10th antibody industrial symposium: new developments in antibody and adoptive cell therapies.

The annual "Antibody Industrial Symposium", co-organized by LabEx MAbImprove and MabDesign, held its 10th anniversary edition in Montpellier, France, on June 28-29, 2022. The meeting focused on new results and concepts in antibody engineering (naked, mono- or multi-specific, conjugated to drugs or radioelements) and also on new cell-based therapies, such as chimeric antigenic receptor (CAR)-T cells. The symposium, which brought together scientists from academia and industry, also addressed issues concerning the production of these molecules and cells, and the necessary steps to ensure a strong intellectual property protection of these new molecules and approaches. These two days of exchanges allowed a rich discussion among the various actors in the field of therapeutic antibodies.

Discovery and characterization of a novel humanized anti-IL-15 antibody and its relevance for the treatment of refractory celiac disease and eosinophilic esophagitis.

Interleukin-15 (IL-15) is a critical regulator of immune responses, especially at mucosal interfaces within the gastro-intestinal tract. Here, we describe the discovery and characterization of a humanized antibody to IL-15. Data from its epitope and mode of action, cell biology and primate pharmacology, as well as translational studies in human samples and in vivo proof-of-concept experiments in mouse models demonstrate the therapeutic potential of this new antibody targeting IL-15 for refractory celiac disease and eosinophilic esophagitis.

Anti-MMP-9 Antibody: A Promising Therapeutic Strategy for Treatment of Inflammatory Bowel Disease Complications with Fibrosis.

BACKGROUND: Despite medical treatments or surgical options, more than one-third of patients with Crohn's disease suffer from recurring fistulae. Matrix metalloprotease 9 (MMP-9), a type IV collagenase that cleaves components of the extracellular matrix leading to tissue remodeling, is upregulated in crypt abscesses and around fistulae suggesting an important role for this enzyme in fistula formation. Our aims were (1) to correlate serum levels of MMP-9 degradation products in patients with CD with the presence of fistulae and (2) to investigate the impact of selective MMP-9 inhibition in a mouse model of intestinal fibrosis. METHODS: Serum MMP-9 degradation products were quantified in subjects affected with nonstricturing and nonpenetrating CD (n = 50), stricturing CD (n = 41), penetrating CD (n = 22), CD with perianal fistula (n = 29), and healthy controls (n = 10). Therapeutic efficacy of anti-MMP-9 monoclonal antibodies was assessed in a heterotopic xenograft model of intestinal fibrosis. RESULTS: C3M, an MMP-9 degradation product of collagen III, demonstrated the highest serum levels in patients with penetrating CD and differentiated penetrating CD from other CD subgroups and healthy controls, P = 0.0005. Anti-MMP-9 treatments reduced collagen deposition and hydroxyproline content in day-14 intestinal grafts indicating reduced fibrosis. CONCLUSIONS: The serologic biomarker C3M can discriminate penetrating CD from other CD subgroups and could serve as marker for the development of penetrating CD. Anti-MMP-9 antibody has therapeutic potential to prevent intestinal fibrosis in CD complications.

Lipid-derived nanoparticles for immunostimulatory RNA adjuvant delivery.

The specific activation of Toll-like receptors (TLRs) has potential utility for a variety of therapeutic indications including antiviral immunotherapy and as vaccine adjuvants. TLR7 and TLR 8 may be activated by their native ligands, single-stranded RNA, or by small molecules of the imidazoquinoline family. However the use of TLR7/8 agonists for in vivo therapy is limited by instability, in the case of RNA, or systemic biodistribution and toxicity in the case of small molecule agonists. We hypothesized that unique lipid-like materials, termed "lipidoids," could be designed to efficiently deliver immunostimulatory RNA (isRNA) to TLR-expressing cells to drive innate and adaptive immune responses. A library of lipidoids was synthesized and screened for the ability to induce type I IFN activation in human peripheral blood mononuclear cells when combined with isRNA oligonucleotides. Effective lipidoid-isRNA nanoparticles, when tested in mice, stimulated strong IFN-α responses following subcutaneous injection, had robust antiviral activity that suppressed influenza virus replication, and enhanced antiovalbumin humoral and cell-mediated responses when used as a vaccine adjuvant. Further, we demonstrate that whereas all immunological activity was MyD88-dependent, certain materials were found to engage both TLR7-dependent and TLR7-independent activity in the mouse suggestive of cell-specific delivery. These lipidoid formulations, which are materials designed specifically for delivery of isRNA to Toll-like receptors, were superior to the commonly used N-[1-(2,3-dioleoyloxy)propyl]-N,N,N-trimethylammonium methylsulfate-RNA delivery system and may provide new tools for the manipulation of TLR responses in vitro and in vivo.

