Your search keyword '"Dianze Chen"' showing total 10 results

1. Combining CD38 antibody with CD47 blockade is a promising strategy for treating hematologic malignancies expressing CD38

Author

Song Li, Dianze Chen, Yanan Yang, Huiqin Guo, Dandan Liu, Nana Sun, Xing Bai, Kaili Wang, Tengfei Li, Guanghui Li, Chunmei Yang, Wei Zhang, Li Zhang, Gui Zhao, Liang Peng, Sijin Liu, Xiaoping Tu, Ruliang Zhang, and Wenzhi Tian

Subjects

CD38, cd47, CD38/CD47 bispecific antibody, hematologic malignancies, Fc-mediated effector function, Apoptosis, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundCD38 and CD47 are expressed in many hematologic malignancies, including multiple myeloma (MM), B-cell non-Hodgkin lymphoma (NHL), B-cell acute lymphoblastic leukemia (ALL), and B-cell chronic lymphocytic leukemia (CLL). Here, we evaluated the antitumor activities of CD38/CD47 bispecific antibodies (BsAbs).MethodsFive suitable anti-CD38 antibodies for co-targeting CD47 and CD38 BsAb were developed using a 2 + 2 “mAb-trap” platform. The activity characteristics of the CD38/CD47 BsAbs were evaluated using in vitro and in vivo systems.ResultsUsing hybridoma screening technology, we obtained nine suitable anti-CD38 antibodies. All anti-CD38 antibodies bind to CD38+ tumor cells and kill tumor cells via antibody-dependent cellular cytotoxicity (ADCC) and antibody-dependent cellular phagocytosis (ADCP). Five anti-CD38 antibodies (4A8, 12C10, 26B4, 35G5, and 65A7) were selected for designing CD38/CD47 BsAbs (IMM5605) using a “mAb-trap” platform. BsAbs had higher affinity and binding activity to the CD38 target than those to the CD47 target, decreasing the potential on-target potential and off-tumor effects. The CD38/CD47 BsAbs did not bind to RBCs and did not induce RBC agglutination; thus, BsAbs had much lower blood toxicity. The CD38/CD47 BsAbs had a greater ability to block the CD47/SIRPα signal in CD38+/CD47+ tumor cells than IMM01 (SIRPα Fc fusion protein). Through Fc domain engineering, CD38/CD47 BsAbs were shown to kill tumors more effectively by inducing ADCC and ADCP. IMM5605–26B4 had the strongest inhibitory effect on cellular CD38 enzymatic activity. IMM5605–12C10 had the strongest ability to directly induce the apoptosis of tumor cells. The anti-CD38 antibody 26B4 combined with the SIRPα-Fc fusion proteins showed strong antitumor effects, which were better than any of the mono-therapeutic agents used alone in the NCI-H929 cell xenograft model. The CD38/CD47 BsAbs exhibited strong antitumor effects; specifically, IMM5605–12C10 efficiently eradicated all established tumors in all mice.ConclusionA panel of BsAbs targeting CD38 and CD47 developed based on the “mAb-tarp” platform showed potent tumor-killing ability in vitro and in vivo. As BsAbs had lower affinity for binding to CD47, higher affinity for binding to CD38, no affinity for binding to RBCs, and did not induce RBC agglutination, we concluded that CD38/CD47 BsAbs are safe and have a satisfactory tolerability profile.

Published

2024

2. The novel high-affinity humanized antibody IMM40H targets CD70, eliminates tumors via Fc-mediated effector functions, and interrupts CD70/CD27 signaling

Author

Song Li, Dianze Chen, Huiqin Guo, Dandan Liu, Chunmei Yang, Ruliang Zhang, Tianxiang Wang, Fan Zhang, Xing Bai, Yanan Yang, Nana Sun, Wei Zhang, Li Zhang, Gui Zhao, Liang Peng, Xiaoping Tu, and Wenzhi Tian

