Linda A. Everse

Liposomal meningococcal B vaccination: Role of dendritic cell targeting in the development of a protective immune response

ABSTRACT The effect of targeting strategies for improving the interaction of liposomal PorA with dendritic cells (DC) on the immunogenicity of PorA was investigated. PorA, a major antigen of Neisseria meningitidis, was purified and reconstituted in different types of (targeted) liposomes, i.e., by using mannose or phosphatidylserine as targeting moieties, or with positively charged liposomes. We studied the efficiency of liposome uptake and its effect on the maturation of and interleukin 12 (IL-12) production by murine DC. Moreover, mice were immunized subcutaneously to study the localization and immunogenicity of PorA liposomes. Uptake of liposomes by DC was significantly increased for targeted liposomes and resulted in the maturation of DC, but to various degrees. Maturation markers (i.e., CD80, CD86, major histocompatibility complex class II, and CD40) showed enhanced expression on DC incubated with targeted PorA liposomes relative to those incubated with nontargeted PorA liposomes. Moreover, only the uptake of targeted PorA liposomes induced production of IL-12 by DC, with levels similar to those produced by lipopolysaccharide (LPS)-pulsed DC. Mannose-targeted PorA liposomes administered subcutaneously had an increased localization in draining lymph nodes compared to nontargeted PorA liposomes. Liposomes in draining lymph nodes interacted preferentially with antigen-presenting cells, an effect that was enhanced with targeted PorA liposomes. Immunization studies showed an improvement of the bactericidal antibody response (i.e., increased number of responders) generated by targeted PorA liposomes compared to that generated by nontargeted ones or LPS-containing outer membrane vesicles. In conclusion, the use of targeted PorA liposomes results in an improved uptake by and activation of DC and an increased localization in draining lymph nodes. These effects correlate with an enhanced immune response toward the vaccine.

Mechanisms of macrophage cytotoxicity in IL-2 and IL-12 mediated tumour regression

IL-2 and IL-12 are promising anti-tumour agents. However, little attention has been paid to the role of macrophages during IL-2/IL-12 mediated tumour rejection. We studied the role of macrophages during IL-2/IL-12 mediated tumour rejection in DBA/2 mice bearing syngeneic SL2 lymphoma. Local treatment with IL-2 and IL-12 cured 85% of mice with severe metastasised tumour load. In vivo depletion studies showed that macrophages were required for the anti-tumour effect of IL-2 and IL-12. Macrophages could kill tumour cells both non-specifically and by antibody-dependent cellular cytotoxicity (ADCC). Treatment with IL-2, IL-12 or IL-2/IL-12 enhanced production of specific IgG1 immunoglobulins, while treatment with IL-12 and IL-2/IL-12 additionally induced IgG2a production. FcγRII and/or III were essential for ADCC expression after treatment with IL-2 and IL-12. These data show for the first time the essential role of macrophages during IL-2/IL-12 mediated tumour rejection and also suggest that IL-2 and IL-12 act via different mechanisms.

Analgesics in mice used in cancer research: reduction of discomfort?

During the last decades, an increase is apparent in the use of analgesics for laboratory animals in situations where this was previously considered unnecessary. Mice with advanced tumours often show clear signs of discomfort which may be a result of chronic pain or a result of general ill-being. The syngeneic murine tumour model most frequently used in our experiments was used to investigate whether this discomfort can be reduced with an analgesic. Twenty DBA/2 mice bearing SL2 lymphoma were given 0.5 mg/kg buprenorphine (Temgesic®) in food gel twice daily, 20 tumour-bearing mice were given control food gel at the same times. Indicators of well-being were monitored daily. These included behavioural parameters such as exploration, grooming, and posture; food and water consumption and fur quality. All mice showed a clear increase of discomfort with time: explorative behaviours and grooming decreased, while sitting in hunched posture increased. Food and water consumption and fur quality also decreased. Major significant differences between the buprenorphine treated group and the control group were not apparent. In conclusion, we could not document a positive effect or buprenorphine on discomfort in mice as evaluated by our scoring system. It remains possible that pain itself was not the primary cause of the discomfort in mice bearing these tumours, or that the analgesic effect of buprenorphine was insufficient under these circumstances.

