Combined serial section-based 3D reconstruction of cervical carcinoma invasion using H&E/p16INK4a/CD3 alternate staining.

BACKGROUND: Malignant growth and invasiveness of cancers is a function of both intratumoral and stromal factors. The accessibility to nutrients, oxygen and growth factors, the stromal composition, and the interference with the immune system all shape the tumor invasion front. A recent study has shown a prognostic difference with respect to different invasion patterns analyzed on histological specimens of cervical cancers. The present study analyzes the spatial organization of a cervical cancer and the relation of the tumor invasion front and the infiltration with CD3(+) T-cells. METHODS: From a cervical squamous cell carcinoma specimen, 84 serial sections were performed and three interleaving series were stained with hematoxylin/eosin and immunohistochemistry directed against the cervical carcinoma biomarker p16(INK4a) and the T-cell marker CD3. Sections were passed through an image processing chain to obtain a reconstructed and segmented tissue volume. For local tumor invasion front analysis the mean curvature was used, which in turn was related to the respective local minimum tumor to T-cell distance as well to a T-cell originated diffusing substance's concentration at the tumor surface. RESULTS: Spatial models of the tumor tissue and the infiltrating T-cells were computed. The overall discrete compactness of the tumor invasion front was 0.89, corresponding to a pathological assessment of diffuse infiltration. The comparison of the tumor invasion front with the density of T-cell infiltration revealed an increased smoothening in regions with high T-cell infiltration. CONCLUSIONS: We could demonstrate the spatial organization of a cervical cancer and model the interaction between infiltrating T-cells with the tumor invasion front shape. Increased smoothening in regions with high T-cell infiltration suggests that T-cells may have an influence on the shaping of the tumor invasion front, e.g., by attacking tumor cells displaying specific antigens. The applied technique allows visualization of the spatial organization of tissues and could be extended to analyze multiple stains on alternating sections.     

Synaptic clusters of MHC class II molecules induced on DCs by adhesion molecule-mediated initial T-cell scanning

Initial adhesive contacts between T lymphocytes and dendritic cells (DCs) facilitate recognition of peptide-MHC complexes by the TCR. In this report, we studied the dynamic behavior of adhesion and Ag receptors on DCs during initial contacts with T-cells. Adhesion molecules LFA-1- and ICAM-1,3-GFP as well as MHC class II-GFP molecules were very rapidly concentrated at the DC contact area. Binding of ICAM-3, and ICAM-1 to a lesser extent, to LFA-1 expressed by mature but not immature DC, induced MHC-II clustering into the immune synapse. Also, ICAM-3 binding to DC induced the activation of the Vav1-Rac1 axis, a regulatory pathway involved in actin cytoskeleton reorganization, which was essential for MHC-II clustering on DCs. Our results support a model in which ICAM-mediated MHC-II clustering on DC constitutes a priming mechanism to enhance antigen presentation to T-cells.     

Functional CD8<Superscript>+</Superscript> T cells infiltrate into nonsmall cell lung carcinoma

Infiltration of CD3(+)CD8(+) cytotoxic T cells was analyzed by multiparameter confocal laser microscopy in a panel of 16 randomly selected stage I nonsmall cell lung carcinomas. T-cell infiltration was observed in the stroma (range 57-2,093 T cells/mm(2)) but also in the tumor epithelium (range 21-892 T cells/mm(2)) and showed wide variation between individual tumors. Interestingly, a significantly higher percentage of CD3(+)CD8(+) T cells was detected in the tumor epithelium compared to the stroma illustrating that cytotoxic T cells may preferentially migrate into tumor epithelium. Aberrant HLA class I antigen expression was observed in 69% of the nonsmall-cell lung carcinoma (NSCLC) tumors. One tumor of a squamous cell lung carcinoma patient with the highest number of tumor infiltrating CD3(+) and CD3(+)CD8(+) cells was studied in detail and the majority (90%) of these cells were shown to be functionally activated granzyme B-positive cytotoxic T cells. DNA oligotyping of a lung carcinoma cell line established from this tumor revealed loss of one HLA haplotype corresponding with a translocation involving chromosome 6, as observed by COBRA-FISH. HLA class I-restricted tumor specific T cells could be isolated from PBMC. One further characterized cytotoxic CD8(+) T cell clone, that released TNF-alpha, IFN-gamma, and granzyme B upon co-incubation with the autologous tumor cells, was shown to be restricted by the remaining HLA-A11 allele, which was also shown to be expressed in the tumor tissue. Our data indicate that, despite HLA-haplotype loss a vigorous antitumor immune response mediated by CD8(+ )T-cells can be present in NSCLC offering possibilities for specific immunotherapy.     