Cladribine inhibits cytokine secretion by T cells independently of deoxycytidine kinase activity.

Cladribine (2-chloro-2'-deoxyadenosine) is a purine nucleoside analogue (PNA) which causes targeted and sustained reduction of peripheral lymphocyte counts. Cladribine tablets produced significant treatment benefit for patients with relapsing-remitting multiple sclerosis in the phase 3 CLARITY study. In addition to the well-characterised cell-specific phosphorylation of PNAs responsible for lymphocyte reduction, the mode of action of cladribine may encompass distinct activities contributing to its overall effects on the immune system. Here we demonstrate that clinically relevant concentrations of cladribine also inhibit cytokine secretion by human peripheral blood T cells in vitro through mechanisms independent of the induction of lymphocyte death.

Immunostimulatory potential of silencing RNAs can be mediated by a non-uridine-rich toll-like receptor 7 motif.

Microbial infections trigger a multiplicity of responses in the host via innate immune sensors, including the Toll-like receptors (TLRs). TLR7 and TLR8, located in endosomes, detect pathogen-derived RNA, which can be mimicked by synthetic single-stranded oligoribonucleotides (ORNs). Detailed analysis of the immunostimulatory properties of numerous silencing RNAs (siRNAs) revealed that almost all tested siRNAs with a phosphodiester backbone actively stimulated cytokine production in human peripheral blood immune cells, but not all of them did contain previously described guanosine/uridine TLR7 or adenosine/uridine TLR8 motifs. By analysis of sequence variants of these siRNAs (as single- or double-strands), we were able to identify a new immunostimulatory, non-uridine-rich TLR7 motif that is present in many published siRNAs. Interestingly, the activity of this motif is dependent on the backbone chemistry. Phosphorothioate ORNs containing the motif did not stimulate immune activation, whereas phosphodiester ORNs of the same sequence induced a strong TLR7-biased immune response with high amounts of interferon-alpha. Using TLR7- and Myd88-deficient mice, we demonstrated that stimulation by ORNs containing this motif was TLR7 dependent. Our findings are of therapeutic relevance as this motif is present in many siRNA sequences and will to contribute to the immunostimulatory properties of unmodified siRNAs.

Pitfalls of vaccinations with WT1-, Proteinase3- and MUC1-derived peptides in combination with MontanideISA51 and CpG7909.

T cells with specificity for antigens derived from Wilms Tumor gene (WT1), Proteinase3 (Pr3), and mucin1 (MUC1) have been demonstrated to lyse acute myeloid leukemia (AML) blasts and multiple-myeloma (MM) cells, and strategies to enhance or induce such tumor-specific T cells by vaccination are currently being explored in multiple clinical trials. To test safety and immunogenicity of a vaccine composed of WT1-, Pr3-, and MUC1-derived Class I-restricted peptides and the pan HLA-DR T helper cell epitope (PADRE) or MUC1-helper epitopes in combination with CpG7909 and MontanideISA51, four patients with AML and five with MM were repetitively vaccinated. No clinical responses were observed. Neither pre-existing nor naive WT1-/Pr3-/MUC1-specific CD8+ T cells expanded in vivo by vaccination. In contrast, a significant decline in vaccine-specific CD8+ T cells was observed. An increase in PADRE-specific CD4+ T helper cells was observed after vaccination but these appeared unable to produce IL2, and CD4+ T cells with a regulatory phenotype increased. Taken into considerations that multiple clinical trials with identical antigens but different adjuvants induced vaccine-specific T cell responses, our data caution that a vaccination with leukemia-associated antigens can be detrimental when combined with MontanideISA51 and CpG7909. Reflecting the time-consuming efforts of clinical trials and the fact that 1/3 of ongoing peptide vaccination trails use CpG and/or Montanide, our data need to be taken into consideration.

Paclitaxel reduces regulatory T cell numbers and inhibitory function and enhances the anti-tumor effects of the TLR9 agonist PF-3512676 in the mouse.

