Ex vivo host response to gastrointestinal cancer cells presented by autologous dendritic cells

Clinical Applications of Combined Immunotherapy Approaches in Gastrointestinal Cancer: A Case-Based Review

Malignant neoplasms arising from the gastrointestinal (GI) tract are among the most common types of cancer with high mortality rates. Despite advances in treatment in a small subgroup harboring targetable mutations, the outcome remains poor, accounting for one in three cancer-related deaths observed globally. As a promising therapeutic option in various tumor types, immunotherapy with immune checkpoint inhibitors has also been evaluated in GI cancer, albeit with limited efficacy except for a small subgroup expressing microsatellite instability. In the quest for more effective treatment options, energetic efforts have been placed to evaluate the role of several immunotherapy approaches comprising of cancer vaccines, adoptive cell therapies and immune checkpoint inhibitors. In this review, we report our experience with a personalized dendritic cell cancer vaccine and cytokine-induced killer cell therapy in three patients with GI cancers and summarize current clinical data on combined immunotherapy strategies.

Prognostic significance of tumor immune microenvironment and immunotherapy: Novel insights and future perspectives in gastric cancer

Despite a decrease in gastric cancer incidence, the development of novel biologic agents and combined therapeutic strategies, the prognosis of gastric cancer remains poor. Recently, the introduction of modern immunotherapy, especially using immune checkpoint inhibitors, led to an improved prognosis in many cancers. The use of immunotherapy was also associated with manageable adverse event profiles and promising results in the treatment of patients with gastric cancer, especially in heavily pretreated patients. These data have led to an accelerated approval of some checkpoint inhibitors in this setting. Understanding the complex relationship between the host immune microenvironment and tumor and the immune escape phenomenon leading to cancer occurrence and progression will subsequently lead to the identification of prognostic immune markers. Furthermore, this understanding will result in the discovery of both new mechanisms for blocking tumor immunosuppressive signals and pathways to stimulate the local immune response by targeting and modulating different subsets of immune cells. Due to the molecular heterogeneity of gastric cancers associated with different clinico-biologic parameters, immune markers expression and prognosis, novel immunotherapy algorithms should be personalized and addressed to selected subsets of gastric tumors, which have been proven to elicit the best clinical responses. Future perspectives in the treatment of gastric cancer include tailored dual immunotherapies or a combination of immunotherapy with other targeted agents with synergistic antitumor effects.

Apoptic Renal Carcinoma Cells are Better Inducers of Cross-Presenting Activity than Their Primary Necrotic Counterpart

Vaccination with tumor-loaded dendritic cells (DC) is a promising treatment strategy for patients with renal cell carcinoma (RCC). Cells undergoing cell death proved useful as a source of tumor antigen for DC loading. Both apoptotic and necrotic tumor cells have been shown to efficiently load RCC-tumor antigens on DC. However, no direct comparison of these two kinds of death has been attempted in the same RCC. We compared DC pulsed with apoptotic cells, whole cell lysates or their supernatants of the cell line K1, derived from a patient with clear cell RCC, to determine their ability to activate T cells. Monocyte-derived DCs were pulsed with the different sources of tumor antigen, matured and co-cultured with autologouos peripheral blood lymphocytes. After three weekly re-stimulations with DCs, generation of cytotoxic T lymphocytes CTL was assessed by IFN-γ release in an ELISpot assay in the presence of the sensitizing target. By comparison with lysate, apoptotic tumor cells induced a higher frequency of MHC class I-restricted IFN-γ releasing lymphocytes. A higher CTL response was induced by pulsing DCs with cell lysate supernatant compared with whole cell lysate. These results indicate that, although necrotic death has been regarded as highly permissive when compared to apoptotic death, the immunogenicity of the death treatment may vary from one tumor to another.

Gastric cancer and the epoch of immunotherapy approaches

The incidence of gastric cancer (GC) fell dramatically over the last 50 years, but according to IARC-Globocan 2008, it is the third most frequent cause of cancer-related deaths with a case fatality GC ratio higher than other common malignancies. Surgical resection is the primary curative treatment for GC though the overall 5-year survival rate remains poor (approximately 20%-25%). To improve the outcome of resectable gastric cancer, different treatment strategies have been evaluated such as adjuvant or perioperative chemotherapy. In resected gastric cancer, the addition of radiotherapy to chemotherapy does not appear to provide any additional benefit. Moreover, in metastatic patients, chemotherapy is the mainstay of palliative therapy with a median overall survival of 8-10 mo and objective response rates of merely 20%-40%. Therefore, the potential for making key beneficial progress is to investigate the GC molecular biology to realize innovative therapeutic strategies, such as specific immunotherapy. In this review, we provide a panoramic view of the different immune-based strategies used for gastric cancer treatment and the results obtained in the most significant clinical trials. In detail, firstly we describe the therapeutic approaches that utilize the monoclonal antibodies while in the second part we analyze the cell-based immunotherapies.

