Project description:TIM3, a T-cell inhibitory receptor, is expressed on exhausted T cells in tumor microenvironment (TME). Anti-TIM3 antibody therapy could alleviate the suppression of tumor-infiltrating lymphocytes (TILs) in IL-2 dependent fashion. We hypothesize that high expression of TIM3 and limited IL-2 in TME facilitate immune evasion. To test that, we engineered anti-TIM3-pro-IL2 to selectively deliver IL-2 to TIM3high TILs by TIM3 antibody and reduce its toxicity with a cis delivery mechanism. Since IL-2 could reduce its activity at acidic pH inside TME, we also screened a low pH-selective IL-2 mutein (IL2V2) with enhanced affinity for IL-2Rβ. We then integrated pro-IL-2 into the anti-TIM3 antibodies in two different forms: TIM3-Rα-MMPs-IL2V2 (TIM3-ProIL2V2) as IL-2 release-form vs TIM3-IL2V2-MMPs-Rα as cis-form after binding to TIM3high T cells, ensuring the need of targeted delivery to TIM3-expressing TILs. Surprisingly, released IL2V2 from TIM3-Rα-MMPs-IL2V2 proved superior in anti-tumor immunity, but not cis delivery form TIM3-IL2V2-MMPs-Rα. Mechanistically, TIM3-ProIL2V2 not only reactivated TIM3+ TILs but also facilitated the activation and expansion of TIM3- T cells which in turn supported a sustained source of TIM3+ effector. TIM3-ProIL2V2 could control multiple tumor models including human tumor in humanized mice, confirming the hypothesis. TIM3-ProIL2V2 activates and expands TIM3-CD8+ T cells to overcome current major unmet medical need: anti-PD-1/L1 resistance. This strategy illustrates the potential of a tailored, low pH-resistant IL2 variant in invigorating both TIM3-negative and positive CD8+ T cells, offering a promising avenue for treating resistant tumors with reduced toxicity.

Project description:Tumor-activating IL2 rejuvenates intratumoral TIM3-CD8+T cell responses through targeting TIM3+CD8+T cell

Project description:Anti-TIM3-IFN fusion protein rejuvenates tumor-infiltrating exhausted TIM3+CD8+ T cells through activating intratumoral dendritic cells

Project description:In metastasis, the existence tumor cells overcoming the immune system during early organ seeding is crucial, yet the dynamics of tumor-immune interactions during micrometastasis remain unclear. Examining the immune selective pressure in breast cancer (BC) mouse models, we unexpectedly found TIM3 among the most upregulated genes in metastatic surviving BC cells. The selection of TIM3+ tumor cells, was specifically occurring during early seeding of micrometastasis, escaping the immune attack and acquiring stemness. Also clinical data confirmed increased TIM3+ tumor cells in BC metastasis. The aim of the study was to understand the mechanistic insgihts of Tim3 in breast cancer cells in vivo to decipher pivotal pathways of Tim3-mediated immun-evasion.

Project description:CD8+ T cells isolated from HCC tissue were divided into three groups: PD1-TIM3- CD8+ TILs, exhibiting full effector function; PD1-intTIM3+ CD8+ TILs, exhibiting partial exhaustion; and PD1-hiTIM3+ CD8+ TILs, exhibiting severe exhaustion, as reflected by the differences in their ability to produce effector cytokines respectively. Transcriptome sequence analysis was performed to investigate the gene expression profile was performed.

Project description:Analysis of the specific transcriptional changes on DCs provided by direct pattern recogition receptor (PRR) or IFNAR signaling that are required for DC maturation after poly IC stimulation. Results provide important information about the intricate differentiation process of DC maturation and the importance of type I IFNs for DC immunogenicity.

Project description:Analysis of the specific transcriptional changes on DCs provided by direct pattern recogition receptor (PRR) or IFNAR signaling that are required for DC maturation after poly IC stimulation. Results provide important information about the intricate differentiation process of DC maturation and the importance of type I IFNs for DC immunogenicity. WT/IFNA-/- or WT/PRR-/- mixed-chimera mice were injected with 50 ug Poly-IC i.p. in vivo 4 and 14 hr later, wild type and KO CD11chi CD3- DX5- B220- DCs were FACS sorted based on CD45.2 expression. Total RNA was isolated and expression profile was compared between unstimulated and activated WT and KO DCs.

Project description:Murine Cytomegalovirus (MCMV) infection leads to the activation of various immune cells, including dendritic cells (DCs) and Natural Killer (NK) cells. This activation is partly driven by innate cytokines including IFN-I, which are induced early after infection. The objective was to address the role of different innate cytokines in shaping DC subsets and NK cell responses, in particular the role of cell intrinsic responses to IFN-I. In order to decipher the specific impact of cell-intrinsic IFN-I on cell subsets, we performed a genome-wide expression analysis on CD45.1 WT and CD45.2 IFNAR-/- splenic conventional DC (cDC) subsets and NK cells isolated from C57BL/6 [CD45.1 WT / CD45.2 IFNAR-KO] mixed bone marow chimera mice.

Project description:In this study we describe the immunosupressive role of Tim3+ tumor cells during eraly stages of metastasis. We used single cell RNA sequencing (scRNA-seq) to analyze the diversity of immune cells subsets altered by Tim3 expression in the tumor cells. The aim was to determine the immune status of immunosuppressive and cytotoxic populations during the dynamic process of the metastatic colonization in the liver

Project description:Mesothelin (MSLN) is an attractive therapeutic target for precision cancer treatments. Here, we identify a MSLN-targeting DARPin, M7, which specifically binds to the protease-sensitive C-terminal region of MSLN. Furthermore, we develop two auristatin-based DARPin-drug conjugates (DARPin-DCs), M7A-DC and M7GA-DC. We show that M7A-DC and M7GA-DC are effectively internalized by MSLN-positive cells, leading to the release of MMAE that induces lethal effects on tumor cells and bystander killing against MSLN-negative cells. Both M7A-DC and M7GA-DC induce long-lasting tumor regression with favorable tolerability in mice.