cytotoxic state of the liver macrophages was determined with a [methyl-3H]thymidine release assay using C26 colon adenocarcinoma cells as target cells. As was shown previously, the encapsulation of MDP within multi-lamellar phospholipid vesicles greatly enhanced the activating potency of the drug; by contrast, encapsulation of Re-LPS or lipid A significantly reduced the activation of macrophages as compared to the free form of these agents. At a dose of 1 ng of free Re-LPS per ml a significant induction of tumor cell lysis was observed whereas a maximal level was obtained at a concentration of approximately 10 ng/ml. By encapsulation of Re-LPS in liposomes the activating potency diminished 20- to 100-fold. The minimal concentration required to induce detectable macrophage activation with free lipid A was 10 ng/ml, while liposome-encapsulated lipid A did not induce any detectable tumor cell lysis up to a concentration of 200 ng/ml. After a 1-h pre-incubation with a lysosomal fraction from rat liver at pH 4.8, the macrophage-activating potency of Re-LPS and lipid A was diminished by up to 95% whereas MDP remained fully active under these conditions. We conclude that, due to endocytic uptake of liposome-incorporated Re-LPS and lipid A and subsequent intralysosomal degradation, these immunomodulators are inactivated with respect to their potency to activate liver macrophages to tumor cytotoxicity.

Endocytic and tumoricidal heterogeneity of rat liver macrophage populations

The macrophage population of the liver has been reported to be heterogeneous with respect to endocytic and lysosomal enzyme activity. Yet we demonstrate that all liver macrophages in the rat can be activated to a tumoricidal state by the i.v. injection of liposomal muramyl dipeptide (MDP). After isolation, liver macrophages were fractionated according to size into five subfractions by means of elutriation centrifugation. Tumoricidal activity of liver macrophages, activated in vivo, was determined by an in vitro radioactivity release assay using B16 melanoma and C26 adenocarcinoma cells, labeled with [methyl-3H]thymidine, as target cells. Endocytic activity of the subpopulations both in vitro and in vivo was determined using [3H]-labeled liposome preparations. Finally, the extent to which the subpopulations become cytotoxic as a result of in vitro uptake of muramyl dipeptide-(MDP)-containing liposomes was studied employing the cytotoxicity assay described above. No significant differences in cytotoxicity between the macrophage subfractions were observed after i.v. injection of liposomal MDP, although endocytic uptake of liposomes per cell increased proportionally to cell size, both in vitro and in vivo. We found that in vitro uptake of MDP-containing liposomes by the subfractions produced the highest cytolytic activity in the small to intermediate-size macrophages. When taking into consideration the different extents of liposome uptake it can be concluded that the smaller liver macrophages are significantly more susceptible to activation than the larger cells. In vivo, low activation potential is balanced by high liposome uptake capacity thus allowing the whole macrophage population in the liver to become involved in the eradication of metastatic tumor growth.

In vitro activation of rat liver macrophages to tumoricidal activity by free or liposome-encapsulated muramyl dipeptide

We investigated the in vitro activation of rat liver macrophages to a tumoricidal state with free and liposome-encapsulated immunomodulators. The cytolytic activity of liver macrophages was determined by a radioactivity release assay using murine B16 melanoma cells, labeled with [methyl-3H]thymidine. Exposure of the liver macrophages to concentrations of 50 micrograms of free, nonencapsulated, muramyl dipeptide (MDP) per ml resulted in maximal levels of tumor cell lysis of approximately 20%. Encapsulation of the MDP within liposomes (multilamellar vesicles, 0.3 to 0.5 micron in diameter, consisting of egg phosphatidylcholine, cholesterol, and dicetylphosphate, 4:5:1) not only caused a 500-fold reduction in the amount of MDP required to obtain the same levels of cytolysis but also increased the maximally obtainable level of cytolysis more than 2-fold. A synergistic effect of lipopolysaccharide and free or encapsulated MDP on cytolytic activity was observed when the macrophages were exposed to a combination of the two agents simultaneously. Besides causing tumor cell lysis, activated macrophages were also able to suppress tumor cell proliferation by 80 to 90% as determined by a [methyl-3H]thymidine incorporation assay. With a fixed amount of MDP, encapsulated in different amounts of liposomal lipid, the extent of macrophage activation was found to increase with a larger amount of encapsulating lipid. This increase in macrophage activation may be the result of a sustained intracellular release of encapsulated MDP from the liposomes. Liposome structure and composition will thus be important parameters in the in vivo application of liposomes as carriers of immunoactive substances.

T-cell maturation in the human thymus and tonsil: peanut agglutinin binding T lymphocytes in thymus and tonsil differ in maturation stage

The finding of peanut agglutinin (PNA) binding capacity, supposed to be a marker of immature lymphocytes, within the T-cell population of the human thymus (58%) and tonsil (10%) prompted the comparison of maturation stages of PNA binding (PNA+) and nonbinding (PNA-) T cells in both organs. The proliferative response after mitogenic stimulation of purified PNA+ fractions was significantly less than that of purified PNA- fractions. The results of mitogen dose-response experiments, of variation in time of culture harvest, and of addition of irradiated allogeneic peripheral blood non-T cells indicated the intrinsic mitogen unresponsiveness of cells in the PNA+ fractions. The mitogen response of tonsil fractions was higher than that of thymocyte fractions. Cells with an immature immunologic phenotype were enriched in the thymocyte PNA+ fraction, and almost absent in the tonsil fractions. Both tonsil fractions contained cells with the immunologic phenotype of mature T cells, and showed a purine interconversion enzyme makeup comparable to mature T lymphocytes. It is concluded that the tonsil PNA+ T cell is a functionally immature lymphocyte which is in a further maturation stage than PNA+ or PNA- thymocytes. The presence of PNA+ T cells outside the thymus is of relevance for the clinical evaluation of PNA binding assays and suggests the occurrence of T-cell maturation within the tonsil environment.