Nanoengineered strategies to optimize dendritic cells for gastrointestinal tumor immunotherapy: from biology to translational medicine

Nanomedicine may play an important role in improving the clinical efficacy of dendritic cell-based immunotherapy against GI tract malignancies. Dendritic cell-based vaccines have proven their effectiveness against different established GI tract tumors, yet their success is mainly hindered by the strong tumor-induced suppressive microenvironment. The sustained and targeted release of tumor antigens to dendritic cells using different nanoengineered approaches would be an efficient strategy to overcome established immune tolerance. Encapsulation would result in low diffusivity, restricted movement, effective crosspresentation and enhanced T-cell responses. These nanotherapy-based approaches will certainly help with the designing of clinically translatable dendritic cell-based therapeutic vaccines and facilitate the selective removal of residual disease in gastrointestinal cancer patients following standard treatments.

Engineered dendritic cells for gastrointestinal tumor immunotherapy: opportunities in translational research

Gastrointestinal (GI) malignancies are one of the most frequently occurring tumors found worldwide. Surgery remains the primary treatment for most solid tumors and adjuvant chemotherapy and radiotherapy are limited by lack of specificity and toxicity. In view of the poor survival rate, there is a great need to introduce new and effective therapeutic modalities. Recently, dendritic cells (DCs)-based vaccines are being explored as a promising therapeutic strategy but their success is limited by the tumor-induced immune escape mechanisms. This article provides a comprehensive analysis of clinical trials conducted using this approach. It also showcases the necessity of exploring nano-engineered strategies for improving the clinical utility of DC-vaccination for GI tract malignancies to overcome immune tolerance.

Dendritic cell therapy in advanced gastric cancer: a promising new hope?

Advanced gastric cancer carries a very poor prognosis when the tumor becomes unresectable. Even with the best currently available chemotherapy regimens the survival rate remains dismal. A recent breakthrough in the treatment paradigm has been the approval of trastuzumab, a monoclonal antibody, in HER2-positive metastatic gastric cancer. A large number of trials are underway using dendritic cells (DCs) in a number of human malignancies and do show a ray of hope in management of these patients. This review attempts to summarize tumor immunology and the current data regarding use of DCs in gastric cancer therapy.

Novel immunotherapeutic strategies of gastric cancer treatment

Gastric cancer (GC) is the fourth most common cancer and the second most frequent cause of cancer-related deaths, accounting for 10.4% of cancer deaths worldwide. Despite the improvements, estimated cure rates for patients with advanced stages remain poor, and in the metastatic setting, chemotherapy is the mainstay of palliative therapy and results in objective response rates (ORRs) of only 20-40% and median overall survivals (OS) of 8-10 months. Therefore, many investigators believe that the potential for making significant progress lies in understanding and exploiting the molecular biology of these tumors to investigate new therapeutic strategies to combat GC, such as specific immunotherapy. In this paper, we analyze the different approaches used for immune-based (especially dendritic and T cells) therapies to gastric cancer treatment and discuss the results obtained in preclinical models as in clinical trials.

Bone marrow-derived dendritic cells pulsed with tumor lysates induce anti-tumor immunity against gastric cancer ex vivo

AIM: To investigate whether bone marrow-derived dendritic cells pulsed with tumor lysates induce immunity against gastric cancer ex vivo.

METHODS: c-kit⁺ hematopoietic progenitor cells were magnetically isolated with a MiniMACS separator from BALB/c mice bone marrow cells. These cells were cultured with cytokines GM-CSF, IL-4, and TNFα to induce their maturation. They were analysed by morphological observation, phenotype analysis, and mixed lymphocyte reaction (MLR). Bone marrow-derived DCs (BM-DCs) were pulsed with tumor cell lysate obtained by rapid freezing and thawing at a 1:3 DC:tumor cell ratio. Finally, cytotoxic T lymphocyte (CTL) activity and interferon gamma (IFNγ) secretion was evaluated ex vivo.