Adoptive immunotherapy of breast cancer with lymph node cells primed by cryoablation of the primary tumor

Cryoablation of cancer leaves tumor-associated antigens intact in an inflammatory microenvironment that can stimulate a regional anti-tumor immune response. We examined whether cryoablated tumor draining lymph nodes (CTDLN) as adoptive immunotherapy may be an effective immunotherapeutic approach in the adjuvant treatment of breast cancer. BALB/c mice with MT-901 mammary adenocarcinoma tumors underwent cryoablation, resection or no treatment and tumor draining lymph nodes were harvested. Cryoablation resulted in only a mild increase in the absolute number of T-cells but a significant increase in the fraction of tumor-specific T-cells as evidenced on IFN-gamma release assay. FACS analysis demonstrated no significant relative shift in the proportion of CD4(+) or CD8(+) cells. The adoptive transfer of CTDLN resulted in a significant reduction of pulmonary metastases as compared to TDLN from either tumor-bearing mice or mice who underwent surgical excision. Cryoablation prior to surgical resection of breast cancer can be used as a method to generate effector T-cells for adjuvant adoptive cellular immunotherapy.     

Immunization with a Peptide Containing MHC Class I and II Epitopes Derived from the Tumor Antigen SIM2 Induces an Effective CD4 and CD8 T-Cell Response

Here, we sought to determine whether peptide vaccines designed harbor both class I as well as class II restricted antigenic motifs could concurrently induce CD4 and CD8 T cell activation against autologous tumor antigens. Based on our prior genome-wide interrogation of human prostate cancer tissues to identify genes over-expressed in cancer and absent in the periphery, we targeted SIM2 as a prototype autologous tumor antigen for these studies. Using humanized transgenic mice we found that the 9aa HLA-A*0201 epitope, SIM2_237–245, was effective at inducing an antigen specific response against SIM2-expressing prostate cancer cell line, PC3. Immunization with a multi-epitope peptide harboring both MHC-I and MHC-II restricted epitopes induced an IFN-γ response in CD8 T cells to the HLA-A*0201-restricted SIM2_237–245 epitope, and an IL-2 response by CD4 T cells to the SIM2_240–254 epitope. This peptide was also effective at inducing CD8⁺ T-cells that responded specifically to SIM2-expressing tumor cells. Collectively, the data presented in this study suggest that a single peptide containing multiple SIM2 epitopes can be used to induce both a CD4 and CD8 T cell response, providing a peptide-based vaccine formulation for potential use in immunotherapy of various cancers.     

CXCL7-induced macrophage infiltration in lung tumor is independent of CXCR2 expression: CXCL7-induced macrophage chemotaxis in LLC tumors

Chemokines play diverse roles in modulating the immune response during tumor development. Levels of CXC chemokine ligand 7 (CXCL7) protein vary during tumorigenesis, and the evidence suggests that this chemokine serves as a novel biomarker of early-stage lung cancer. We investigated the effect of CXCL7 gene expression on the infiltration of myeloid cells into the tumor microenvironment in Lewis lung carcinoma (LLC). Tumors established from LLC cells overexpressing CXCL7 (CXCL7-LLC tumors) increased the infiltration of CD206⁺ M2 macrophages at the early stages of tumorigenesis. This infiltration was independent of CXCR2 expression on either tumor cells or macrophages. CXCL7-LLC tumors developed faster than control-LLC tumors (IRES-LLC tumor) did. The extent of CD4⁺ T cell, CD8⁺ T cell, and natural killer T cell infiltration was similar between the two tumor groups. Our findings suggest that CXCL7 attracts macrophages especially at the tumor site and may accelerate lung tumor development in the early stages.     

