The immunological impact on antibody-based anticancer therapies remains incompletely understood due to the lack of appropriate animal models for in vivo analysis. Here, we present a novel humanized tumor mouse (HTM) model, generated by concurrent transplantation of human hematopoietic stem cells (HSCs) and human breast cancer cells in neonatal NOD-scid IL2Rc null mice. Five weeks after intrahepatic transplantation, a functional human immune system was developed in all organs, and, in addition, tumor cells were detectable in lung and bone marrow (early dissemination). After 3 months posttransplant, tumor-cell effusions and macroscopic tumors associated with liver or spleen were found. Furthermore, disseminated cells in different lymphoid and nonlymphoid organs were measurable. Tumor growth was accompanied by specific T-cell maturation and tumor cell-specific T-cell activation. In addition, Natural-Killer cell accumulation and activation were observed in HTM, which was further enhanced upon IL-15 treatment facilitating the possibility of immune cell modulation in, e.g., antibodydependent cellular cytotoxicity-based immunotherapeutic approaches. This novel mouse model makes it possible to combine transfer of MHC mismatched tumor cells together with human HSCs resulting in a solid coexistence and interaction without evidence for rejection. Overall, humanized tumor mice represent a powerful in vivo model that for the first time permits the investigation of human immune system-related target cancer therapy and resistance.
The mononuclear infiltrate in renal cell carcinoma (RCC) has been associated with the immunogenic nature of this tumor type and the clinical response rates achieved with immunotherapy.
Clear cell renal cell carcinoma (ccRCC) is an aggressive and difficult to manage cancer. Immunotherapy has the potential to induce long-lasting regression in a small group of patients. However, severe side effects limit broad application which highlights the need for a marker to distinguish responder from nonresponder. TNMG staging, referring to tumor size, lymph node involvement, presence of metastasis, and grade of tumor differentiation, represents an important prognostic system but is not useful for predicting responders to immunotherapy. NK cells are potent antitumor effector cells, and a role as prognostic marker in some solid tumors has been suggested. As NK cells are responsive to various immune modifiers, they may be important mediators of patient response to immunotherapies, in particular those including IL-2. We report that the NK cell percentage within RCC-infiltrating lymphocytes, as determined by flow cytometry, allows ccRCC subgrouping in NK(high)/NK(low) tissues independent of TNMG classification. Quantitative reverse transcriptase polymerase chain reaction using whole-tissue RNA identified four markers (NKp46, perforin, CX(3)CL1, and CX(3)CR1) whose transcript levels reproduced the NK(high)/NK(low) tissue distinction identified by flow cytometry with high selectivity and specificity. Combined in a multiplex profile and analyzed using neural network, the accuracy of predicting the NK(high)/NK(low) groups was 87.8%, surpassing that of each single marker. The tissue transcript signature, based on a robust high-throughput methodology, is easily amenable to archive material and clinical translation. This now allows the analysis of large patient cohorts to substantiate a role of NK cells in cancer progression or response to immunotherapy.
Organ transplantation remains the most effective treatment for patients with late stage organ failure. Transgenic pigs provide an alternative organ donor source to the limited availability of human organs. However, cellular rejection still remains to be the obstacle for xenotransplantation. Superior to other methods, antigen-specific regulatory T cells (Treg) alleviate cellular rejection with fewer side effects. Here we demonstrate the use of a fast method to provide tolerogenic dendritic cells (tolDC) that can be used to generate effective porcine-specific Treg cells (PSTreg). TolDC were produced within three days from human monocytes in medium supplemented with anti-inflammatory cytokines. Treg were generated from naïve CD4+ T cells and induced to become PSTreg by cocultivation with porcine-antigen-loaded tolDC. Results showed that PSTreg exhibited the expected phenotype, CD4+CD25+CD127low/− Foxp3+, and a more activated phenotype. The specificity of PSTreg was demonstrated by suppression of effector T cell (Teff) activation markers of different stages and inhibition of Teff cell proliferation. TolDC and PSTreg exhibited high expression of IL-10 and TGF-β1 at both protein and RNA levels, and PSTreg also highly expressed IL-35 at RNA levels. Upon restimulation, PSTreg retained the activated phenotype and specificity. Taken together, the newly developed procedure allows efficient generation of highly suppressive PSTreg.