Subjects

IMM40H, CD70/CD27 signaling, CD70, targeting CD70 antibody, ADCC, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundA significant level of CD70 can be detected in various types of tumor tissues and CD27 is expressed on Treg cells, but CD70 expression is low in normal tissues. The interaction between CD70 and CD27 can stimulate the proliferation and survival of cancer cells and increase the level of soluble CD27, which is associated with poor prognosis in patients with lymphoma and certain solid tumors. Thus, it is a promising therapeutic target for the treatment of many major CD70+ cancer indications, including CD70+ lymphoma, RCC, NSCLC, HNSCC and OC.MethodsIMM40H was obtained through hybridoma screening and antibody humanization techniques. IMM40H was evaluated for its binding, blocking, Fc-dependent effector functions and antitumor activity characteristics in various in vitro and in vivo systems. The safety and tolerability profile of IMM40H were evaluated through single and repeated administration in cynomolgus monkeys.ResultsIn vitro cell-based assays demonstrated that IMM40H had considerably stronger CD70-binding affinity than competitor anti-CD70 antibodies, including cusatuzumab, which enabled it to block the interaction of between CD70 and CD27 more effectively. IMM40H also exhibited potent Fc-dependent effector functions (ADCC/CDC/ADCP), and could make a strong immune attack on tumor cells and enhance therapeutic efficacy. Preclinical findings showed that IMM40H had potent antitumor activity in multiple myeloma U266B1 xenograft model, and could eradicate subcutaneously established tumors at a low dose of 0.3 mg/kg. IMM40H (0.3 mg/kg) showed therapeutic effects faster than cusatuzumab (1 mg/kg). A strong synergistic effect between IMM01 (SIRPα-Fc fusion protein) and IMM40H was recorded in Burkitt’s lymphoma Raji and renal carcinoma cell A498 tumor models. In cynomolgus monkeys, the highest non-severely toxic dose (HNSTD) for repeat-dose toxicity was up to 30 mg/kg, while the maximum tolerated dose (MTD) for single-dose toxicity was up to 100 mg/kg, confirming that IMM40H had a good safety and tolerability profile.ConclusionIMM40H is a high-affinity humanized IgG1 specifically targeting the CD70 monoclonal antibody with enhanced Fc-dependent activities. IMM40H has a dual mechanism of action: inducing cytotoxicity against CD70+ tumor cells via various effector functions (ADCC, ADCP and CDC) and obstructs the proliferation and activation of Tregs by inhibiting CD70/CD27 signaling.

Published

2023

3. SIRPα-Fc fusion protein IMM01 exhibits dual anti-tumor activities by targeting CD47/SIRPα signal pathway via blocking the 'don’t eat me' signal and activating the 'eat me' signal

Author

Jifeng Yu, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Wei Zhang, Li Zhang, Gui Zhao, Xiaoping Tu, Liang Peng, Sijin Liu, Xing Bai, Yongping Song, Zhongxing Jiang, Ruliang Zhang, and Wenzhi Tian

Subjects

CD47, Signal regulatory protein α (SIRPα), Immune checkpoint pathway, SIRPα-Fc fusion proteins, Cancer immunotherapy, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract A novel recombinant SIRPα-Fc fusion protein, IMM01, was constructed and produced using an in-house developed CHO-K1 cell expression system, and the anti-tumor mechanism of IMM01 targeting the CD47-SIRPα pathway was explored. The phagocytosis and in vitro anti-tumor activity of IMM01 were evaluated by antibody-dependent cellular phagocytosis (ADCP), antibody-dependent cell-mediated cytotoxicity (ADCC), and complement-dependent cytotoxicity (CDC) assays. In vivo mouse tumor model studies were used to explore therapeutic efficacy as well as the mechanism of action. An in vitro binding assay revealed that IMM01 has a strong binding affinity to CD47 with an EC50 of 0.4967 nM. IMM01 can induce strong ADCP and moderate ADCC, but not CDC. IMM01-induced strong phagocytosis against tumor cells was attributed to dual activities of blocking the "don’t eat me" signal and activating the "eat me" signal, and IMM01 exhibits strong and robust in vivo anti-tumor activities either as monotherapy on hematological malignancies, or in combination therapy with PD-L1 monoclonal antibody (mAb), PD-1 mAb, and HER-2 mAb on solid tumors. Finally, IMM01 demonstrated a favorable safety profile with no human RBC binding activity or hemagglutination induction. IMM01 inhibits the growth of tumor cells by the following three possible mechanisms: (1) directly activating macrophages to phagocytize tumor cells; (2) activated macrophages degrade phagocytized tumor cells and present tumor antigens to T cells through MHC molecules to activate T cells; (3) activated macrophages can convert "cold tumors" into "hot tumors" and increase the infiltration of immune cells through chemotaxis by secreting some cytokines and chemokines.