A case of spontaneous systemic immunity to melanoma associated with cure after amputation for extensive regional recurrence

Purpose

Survival after amputation for melanoma is short; however, rare long-term survivors are reported. The mechanism for durable systemic tumor control in patients with regional failure is not known. To explore whether systemic tumor immunity may be implicated, tumor and circulating immune responses were examined in a patient who survived disease-free 14 years after hip disarticulation.

Methods

A 71-year-old female with extensive regional metastases of melanoma in the left lower extremity underwent amputation for palliative reasons. Tumor was collected at surgery, and blood was collected during follow-up. Tumor sections were evaluated for lymphocytic infiltration and NY-ESO-1 expression by immunohistochemistry. Cellular immune responses to defined tumor antigens were evaluated by ELISPOT assay, and antibody responses to a panel of tumor antigens were assayed by ELISA.

Results

The patient’s tumor had minimal lymphocytic infiltrate (immunotype A). NY-ESO-1 was strongly expressed by the melanoma cells. Circulating T-cell responses to NY-ESO-1 peptides were observed 6 and 12 years postoperatively, and antibodies to NY-ESO-1 were detected 2–6 years after surgery.

Conclusion

The patient described in this report experienced relentless regional tumor progression, with intravascular metastases, and then 14-year systemic disease-free survival after palliative resection, without evidence of melanoma recurrence before death from other causes. Her immune response to NY-ESO-1 likely failed to control established regional metastases because T cells were unable to infiltrate them. It is possible, however, that among other factors, the host immune response may have contributed to systemic protection.     

In situ characterization of immunologically competent cells during the growth of a transplanted murine sarcoma

To characterize the immunocompetent cell populations which infiltrate a transplantable MCA-induced sarcoma and to study their modifications during tumoral growth, we used fluorescent antibodies to the cell membrane antigens Lyt-1, Lyt-2 and Asialo GM1. Early after tumor graft, an accumulation of cells bearing the Asialo-GM1 antigen was observed; this population corresponds mostly to NK cells. Simultaneously, a macrophage infiltration, identified by a cytochemical method, was seen. After this period, an accumulation of cells bearing the Lyt-1 antigen was observed; Lyt-2 positive cells were detected continuously during experimental period.     

Crucial role of TNF-alpha in CD8 T cell-mediated elimination of 3LL-A9 Lewis lung carcinoma cells in vivo

The role of perforin, IFN-gamma, and TNF-alpha in anti-tumor CD8 T cell immunity was examined in a new tumor model using a CD8 T cell epitope (GP33) derived from lymphocytic choriomeningitis virus as a tumor-associated Ag. In contrast with parental 3LL-A9 (A9) Lewis lung carcinoma cells that progressively grow in C57BL/6 mice, s.c. injection of GP33-transfected A9GP33 tumor cells induced a protective GP33-specific CD8 T cell response that led to complete tumor cell elimination. Tumor regression was dependent on perforin, IFN-gamma, or TNF-alpha, because A9GP33 tumors developed in mice deficient in one of these genes. A9GP33 tumors arising in perforin- and IFN-gamma-deficient mice represented GP33 Ag-loss variants, demonstrating that GP33-specific CD8 T cells from these mice were able to exert an Ag selection pressure. In contrast, tumor cells growing in TNF-alpha knock-out mice still expressed the tumor-associated GP33 peptide despite the presence of activated GP33-specific CD8 T cells. These findings provide evidence for a crucial role of TNF-alpha in A9 tumor cell elimination by CD8 T cells in vivo.     

Differential expression of MHC class II molecules in highly metastatic breast cancer cells is mediated by the regulation of the CIITA transcription Implication of CIITA in tumor and metastasis development