The anti-tumor properties of Toll-like receptor (TLR) 9 agonist CpG oligodeoxynucleotides (ODN) are enhanced by combinations with several cytotoxic chemotherapy regimens. The mechanisms of this added benefit, however, remain unclear. We now report that, similar to the depletion of regulatory T cells (Treg) using anti-CD25, paclitaxel increased the anti-tumor effect of the TLR9 agonist PF-3512676 in a CD8(+) T cell-dependent fashion. Paclitaxel treatment decreased Treg numbers in a TLR4-independent fashion, and preferentially affected cycling Treg expressing high levels of FoxP3. The paclitaxel-induced reduction in Treg FoxP3 expression was associated with reduced inhibitory function. Adoptively transferred tumor-antigen specific CD8(+) T cells proliferated better in mice treated with paclitaxel and their recruitment in the tumor was increased. However, the systemic frequency of PF-3512676-induced tumor-antigen specific effector CD8(+) T cells decreased with paclitaxel, suggesting opposite effects of paclitaxel on the anti-tumor response. Finally, gene expression profiling and studies of tumor-associated immune cells revealed a complex modulation of the PF-3512676-induced immune response by paclitaxel, including a decrease of IL-10 expression and an increase in IL-17-secreting CD4(+) T cells. Collectively, these data suggest that paclitaxel combined with PF-3512676 may not only promote a better anti-tumor CD8(+) response though increased recruitment in the tumor, possibly through Treg depletion and suppression, but also exerts more complex immune modulatory effects.

Strategies for use of IL-10 or its antagonists in human disease.

SUMMARY: Interleukin-10 (IL-10) is a cytokine with broad anti-inflammatory properties by its suppression of both macrophage and dendritic cell function, including antigen-presenting cell function and the production of proinflammatory cytokines. This can result subsequently in the feedback regulation of both T-helper 1 (Th1)-type and Th2-type responses. This review discusses the potential use of IL-10 or agents that induce IL-10 as potential anti-inflammatory therapies in inflammatory diseases. Although IL-10-deficient mice develop colitis in the presence of normal gut flora and clear certain intracellular pathogens more efficiently, this is often accompanied by immunopathology, which can be lethal to the host. This reinforces the anti-inflammatory properties of IL-10, although it should be noted that as discussed below, IL-10 can also promote B-cell and other immune responses under particular settings. A penalty of its role to limit the immune and inflammatory responses to pathogens and prevent damage to the host is that high or dysregulated levels of IL-10 may result in chronic infection. Thus, antagonists of IL-10 show great potential as adjuvants in preventative or therapeutic vaccines against chronic infection or cancer. This article reviews basic published studies on IL-10, which may lead to potential uses of IL-10 or its antagonists in human disease.

Identification of RNA sequence motifs stimulating sequence-specific TLR8-dependent immune responses.

The TLRs 7, 8, and 9 stimulate innate immune responses upon recognizing pathogen nucleic acids. U-rich RNA sequences were recently discovered that stimulate human TLR7/8-mediated or murine TLR7-mediated immune effects. In this study we identified single-stranded RNA sequences containing defined sequence motifs that either preferentially activate human TLR8-mediated as opposed to TLR7- or TLR7/8-mediated immune responses. The identified TLR8 RNA motifs signal via TLR8 and fail to induce IFN-alpha from TLR7-expressing plasmacytoid dendritic cells but induce the secretion of Th1-like and proinflammatory cytokines from TLR8-expressing immune cells such as monocytes or myeloid dendritic cells. In contrast, RNA sequences containing the TLR7/8 motif signal via TLR7 and TLR8 and stimulate cytokine secretion from both TLR7- and TLR8-positive immunocytes. The TLR8-specific RNA sequences are able to trigger cytokine responses from human and bovine but not from mouse, rat, and porcine immune cells, suggesting that these species lack the capability to respond properly to TLR8 RNA ligands. In summary, we describe two classes of single-stranded TLR7/8 and TLR8 RNA agonists with diverse target cell and species specificities and immune response profiles.

Safety, pharmacokinetics and immune effects in normal volunteers of CPG 10101 (ACTILON), an investigational synthetic toll-like receptor 9 agonist.