RESULTS: c-kit⁺ hematopoietic progenitor cells from mice bone marrow cells cultured with cytokines for 8 d showed the character of typical mature DCs. Morphologically, observed by light microscope, these cells were large with oval or irregularly shaped nuclei and with many small dendrites. Phenotypically, FACS analysis showed that they expressed high levels of Ia, DEC-205, CD11b, CD80 and CD86 antigen, moderate levels of CD40, and negative for F4/80. Functionally, these cells gained the capacity to stimulate allogeneic T cells in MLR assay. However, immature DCs cultured with cytokines for 5 d did not have typical DCs phenotypic markers and could not stimulate allogeneic T cells. Ex vivo primed T cells with SGC-7901 tumor cell lysate-pulsed (TP) DCs were able to induce effective CTL activity against SGC-7901 tumor cells (E:T = 100:1, 69.55% ± 6.05% specific lysis), but not B16 tumor cells, and produced higher levels of IFNγ when stimulated with SGC-7901 tumor cells but not when stimulated with B16 tumor cells (1575.31 ± 60.25 pg/mL in SGC-7901 group vs 164.11 ± 18.52 pg/mL in B16 group, P < 0.01).

CONCLUSION: BM-derived DCs pulsed with tumor lysates can induce anti-tumor immunity specific to gastric cancer ex vivo.

Increased expression of HSP70 by colon cancer cells is not always associated with access to the dendritic cell cross-presentation pathway

Dendritic cells (DCs) are highly specialized antigen-presenting cells endowed with the unique ability to not only present exogenous antigens upon exposure to MHC II, but also to cross-present these upon exposure to MHC I. This property was exploited to generate the tumor-specific CD8 cytotoxic lymphocyte (CTL) response in DCs-based cancer vaccine protocols. In this context, the source of tumor antigens remains a critical challenge. A crude tumor in the context of danger signals is believed to represent an efficient source of tumor antigens (TAs) for DCs loading. In our previous work, increased DCs cross-presentation of antigens from necrotic gastric carcinoma cells paralleled up-regulation of the heat shock protein hsp70. We studied the expression of hsp70 on primary colon carcinoma cells and its relevance in the cross-priming of anti-tumor CTL by tumor-loaded DCs. Hsp70 was expressed on all three of the tumors studied, but was never detected in the peritumoral normal mucosa (NM). The uptake of the tumor induced a trend towards down-modulation of the monocyte-specific marker CD14, but had no effect on the chemokine receptors CCR4 and CCR7. The IFN-γ enzyme-linked immunospot assay (ELIspot) showed cross-priming of CTL by tumor-loaded but not NM-loaded DCs in four of the six cases studied. The CTL response generated in DC+tumor cultures was directed towards the tumor, but not towards NM, and it was characterized by refractoriness to polyclonal (Ca ionophores, PKC activators) stimuli. Of the three CTL-generating tumors, only one expressed hsp70. This data indicates a tumor-specific expression of hsp70, but does not support its relevance in the DC cross-presentation of TAs.

Identification of HLA a*0201 glioblastoma multiforme cell lines for immunotherapy by PCR-SSP and DNA sequencing

Most tumor specific antigens characterized to date are restricted by HLA a*0201, which is the major HLA subtype in many ethnic groups. Cancer cells that express tumor antigens in association with the HLA a*0201 subtype have been shown to be responsive to various immunotherapies. We therefore sought to identify glioma cell lines that also express this HLA subtype and determine whether they had the molecular properties needed for tumor-peptide presentation. The HLA a*0201 allele was identified with PCR using sequence-specific primers followed by DNA sequencing. With this method, we screened 15 glioma cell lines to determine if they were of the HLA a*0201 genotype. Glioma cell lines that express the HLA a*0201 subtype were further studied for the expression of MHC class I and beta-2-microglobulin (beta2m) molecules by flow cytometry, and peptide presentation molecules TAP-1, TAP-2, and tapasin by RT-PCR. We identified six out of fifteen cell lines that were of the HLA a*0201 subtype. These cell lines are U87, T98, U373, U138, CRL2365 and UMN-4. All these six cell lines exhibited high levels of MHC class I and beta2m molecules. In addition, these cell lines all expressed molecules required for peptide presentation as shown by the presence of peptide presentation-related molecules TAP-1, TAP-2 and tapasin. The identification of glioma cell lines that express the HLA a*0201 subtype along with the necessary molecules for peptide-presentation will enable their use in developing new immunotherapeutic approaches for treating brain tumors. The method used to identify HLA a*0201 glioma cells is rapid and inexpensive, and suitable for screening tumor cells.

Immunotherapy of dendritic cells and its exosomes transfected with mRNA of gastric cancer cells in tumor-carried mice

AIM: To unravel the functional status of dendritic cells (DCs) in the tissue of gastric cancer (GC) and precancerous lesions, and to explore the possibility of treating and preventing gastric carcinoma with activated DCs and their exosomes.