Anti-tumor effects of local irradiation in combination with peritumoral administration of low doses of recombinant interleukin-2 (rIL-2)

The aim of this work was to improve radiotherapy results by immune stimulation. We tested the effects of a combination of radio- and immunotherapy, i.e., local low dose recombinant interleukin-2 (rIL-2) treatment, in two murine tumor models. Syngeneic tumors (SL2 lymphoma or M8013 mammary carcinoma) were induced subcutaneously on one or both flanks of mice. Irradiation was given either as a single dose (20 Gy) or fractionated (25 Gy) in 2 weeks. One or two cycles of rIL-2 were given concurrent with or subsequent to radiotherapy. One cycle of rIL-2 consisted of peritumoral injections administered on 5 consecutive days. Treatment effects were measured in terms of local tumor response and disease-free survival (DFS). The combined treatment modality was significantly better than treatment with either irradiation alone or rIL-2 alone. When tumors were inoculated on both flanks of the mice, combined radioimmunotherapy of one of the tumors also resulted in regression of the contralateral untreated tumor, indicating that a systemic anti-tumor immune reaction was induced. Additional rIL-2 injections did not enhance radiation toxicity. In conclusion supplementing irradiation with locally administered low doses of rIL-2 results in better local anti-tumor responses and DFS rates than either treatment alone without enhanced treatment toxicity. Furthermore, the local treatment induces a systemic anti-tumor reaction, influencing the growth patterns of a second, untreated tumor.

Local low‐dose interleukin‐2 induces systemic immunity when combined with radiotherapy of cancer. A pre‐clinical study

Tumor recurrence and outgrowth of metastases limit the therapeutical effect of radiotherapy. We have tested whether these problems can be overcome by supplementing radiotherapy with locoregional interleukin‐2 (IL‐2) treatment. The SL2 lymphoma and the M8013 mammary carcinoma were used. Mice bearing a 10‐day‐old s.c. tumor were locally irradiated and were treated daily with IL‐2 peritumorally for 5 or 10 days. Low‐dose IL‐2 therapy improved local response (LR) and increased disease‐free survival (DFS) in both tumor models following either single‐dose irradiation or fractionated irradiation. For example, 93% of SL2‐bearing mice treated with single‐dose irradiation and 10 days of IL‐2 experienced long‐term DFS, compared with 17% for irradiation alone (p < 0.0001). Additionally, treatment of one tumor with irradiation +IL‐2 led to anti‐tumor effects in a second, untreated tumor in 80% of SL2‐bearing mice. LR was increased to 100% and DFS to 70% when the second, non‐irradiated tumor was also treated with peritumoral IL‐2. We conclude that supplementing local radiotherapy with low doses of IL‐2 results in increased local tumor control and regression of distant, non‐irradiated tumors. This type of radioimmunotherapy is a promising new approach for the clinic. Int. J. Cancer 72:1003–1007, 1997.

Identification and monitoring of effector and regulatory T cells during experimental arthritis based on differential expression of CD25 and CD134

Major problems in the analysis of CD4+ effector cell and regulatory T cell (Treg) populations in an activated immune system are caused by the facts that both cell types can express CD25 and that the discriminatory marker forkhead box p3 can only be analyzed in nonviable (permeabilized) cells. Here, we show that CD134 (OX40) can be used as a discriminatory marker combined with CD25 to isolate and characterize viable CD4+ effector cells and Tregs. Before and during adjuvant arthritis in rats, coexpression of CD134 and CD25 identified activated Tregs consistently, as these T cells proliferated poorly to disease‐associated antigens and were suppressive in vitro and in vivo. Depending on the time of isolation and location, CD4+ T cell populations expressing CD134 or CD25 contained effector/memory T cells. Analysis of the function, phenotype, and amount of the CD4+ T cell subsets in different lymph node stations revealed spatiotemporal differences in effector cell and Treg compartments during experimental arthritis.

Interleukin-2: hope in cases of cisplatin-resistant tumours

Abstract To establish whether or not local low-dose recombinant interleukin-2 (rIL-2) therapy might result in therapeutic benefit for ovarian cancer patients treated with cisplatin, the antitumour effects of rIL-2 and of combined treatment with cisplatin and rIL-2 in a mouse ovarian tumour (MOT) model were studied. In addition, some possible mechanistic aspects underlying the observed antitumour responses were analysed. MOT cells were injected i.p. into syngeneic, immunocompetent, female C3HeB mice. Tumour-bearing mice received i.p. treatment with cisplatin, rIL-2 or both. The MOT tumour appeared to be hardly responsive to treatment with cisplatin only or rIL-2 only. In contrast, combined local treatment with low doses of cisplatin (1 and 5 mg/kg body weight) and rIL-2 (60 000 U/day) resulted in an effective antitumour response in MOT-bearing mice. Complete rejection of the i.p. (local) tumour occurred in up to 60% of the cases. In vitro studies showed that cisplatin and rIL-2 do not have cumulative direct toxic effects on MOT cells. Mice cured after combined treatment with cisplatin and rIL-2 were not able to reject a rechallenge with tumour cells, indicating that these mice had not developed immunity to the tumour. Analysis of tumour-associated leucocytes, however, showed that combined treatment with cisplatin and rIL-2 did result in enhanced non-specific cytolytic activity of peritoneal leucocytes. We have thus demonstrated that, in the MOT model, combined local treatment with low doses of cisplatin and of rIL-2 is far more effective than therapy with cisplatin alone. Non-specific cytotoxicity of leucocytes appears to be involved in antitumour responses induced by combined treatment with cisplatin and rIL-2. These results suggest that, in human ovarian carcinoma, much better results may be obtained with the combined treatment of cisplatin and low (non-toxic) doses of rIL-2 than with cisplatin only. This may also apply to cisplatin-resistant ovarian carcinoma.