UNLABELLED: CPG 10101 (ACTILON) is a novel potent and selective unmethylated cytidine-phosphate-guanosine (CpG)-containing oligodeoxynucleotide agonist of Toll-like receptor 9 (TLR9) being developed for the treatment of chronic infections such as HCV. OBJECTIVES AND METHODS: In this randomized, double-blind, placebo-controlled Phase I study in 48 normal volunteers, we investigated the safety, pharmacokinetic parameters and immune effects of subcutaneous administration of CPG 10101. Five sequential escalating doses from 0.25 to 20 mg were administered twice, 14 days apart. In addition, a 4 mg dose was administered twice weekly for four weeks. RESULTS: A maximum tolerated dose was not reached and the adverse event profile was consistent with the known immunostimulatory effects of TLR9 agonists, mostly consisting of injection site reactions or flu-like symptoms that were generally mild in intensity. CPG 10101 induced interferons, cytokines and chemokines in a pattern consistent with the biology of TLR9. The most sensitive marker was IP-10/CXCL10, whose induction was detected in some subjects even at the 0.25 mg dose. Some cytokines showed transient circulating levels, while the levels of others such as the antiviral cytokine 2',5'-oligoadenylate synthetase were sustained for several days. CONCLUSION: This study warrants further investigation of CPG 10101 for the treatment of chronic infections such as HCV.

Dendritic cells rapidly recruited into epithelial tissues via CCR6/CCL20 are responsible for CD8+ T cell crosspriming in vivo.

The nature of dendritic cell(s) (DC[s]) that conditions efficient in vivo priming of CD8+ CTL after immunization via epithelial tissues remains largely unknown. Here, we show that myeloid DCs rapidly recruited by adjuvants into the buccal mucosa or skin are essential for CD8+ T cell crosspriming. Recruitment of circulating DC precursors, including Gr1+ monocytes, precedes the sequential accumulation of CD11c+ MHC class II+ DCs in dermis and epithelium via a CCR6/CCL20-dependent mechanism. Remarkably, a defect in CCR6, local neutralization of CCL20, or depletion of monocytes prevents in vivo priming of CD8+ CTL against an innocuous protein antigen administered with adjuvant. In addition, transfer of CCR6-sufficient Gr1+ monocytes restores CD8+ T cell priming in CCR6( degrees / degrees ) mice via a direct Ag presentation mechanism. Thus, newly recruited DCs likely derived from circulating monocytes are responsible for efficient crosspriming of CD8+ CTL after mucosal or skin immunization.

MyD88-dependent and -independent murine cytomegalovirus sensing for IFN-alpha release and initiation of immune responses in vivo.

Antiviral immunity requires early and late mechanisms in which IFN-alpha and IL-12 play major roles. However, the initial events leading to their production remain largely unclear. Given the crucial role of TLR in innate recognition, we investigated their role in antiviral immunity in vivo. Upon murine CMV (MCMV) infection, both MyD88-/- and TLR9-/- mice were more susceptible and presented increased viral loads compared with C57BL/6, TLR2-/-, TLR3-/-, or TLR4-/- mice. However, in terms of resistance to infection, IFN-alpha production and in many other parameters of early inflammatory responses, the MyD88-/- mice showed a more defective response than TLR9-/- mice. In the absence of the TLR9/MyD88 signaling pathway, cytokine production was dramatically impaired with a complete abolition of bioactive IL-12p70 serum release contrasting with a high flexibility for IFN-alpha release, which is initially (36 h) plasmacytoid dendritic cell- and MyD88-dependent, and subsequently (44 h) PDC-, MyD88-independent and, most likely, TLR-independent. NK cells from MCMV-infected MyD88-/- and TLR9-/- mice displayed a severely impaired IFN-gamma production, yet retained enhanced cytotoxic activity. In addition, dendritic cell activation and critical inflammatory cell trafficking toward the liver were still effective. In the long term, except for isotype switching to MCMV-specific IgG1, the establishment of Ab responses was not significantly altered. Thus, our results demonstrate a critical requirement of TLR9 in the process of MCMV sensing to assure rapid antiviral responses, coordinated with other TLR-dependent and -independent events that are sufficient to establish adaptive immunity.

Distinct and overlapping roles of interleukin-10 and CD25+ regulatory T cells in the inhibition of antitumor CD8 T-cell responses.