METHODS: The tumor-bearing mice were treated with DCs sensitized by mRNA of gastric cancer cells and their exosomes, and efficacy of the immunotherapy was observed.

RESULTS: The indices such as the production rate of ascites of mice (75%), the metastasis rate of tumor (25%), the survival rate of animals (75%) and the average mass of tumor (2.04±0.33 g) showed that the condition of the mice treated with DCs was better than that in the control group (P < 0.01). The level of gene expression of IL-12, IFN and IL-18 in local tumor tissue was significantly risen (P < 0.01), the local CD₄⁺ and CD₈⁺ cells were increased (P < 0.05) and the cytotoxicity of TIL was remarkably enhanced. After immunotherapy of the tumor-bearing mice by using exosomes from DCs transfected with mRNA isolated from murine tumor cells, the indices were as good as those of sensitized DCs. However, DCs transfected with mRNA isolated from mouse tumor cells could effectively inhibit the growth of tumor and ameliorate the symptoms, showing a certain therapeutic efficiency for mice carrying tumor.

CONCLUSION: DCs-derived exosomes sensitized by RNA of gastric carcinoma cells can not only intensify the local immunologic function of GC but also make a better survival quality of the tumor-bearing host. Being a new type of therapeutic vaccine, exosomes is an important investigative value and a prospect of development.

Immunotherapy of dendritic cells transfected with mRNA of gastric cancer cells in carried-tumor mice

AIM: To probe into the possibility of dendritic cells (DC) in preventing solid carcinomas such as gastric cancer (GC).

METHODS: Immunotherapy was proformed by DC sensitized by mRNA of gastric cancer cells.

RESULTS: The indices such as the production rate of ascites of mice (75%), the metastasis rate of tumor (25%), the survival rate of animals (75%) and the average weight of tumor (2.04±0.33 g) showed that the condition of the mice treated by DC was better than that in the control group (P< 0.01). And the level of gene expression of IL-12, IFN and IL-18 in local tumor tissue was significantly raised (P < 0.01) and the amount of local CD₄⁺ (0.71±0.25/m²) and CD₈⁺ (0.67±0.22/m²) cells was increased (P < 0.05) and the cytotoxicity of TIL was remarkably enhanced.

CONCLUSION: DC transfected with mRNA isolated from mouse tumor cells may effectively control the growth of tumor and ameliorate the symptoms, suggesting that a certain therapeutic efficiency for mice carrying tumor can be realized.

Influence of drug-induced apoptotic death on processing and presentation of tumor antigens by dendritic cells

Here we have studied the effects of apoptotic cell death induced by chemotherapic agents on tumor phagocytosis by dendritic cells (DC) and presentation of the relevant antigen to T lymphocytes. Annexin-V-FITC (Ann-V) and propidium iodide (PI) staining was used to assess early apoptotic (Ann-V(+)/PI(-)) vs. late apoptotic/secondary necrotic (Ann-V(+)/PI(+)) death after a 24 hr observation of untreated and drug-treated gastric carcinoma cells. After treatments, the HLA-A*0201(+) tumor cell line KATO III was exposed for 24 hr to allogeneic, HLA-related GM-CSF, IL-4-driven immature (i) DC. Tumor-loaded iDC were tested for IL-12 release in an ELISA assay, incubated with the DC-maturating factor TNF-alpha and used as stimulators for autologous T lymphocytes. Generation of antitumor T response against KATO cells was evaluated in an anti-MHC class I MAb-blocked Interferon-gamma ELISPOT assay. After treatment with Cis-platin (cis), all dying cells were in early apoptosis, whereas secondary necrosis was the prevalent death pattern observed after epirubicin (epi) and doxorubicin (doxo). Doxo and epi increased tumor expression of heat shock protein (hsp) 70 and uptake of tumor cell components by DC, whereas cis treatment had no effect on hsp70 and was associated with poor tumor uptake by DC. Significant upmodulation of IL-12 was observed by DC that had taken up the doxo- and epi-treated tumors (p< 0.005 and p< 0.01, respectively). Increased IFN-gamma release was also observed after stimulation of T lymphocytes with DC loaded with doxo- and epi-treated (p< 0.02 and p< 0.005, respectively) but not with cis-treated DC. These data show that the products of early apoptosis cannot efficiently cross-activate MHC class I-restricted anti-tumor lymphocytes even in the presence of DC maturating factors, whereas secondary necrosis is associated with robust T cell response.