Background: Regulatory T cells (Treg) play an important role in maintenance of
AML is frequently diagnosed in elderly patients, with a median age of 69. Many older patients cannot tolerate intensive chemotherapy and/or stem cell transplantation, making curative treatment difficult and rates of early relapse high. Immunotherapy with dendritic cell (DC) vaccines after chemotherapy was shown by others to provide clinical benefit to some AML patients (van Tendeloo et al. 2010). Here we report results in four AML patients receiving DC vaccines targeting the antigens Wilm's tumor-1 (WT-1) and preferentially expressed antigen in melanoma (PRAME), applied in compassionate use, employing new generation monocyte-derived fast DCs, matured with a cocktail containing the TLR7/8 ligand R848. The mature DCs show high expression of CD83, strong up-regulation of HLA-DR and co-stimulatory molecules, down-regulation of CD14 and polarized release of IL-12p70, with no or low IL-10 secretion, upon T cell encounter. After informed consent and hematopoietic recovery from chemotherapy, mononuclear cells were collected by apheresis and mature DC vaccines were prepared to separately express full length mRNA encoding the two target antigens (Subklewe et al. Cancer Immunol. Immunother. 2014). DCs were administered intradermally, once weekly for 4 wks, at wk6 and then on a monthly basis. Blood and bone marrow (BM) samples were collected throughout treatment. Minimal residual disease (MRD) was measured in BM and blood by quantitative PCR of WT-1 expression and BM was monitored by morphology. Table 1 summarizes the salient features of the patients, treatment parameters, MRD monitoring and initial immune response assessment. DTH reactions were detected in all patients challenged with DCs at wk6. Immune responses of CD4 and CD8 T cells demonstrating intracellular interferon gamma (IFNg) expression were assessed by flow cytometry of PBL stimulated overnight with peptides spanning WT-1, PRAME, and hTERT and survivin as vaccine-unrelated antigens. Responses were scored positive when two-fold or greater frequencies of IFNg-expressing T cells were found compared to unstimulated controls. Patient (Pt.)CU030 and Pt.CU031 showed CD4 and CD8 responses to different test antigens. Pt.CU030 displayed strong and persistent CD8 responses to PRAME and a surprising increase in hTERT reactivity, potentially representing epitope spreading. The pt. continues to receive monthly vaccination and displays a low fluctuating WT-1 PCR signal in BM but no signal is seen in blood at wk61 after start of vaccination. Pt.CU031 displayed WT-1-specific immune responses until wk37 when responses decreased and WT-1 PCR signals increased in BM. The pt. developed Bell's palsy and immune responses were no longer detected after cortisone therapy. WT-1 signals then increased strongly in BM, accompanied by an increase of blasts. Pt. CU033 had no significant T cell response during 9 months (m) of vaccination. WT-1 signals now increase slowly in BM but relapse cannot be confirmed by morphology and WT-1 PCR remains negative in blood. Pt.CU040 has only received DC vaccines for 5 m, remains in morphological remission and immune response and MRD monitoring are ongoing. These results show that fast, TLR-polarized DCs induce or enhance specific T cell responses in elderly and undertreated AML patients, with individual strengths and specificities. Preliminary assessments suggest that changes in MRD are related to increase or loss of vaccine-associated immune responses. Table 1. Characteristics of AML patients receiving DC vaccines Patient CU030 CU031 CU033 CU040 Age 57 50 68 73 Sex f m f f AML Classification M4 M2 M1 M1 Risk Classification intermed intermed intermed good Chemotherapy cycles Induction/Consolidation 2/0 2/4 2/0 2/0 Time between chemo-therapy and vaccination 5 m 8 m 3 m 7 m Months of vaccination as of (08/2015) 16 m 10 m 9 m 5 m DTH responses at w6 toWT-1/PRAME DC challenge pos/pos pos/pos pos/pos pos/pos IFNg-positive T cell responses to overlapping peptides of WT-1, PRAME, hTERT, and Survivin Strong and persistent CD8 responses to PRAME and hTERT Early CD4 & CD8 responses to WT-1; decrease at wk37; full loss after cortisone therapy No significant responses detected up to wk33 To be done after acquisition of further samples MRD (WT-1 PCR) in BM/blood fluctuating low /neg rapid increase after cortisone /pos slow increase /neg ongoing BM morphology (most recent test) neg pos neg neg Time since completion of chemotherapy 21 m 18 m 12 m 12 m Disclosures Eckl: Medigene Immunotherapies GmbH: Employment. Schendel:Medigene Immunotherapies GmbH: Employment, Equity Ownership, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties: for DC maturation cocktail. Kvalheim:Medigene Immunotherapies GmbH: Other: Scientific collaboration.
Introduction: An abscopal effect is a clinical observation whereby a local treatment is associated with regression of metastatic cancer at a site distant from the primary location of treatment. Here, we describe the clinical systemic effect induced by regional hyperthermia combined with low-dose chemotherapy and provide immunologic correlates. Case presentation: A 15-year-old patient had been diagnosed with alveolar rhabdomyosarcoma (ARMS). All previous treatment options failed in the patient including haploidentical stem cell transplantation and donor lymphocyte infusion. The patient presented with local and metastatic disease, and upon admission, underwent regional hyperthermia combined with low-dose chemotherapy. Immediately following therapy severe skin reactions were observed. Skin biopsies revealed an intraepithelial lymphocytic infiltration dominated by CD3 þ /CD8 þ T cells with a regular network of dendritic cells. Clinical images compared before and during sequential treatment cycles showed complete metabolic response of the local tumor for more than 10 months of therapy. In addition, metastases completely regressed although they were not direct targets of regional hyperthermia. The systemic effect was associated with enhanced frequency of NK cells and T cells expressing the lectin-like natural-killer group 2 D activating receptor (NKG2D), an increase of the CD56 bright subset of NK cells, as well as an increase of effector/memory and effector CD8 þ and CD4 þ T cells in the blood while the percentage of CD25 þ FOXP3 þ regulatory T cells declined. Conclusions: Regional hyperthermia combined with low-dose chemotherapy had the potential to create a systemic effect which was associated with activation of NK cells and T cells.
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