Lack of antitumor immunity is often related to impaired CD8 T-cell responses that could result from a poor priming capacity by tumor-infiltrating dendritic cells (TIDC) and/or further inhibition by regulatory T cells (T(reg)). Interleukin-10 (IL-10) has been implicated in the inhibition of TIDC as well as in the generation and functions of T(reg). Here, we address some of the respective and possibly overlapping roles of IL-10 and CD25+ T(reg) in CD8 antitumor immunity. Whereas tumor antigen-specific CD8 T cells proliferated in vivo in the presence of IL-10 or T(reg), optimal effector functions were observed in mice lacking both IL-10 and T(reg). Indeed, tumors grown in normal but not in IL-10-deficient or CD25-depleted mice induced tumor antigen-specific CD8 suppressor T cells. Suppression involved transforming growth factor-beta. Similarly, both IL-10 and T(reg) were responsible for impaired CD8 T cell priming by TIDCs, but IL-12 production by TIDCs was prevented only by T(reg)-independent IL-10. Subsequently, IL-10 defect and T(reg) depletion were required to achieve optimal induction of CD8 T-cell effectors by TIDC following CpG activation. Our results point out major redundant and nonredundant roles for IL-10 and T(reg) in the inhibition of TIDC-mediated generation of antitumor CD8 T-cell response.

Redirecting in vivo elicited tumor infiltrating macrophages and dendritic cells towards tumor rejection.

A hostile tumor microenvironment interferes with the development and function of the adaptive immune response. Here we report the mechanisms by which large numbers of tumor-infiltrating macrophages and dendritic cells (DC) can be redirected to become potent effectors and activators of the innate and adaptive immunity, respectively. We use adenoviral delivery of the CCL16 chemokine to promote accumulation of macrophages and DC at the site of preestablished tumor nodules, combined with the Toll-like receptor 9 ligand CpG and with anti-interleukin-10 receptor antibody. CpG plus anti-interleukin-10 receptor antibody promptly switched infiltrating macrophages infiltrate from M2 to M1 and triggered innate response debulking large tumors within 16 hours. Tumor-infiltrating DC matured and migrated in parallel with the onset of the innate response, allowing the triggering of adaptive immunity before the diffuse hemorrhagic necrosis halted the communication between tumor and draining lymph nodes. Treatment of B6>CXB6 chimeras implanted with BALB/c tumors with the above combination induced an efficient innate response but not CTL-mediated tumor lysis. In these mice, tumor rejection did not exceed 25%, similarly to that observed in CCR7-null mice that have DC unable to prime an adaptive response. The requirement of CD4 help was shown in CD40-KO, as well as in mice depleted of CD4 T cells, during the priming rather than the effector phase. Our data describe the critical requirements for the immunologic rejection of large tumors: a hemorrhagic necrosis initiated by activated M1 macrophages and a concomitant DC migration to draining lymph nodes for subsequent CTL priming and clearing of any tumor remnants.

Type I interferon dependence of plasmacytoid dendritic cell activation and migration.

Differential expression of Toll-like receptor (TLR) by conventional dendritic cells (cDCs) and plasmacytoid DC (pDCs) has been suggested to influence the type of immune response induced by microbial pathogens. In this study we show that, in vivo, cDCs and pDCs are equally activated by TLR4, -7, and -9 ligands. Type I interferon (IFN) was important for pDC activation in vivo in response to all three TLR ligands, whereas cDCs required type I IFN signaling only for TLR9- and partially for TLR7-mediated activation. Although TLR ligands induced in situ migration of spleen cDC into the T cell area, spleen pDCs formed clusters in the marginal zone and in the outer T cell area 6 h after injection of TLR9 and TLR7 ligands, respectively. In vivo treatment with TLR9 ligands decreased pDC ability to migrate ex vivo in response to IFN-induced CXCR3 ligands and increased their response to CCR7 ligands. Unlike cDCs, the migration pattern of pDCs required type I IFN for induction of CXCR3 ligands and responsiveness to CCR7 ligands. These data demonstrate that mouse pDCs differ from cDCs in the in vivo response to TLR ligands, in terms of pattern and type I IFN requirement for activation and migration.

Interleukin-10 in viral diseases and cancer: exiting the labyrinth?

Interleukin-10 (IL-10) is unique among cytokines, as it is considered both as a potent immunostimulatory and immunosuppressive factor. This complex biology has been particularly challenging when trying to define the useful or harmful role of IL-10 in chronic viral diseases and cancer. In the present review, we emphasize how these multiple roles define IL-10 as an adaptive molecule, constantly tuning the host response against dangerous and resourceful pathogens.

Regulation of the trafficking of tumour-infiltrating dendritic cells by chemokines.

To anticipate and initiate immune responses, dendritic cells follow a migratory route from their recruitment as sentinels into tissues, including solid tumors, then to secondary lymphoid organs where they profile the immune response. Migratory capacities--and especially chemokine responsiveness--are therefore key elements in dendritic cell biology. Here, we will review our current knowledge about tumour-infiltrating dendritic cells and the chemokine-driven migration flows in and out from tumors. Then we will discuss the consequences of the interactions between dendritic cells and tumors and the perspectives for translating our experimental knowledge of manipulating dendritic cell migratory flows into anti-cancer therapies.