We analyzed the differential gene expression between variants of MDA-MB-435 human breast cancer cell line that share an identical genetic background but have different metastatic ability. The major histocompatibility complex class II was found down-regulated in highly metastatic cells and correlated with MHC transactivator (CIITA) expression. Constitutive CIITA expression observed in poorly metastatic is driven by promoters III and IV of CIITA gene. Conversely, both promoters were ineffective in highly metastatic cells. The MHC class II and CIITA expression was restored in these cells upon stimulation with IFNgamma or by the treatment with a hypomethylating agent. Both treatments induced USF-1 and IRF binding complexes to promoter IV but only IFNgamma induced the binding of 435-Lung2 nuclear proteins to an ARE-1 site at the promoter III. Neither Southern blot nor bisulfite sequencing of promoter IV demonstrated strong hypermethylation of this promoter at the IFNgamma-responsive elements such as GAS, E-box or IRF-1. We suggest that partial or hemimethylation of promoter IV is sufficient to silence the CIITA expression in highly metastatic cells and that this epigenetic mechanism is responsible for the lack of MHC-II expression. Forced CIITA expression restored the MHC-II antigen expression in 435-Lung2 cells and abrogates spontaneous lung metastasis in both SCID and nude mice but also affected the tumorigenicity in nude mice. The increase in NK cell infiltration in nude mice bearing CIITA-tumors correlated with sign of tumor cell apoptosis and the increase in the number of NK cells in the spleens, suggesting that NK cells might be responsible for the observed antitumor activity.     

Tumor infiltrating leukocytes (tils) during progressive tumor growth and BCG-mediated tumor regression

Tumor regression was induced by intralesional injection with BCG, 7 days after inoculation of line 10 hepatocellular carcinoma cells into strain 2 guinea pigs. Tumor-infiltrating leukocytes (TILS) were characterized immunohistochemically with 11 monoclonal antibodies (MoAbs) during the induction phase of line 10-immunity, and during immune-mediated regression of the tumor, at days 12 and 28 after tumor cell inoculation, respectively. At day 5 after BCG-injection (day 12 after tumor cell inoculation), there were no major differences between the TIL subpopulations of the BCG-treated and untreated tumors. The TILS were mainly T-cells, as identified by MoAbs against Pan T-cells (CT5), T-cytotoxic/suppressor cells (CT6) and T-helper/inducer cells (H155). A limited number of macrophages was also present. However, at day 21 after BCG-treatment (28 days after tumor cell inoculation), the fibrous stroma was increased dramatically in most of the BCG-treated tumors, and as a result, the tumor cell islets were smaller than in control tumors. In the BCG treated tumors, the numbers of T-cells and macrophages were increased. In growing and regressing tumors, MHC class I and II antigens were strongly expressed in TILS and in the tumor stroma. Line 10 tumor cells prior to inoculation expressed no MHC class I or II antigens. In the centers of the tumor islets at days 12 and 28, expression of these antigens was not found. However, MHC class I and II antigens were expressed on tumor cells at sites where they lay close to the fibrous stroma or TILS. This observation was made in progressively growing tumors and was most apparent in BCG-treated tumors.     

Tumor-derived interleukin-2-dependent lymphocytes in adoptive immunotherapy of lung cancer

Summary A trial of adoptive immunotherapy was performed in which long-term cultured, interleukin-2 (IL2)-dependent T-lymphocytes were administered to patients with metastatic adenocarcinoma of the lung. Lymphocytes were isolated from explants of cancer tissues that were cultured in medium with recombinant IL-2. These T-cells expressed surface markers of activation, and killed a broad panel of tumor targets. Intravenously injected ¹¹¹indium-labeled T-cell blasts distributed primarily to lungs, liver, and spleen. Despite a paucity of infused lymphocytes detected by external imaging at sites of tumor, five of seven patients showed reduction of their cancers. However, in no case was greater than 50% reduction of total tumor burden achieved. Evidence of increased delayed cutaneous hypersensitivity to protein antigens was observed in three patients following therapy. We conclude that long-term cultured tumor-derived T-cells can be transferred safely into humans and that these cells may be capable of enhancing immune responses and mediating tumor reduction in vivo.     