Priming of the antitumor response promotes efficacy of interleukin-2 therapy

Abstract We have studied the effect of active specific immunization (ASI) on the antitumor response induced by locoregional, low-dose interleukin-2 (IL-2) therapy. On day 0, mice were injected i.p. with viable, syngeneic tumor cells and with irradiated tumor cells (ASI). Low-dose IL-2 treatment was given i.p. for 5 consecutive days. ASI led to extended survival in two out of seven models tested. In these two models, enhanced efficacy was observed when both ASI and IL-2 were administered. In the five models in which ASI had no therapeutic value, ASI+IL-2 treatment was no more effective than IL-2 therapy. In the SL2 lymphoma model, use of ASI prior to IL-2 therapy given as early as days 1–5 led to at least 60% cure, whereas IL-2 therapy without ASI was only effective when administered after day 9. In the P815 mastocytoma model, however, ASI, IL-2, and the combination caused negative (suppressive) effects when administered on days 6–10. IL-2 administered on days 6–10 was therapeutically effective in this model when mice were treated with cyclophosphamide on day 6. In both the SL2 and the P815 tumor models, cured mice were specifically immune. The positive and negative effects observed were not due to the increased number of cells injected (non-specific inflammation) nor to possible antigenic alteration of the ASI cells by irradiation, as ASI with fragmented tumor cells was also effective in inducing synergy. Investigations into the underlying mechanism indicated that CD4+ cells play an important role. In total, the results indicate that ASI may be a good supplement to locoregional IL-2 treatment if care is taken to alleviate immunosuppressive activities.

Presence of cytotoxic B220+CD3+CD4-CD8- cells correlates with the therapeutic efficacy of lymphoma treatment with IL-2 and/or IL-12.

Cancer treatment with IL-2 and IL-12 is thought to work via enhancement of proliferation and activity of T cells and NK cells. Incubation of cytotoxic T lymphocytes (CTLs) and NK cells with IL-2 and/or IL-12 results in propagation of a distinct cell type called lymphokine-activated killers (LAK) characterized by increased lytic activity against many tumor types. Here we address the question whether cytokine therapy may be efficient in treatment of a LAK-insensitive tumor and, if so, which cell type, other than classic LAK cells, is responsible for tumor cell killing. We used DBA/2 mice bearing metastasized SL2 lymphoma and treated them with locally applied IL-2 and /or IL-12 injections. We showed that IL-12 treatment is efficient, though there is a rather narrow range of effective doses because of toxicity. This toxicity may be alleviated by a single injection of IL-12 before treatment. Next, we showed that IL-12 synergistically enhances the efficacy of local IL-2 treatment. Moreover, our results indicate that the IL-2/IL-12-mediated therapeutic effect is greatest when it is given after establishment of an immune response to a tumor. Finally, we showed the existence of a unique population of lymphoid cells, namely B220+CD3+CD4−CD8−, at the site of tumor growth. These cells become highly cytotoxic to SL2 cells in mice treated with cytokines late (day 10–14) in the course of the immune response, but not in mice treated early (day 3–7), and cytotoxicity of this unique cell population correlates with the success of therapy.

Three histopathological types of retinoblastoma and their relation to heredity and age of enucleation.

The histopathology of 61 eyes was studied with special attention to the morphology of the retina adjacent to the main tumour. Three retinal types were distinguished. Retina type 1 (RT-1, 28 specimens) contained a single tumour that was sharply demarcated from surrounding normal retina. In retina type 2 (RT-2, 29 specimens) large parts of the retina were affected and the main tumour mass gradually blended with the adjacent pathological retina. Retina type 3 (RT-3, four specimens) was characterised by a retina almost entirely affected by diffuse tumour growth. RT-1 correlated significantly with early enucleation (0-3 years) both in hereditary and non-hereditary cases. RT-2 was seen in eyes enucleated later (2-5 years). The progressing tumour may release growth factors in the intraocular space that stimulate the cells of the adjacent retina and lead to multiple new primary tumours in the adjacent retinal area. RT-3 was only present in non-hereditary cases with late enucleation (at 2-5 years). Hereditary retinoblastoma cases are usually detected early. Therefore in hereditary cases RT-1 is significantly more common than RT-2. In 25 eyes of the 44 patients with unilateral sporadic retinoblastoma, multifocal tumours of the retina were observed. Such cases should not mistakenly be classified as hereditary cases on the basis of the histological pattern of multifocality of the tumour process.