In vivo manipulation of dendritic cell migration and activation to elicit antitumour immunity.

Two approaches have been pursued to elicit antitumour immunity: (i) induce recruitment of immature dendritic cells or their precursors at a site of antigen delivery, and (ii) induce activation of tumour-infiltrating dendritic cells (DCs). The recruitment of selected DC subtype conditions the class of the immune response. Each immature DC population displays a unique spectrum of chemokine responsiveness. For examples, Langerhans cells (LCs) migrate selectively in response to CCL20/MIP-3alpha (through CCR6), blood CD11c+ DC to MCP chemokines (through CCR2). All these chemokines are inducible in response to inflammatory stimuli. CCL20/MIP-3alpha in particular is only detected within inflamed epithelium, at the site of antigen entry, which is infiltrated by immature DCs. Furthermore, to reach the site of injury, sequential responsiveness might operate, blood DC precursors are recruited by a set of chemokines (MIP, MCP) while within the tissue other chemokines will direct their navigation (CCL20/MIP-3alpha). Of interest, when injected in vivo together with antigen, MCP-4/CCL13, but not CCL20/MIP-3alpha, recruits blood monocytes or blood DC precursors that promptly differentiate into typical DCs and that improve antitumour immune responses. After antigen uptake, DCs acquire, upon maturation, responsiveness to CCR7 ligands (CCL21/SLC/6Ckine, CCL19/ELC/MIP-3beta) due to receptor up-regulation. In particular, in the periphery, CCL21/SLC/6Ckine expressed by lymphatic vessels may direct into the lymph stream, antigen-loaded maturing DCs leaving the site of infection; while within lymph-node, CCL21/SLC/6Ckine plays a critical role in the entry of naïve T cells from the blood through HEV. In regard to its central role, we decided to investigate whether the expression of CCL21/SLC/6Ckine in tumour may lead to antitumour immune responses. C26 colon carcinoma tumour cell line transduced with CCL21/SLC/6Ckine showed reduced tumorigenicity when injected in vivo into immunocompetent mice. The protection was CD8 dependent and associated with an important intratumoral infiltration of DCs. Most tumour infiltrating DCs (TIDCs) had an immature phenotype, were able to present TAA in the context of MHC class I, but were refractory to stimulation with the combination of LPS, IFNgamma and anti-CD40 antibody. TIDC paralysis could be reverted, however, by in vitro or in vivo stimulation with the combination of a CpG immunostimulatory sequence and an anti-interleukin 10 receptor (IL10R) antibody. CpG or anti-IL10R alone were inactive in TIDC, while CpG triggered activation in normal DC. In particular, CpG plus anti-IL10R enhanced the TAA-specific immune response and triggered de novo IL-12 production. Subsequently, CpG plus anti-IL10R treatment showed robust antitumour therapeutic activity exceeding by far that of CpG alone, and elicited antitumour immune memory.

Reversal of tumor-induced dendritic cell paralysis by CpG immunostimulatory oligonucleotide and anti-interleukin 10 receptor antibody.

Progressing tumors in man and mouse are often infiltrated by dendritic cells (DCs). Deficient antitumor immunity could be related to a lack of tumor-associated antigen (TAA) presentation by tumor-infiltrating DCs (TIDCs) or to a functional defect of TIDCs. Here we investigated the phenotype and function of TIDCs in transplantable and transgenic mouse tumor models. Although TIDCs could encompass various known DC subsets, most had an immature phenotype. We observed that TIDCs were able to present TAA in the context of major histocompatibility complex class I but that they were refractory to stimulation with the combination of lipopolysaccharide, interferon gamma, and anti-CD40 antibody. We could revert TIDC paralysis, however, by in vitro or in vivo stimulation with the combination of a CpG immunostimulatory sequence and an anti-interleukin 10 receptor (IL-10R) antibody. CpG or anti-IL-10R alone were inactive in TIDCs, whereas CpG triggered activation in normal DCs. In particular, CpG plus anti-IL-10R enhanced the TAA-specific immune response and triggered de novo IL-12 production. Subsequently, CpG plus anti-IL-10R treatment showed robust antitumor therapeutic activity exceeding by far that of CpG alone, and elicited antitumor immune memory.