Adoptive tumor therapy with T lymphocytes enriched through an IFN-gamma capture assay

Successful adoptive T-cell therapy has been demonstrated in viral disease and selected forms of cancer. However, it is limited by the difficulty to efficiently isolate and amplify autologous tumor-reactive T-cell clones. Tetramers of major histocompatibility complex (MHC) class I and peptide have facilitated the characterization of CD8+ T cells specific for tumor-associated antigens. However, for adoptive T-cell therapy, MHC-tetramers have limitations: they require knowledge of tumor antigens, which is often not available; they select T cells with a single specificity, thereby posing risk for selection of tumor escape variants; they do not select for function, so that T cells may be anergic when isolated from cancer patients; and they do not allow the isolation of CD4+ T cells that can be essential for tumor rejection. Because interferon (IFN)-gamma is essential for tumor rejection, we isolated live T cells based on their IFN-gamma production. IFN-gamma secreted by previously activated T cells is retained on the cell surface, allowing their specific isolation and expansion. We show here that IFN-gamma+ but not IFN-gamma- T cells from tumor-immunized mice are cytolytic and mediate tumor rejection upon adoptive transfer. Importantly, tumor-specific T cells can be enriched from lymphocytes infiltrating human renal cell carcinoma by the IFN-gamma capture assay.     

Sequential analysis of experimental autoimmune thyroiditis induced by neonatal thymectomy in the Buffalo strain rat

We have studied the evolution of thyroiditis induced by neonatal thymectomy in Buffalo strain rats, with particular emphasis on the thyroid lymphocytic infiltrate. The earliest change was increased endothelial Ia expression, and infiltration of the thyroid at 5 weeks by ED1- and ED2-positive macrophages and B and T cells. The T cells comprised equal numbers of Ox 8 (T cytotoxic/suppressor)- and W3/25 (T helper)-positive cells. Ia-positive thyroid follicular cells were seen only in the presence of a T-cell infiltrate. Thyroglobulin antibody levels, thyroid weight, thyroid follicular cell Ia expression, and lymphocytic infiltration of the thyroid were maximal between Weeks 12 and 24, and impairment of macrophage function by injection of silica at this time produced amelioration of disease. The thyroid weight returned to control levels by Week 34 and Ia expression by thyroid cells disappeared. Circulating Ox 8-positive T cells were reduced between Weeks 12 and 24 and by Week 34 had returned to control levels. Our results indicate that the mononuclear infiltrate precedes thyroid follicular cell Ia expression and macrophages play an important role in perpetuating thyroiditis. Recovery from disease is accompanied by a return to normal in circulating suppressor/cytotoxic T cells.     

First histopathological and immunophenotypic analysis of early dynamic events in a patient with segmental vitiligo associated with halo nevi

Segmental vitiligo is often ascribed to the neurogenic theory of melanocyte destruction, although data about the initial etiopathological events are scarce. Clinical, histopathological and T-cell phenotypic analyses were performed during the early onset of a segmental vitiligo lesion in a patient with associated halo nevi. Histopathological analysis revealed a lymphocytic infiltrate, mainly composed of CD8⁺ T-cells and some CD4⁺ T-cells around the dermo–epidermal junction. Flow cytometry analysis of resident T-cells revealed a clear enrichment of pro-inflammatory IFN-γ producing CD8⁺ T-cells in lesional skin compared to the non-lesional skin. Using human leukocyte antigen-peptide tetramers (MART-1, tyrosinase, gp100), increased numbers of T cells, recognizing melanocyte antigens were found in segmental vitiligo lesional skin, as compared with the non-lesional skin and the blood. Our findings indicate that a CD8⁺ melanocyte specific T cell-mediated immune response, as observed in generalized vitiligo, also plays a role in segmental vitiligo with associated halo nevi.     

In vivo blockade of gamma interferon affects the influenza virus-induced humoral and the local cellular immune response in lung tissue.

Influenza virus infection induces the local production of gamma interferon (IFN-gamma) by T cells and non-T cells in the respiratory tract. To elucidate the possible functions of this cytokine, the humoral and local cellular immune responses to influenza virus were studied in BALB/c mice with or without in vivo neutralization of IFN-gamma by using monoclonal antibodies. Neutralization of IFN-gamma led to a significant reduction in virus-specific titers of immunoglobulins G2a and G3 in serum but had little effect on other isotypes. Studies on cells isolated from the lung parenchyma itself revealed that at the height of the immune response the ability of these cells to produce cytokines after antigen or T-cell receptor/CD3 stimulation was not affected. Ex vivo cytolytic activity by lung parenchyma cells, which is induced by infection with this virus in normal mice, was also found to be undisturbed by this treatment, even though anti-IFN-gamma antibody activity was recovered from lung lavage samples and sera at all days studied. Surprisingly, in vivo neutralization of IFN-gamma led to a significant reduction in the magnitude of the cellular infiltrate in the lung tissue which followed infection, suggesting an involvement of IFN-gamma in the mechanisms that regulate increased leucocyte traffic in the inflamed lung parenchyma. This conclusion was supported by findings of differences between mock-treated and anti-IFN-gamma-treated mice in the number of CD8+ lung T cells expressing CD49d (alpha4-integrin) and CD62L at various times after influenza virus infection. This study therefore demonstrates that IFN-gamma affects the local cellular response in the respiratory tract as well as the systemic humoral response to influenza virus infection.     

Heparanase expression and localization in different types of human lung cancer

Background

Heparanase is the only known mammalian glycosidase capable of cleaving heparan sulfate chains. The expression of this enzyme has been associated with tumor development because of its ability to degrade extracellular matrix and promote cell invasion.

Methods

We analyzed heparanase expression in lung cancer samples to understand lung tumor progression and malignancy. Of the samples from 37 patients, there were 14 adenocarcinomas, 13 squamous cell carcinomas, 5 large cell carcinomas, and 5 small cell carcinomas. Immunohistochemistry was performed to ascertain the expression and localization of heparanase.

Results

All of the tumor types expressed heparanase, which was predominantly localized within the cytoplasm and nucleus. Significant enzyme expression was also observed in cells within the tumor microenvironment, such as fibroblasts, epithelial cells, and inflammatory cells. Adenocarcinomas exhibited the strongest heparanase staining intensity and the most widespread heparanase distribution. Squamous cell carcinomas, large cell carcinomas, and small cell carcinomas had a similar subcellular distribution of heparanase to adenocarcinomas but the distribution was less widespread. Heparanase expression tended to correlate with tumor node metastasis (TNM) staging in non-small cell lung carcinoma.

Conclusion

In this study, we showed that heparanase was localized to the cytoplasm and nucleus of tumor cells and to cells within the microenvironment in different types of lung cancer. This enzyme exhibited a differential distribution based on the type of lung tumor.General significanceElucidating the heparanase expression patterns in different types of lung cancer increased our understanding of the crucial role of heparanase in lung cancer biology. This article is part of a Special Issue entitled Matrix-mediated cell behaviour and properties.     

Dendritic cells efficiently acquire and present antigen derived from lung cancer cells and induce antigen-specific T-cell responses

Active immunotherapy of cancer requires the availability of a source of tumor antigens. To date, no such antigen associated with lung cancer has been identified. We have therefore investigated the ability of dendritic cells (DC) to capture whole irradiated human lung tumor cells and to present a defined surrogate antigen derived from the ingested tumor cells. We also describe an in vitro system using a modified human adenocarcinoma cell line (A549-M1) that expresses the well-characterized, immunogenic influenza M1 matrix protein as a surrogate tumor antigen. Peripheral blood monocyte-derived DC, when co-cultured with sub-lethally irradiated A549 cells or primary lung tumor cells derived from surgical resection of non-small cell carcinoma (NSCLC), efficiently ingested the tumor cells as determined by flow cytometry analysis and confocal microscopic examination. More importantly, DC loaded with irradiated A549-M1 cells efficiently processed and presented tumor cell-derived M1 antigen to T cells and elicited antigen-specific immune responses that included IFNgamma release from an M1-specific T-cell line, expansion of M1 peptide-specific Vbeta17+ and CD8+ peripheral T cells and generation of M1-specific cytotoxic T lymphocytes (CTL). We also compared DC loaded with irradiated tumor cells to those loaded with tumor cell lysate or killed tumor cells and found that irradiated lung tumor cells as a source of tumor antigen for DC loading is superior to tumor cell lysate or killed tumor cells in efficient induction of antigen-specific T-cell responses. Our results demonstrate the feasibility of using lung tumor cell-loaded DC to induce immune responses against lung cancer-associated antigens and support ongoing efforts to develop a DC-based lung cancer vaccine.