Published

2022

4. Crystal Structure of Human CD47 in Complex with Engineered SIRPα.D1(N80A)

Author

Jifeng Yu, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Wei Zhang, Li Zhang, Gui Zhao, Xiaoping Tu, Liang Peng, Sijin Liu, Xing Bai, Yongping Song, Zhongxing Jiang, Ruliang Zhang, and Wenzhi Tian

Subjects

cancer immunotherapy, SIRPα-Fc fusion proteins, CD47/SIRPα, crystal structure, immune checkpoint pathway, computer-aided drug discovery, Organic chemistry, QD241-441

Abstract

Background: Targeting the CD47/SIRPα signaling pathway represents a novel approach to enhance anti-tumor immunity. However, the crystal structure of the CD47/SIRPα has not been fully studied. This study aims to analyze the structure interface of the complex of CD47 and IMM01, a novel recombinant SIRPα-Fc fusion protein. Methods: IMM01-Fab/CD47 complex was crystalized, and diffraction images were collected. The complex structure was determined by molecular replacement using the program PHASER with the CD47-SIRPαv2 structure (PDB code 2JJT) as a search model. The model was manually built using the COOT program and refined using TLS parameters in REFMAC from the CCP4 program suite. Results: Crystallization and structure determination analysis of the interface of IMM01/CD47 structure demonstrated CD47 surface buried by IMM01. Comparison with the literature structure (PDB ID 2JJT) showed that the interactions of IMM01/CD47 structure are the same. All the hydrogen bonds that appear in the literature structure are also present in the IMM01/CD47 structure. These common hydrogen bonds are stable under different crystal packing styles, suggesting that these hydrogen bonds are important for protein binding. In the structure of human CD47 in complex with human SIRPα, except SER66, the amino acids that form hydrogen bonds are all conserved. Furthermore, comparing with the structure of PDB ID 2JJT, the salt bridge interaction from IMM01/CD47 structure are very similar, except the salt bridge bond between LYS53 in IMM01 and GLU106 in CD47, which only occurs between the B and D chains. However, as the side chain conformation of LYS53 in chain A is slightly different, the salt bridge bond is absent between the A and C chains. At this site between chain A and chain C, there are a salt bridge bond between LYS53 (A) and GLU104 (C) and a salt bridge bond between HIS56 (A) and GLU106 (C) instead. According to the sequence alignment results of SIRPα, SIRPβ and SIRPγ in the literature of PDB ID 2JJT, except ASP100, the amino acids that form common salt bridge bonds are all conserved. Conclusion: Our data demonstrated crystal structure of the IMM01/CD47 complex and provides a structural basis for the structural binding interface and future clinical applications.

Published

2022

5. CNN-based image small-angle rotation angle estimation.

Author

Dianze Chen, Zhonghao Song, Jingyu Guo, Shuai Yang, and Heng Yao

Published

2022

6. IMM0306, a fusion protein of CD20 mAb with the CD47 binding domain of SIRPα, exerts excellent cancer killing efficacy by activating both macrophages and NK cells via blockade of CD47-SIRPα interaction and FcɣR engagement by simultaneously binding to CD47 and CD20 of B cells

Author

Jifeng Yu, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Wei Zhang, Li Zhang, Gui Zhao, Xiaoping Tu, Liang Peng, Sijin Liu, Xing Bai, Yongping Song, Zhongxing Jiang, Ruliang Zhang, and Wenzhi Tian

Subjects

Cancer Research, Oncology, Hematology

Published

2022

7. Abstract 1878: Preclinical development of a novel bispecific mAb-Trap fusion protein, IMM2520, targeting both PD-L1 and CD47 as cancer immunotherapy

Author

Wenzhi Tian, Song Li, Dianze Chen, Wenqi Zhu, Yanan Yang, Dandan Liu, Huiqin Guo, Chunmei Yang, Li Zhang, Wei Zhang, Xiaoping Tu, Liang Peng, Gui Zhao, Ruliang Zhang, Fan Zhang, and Frank Gan

Subjects

Cancer Research, Oncology

Abstract

The programmed cell death protein 1 (PD-1) immune checkpoint is well known in its ability to attenuate T cell-mediated immune responses in tumors expressing its ligand, programmed death-ligand 1 (PD-L1). CD47, a cell surface molecule in the immunoglobulin superfamily, is another established target overexpressed on various malignant cells and acts as an innate inhibitory checkpoint by interrupting the phagocytosis of tumor cells and downstream activation of innate responses. It has been reported that the simultaneous blockade on both CD47 and PD-L1 checkpoints inhibited tumor growth and circulating tumor cells metastasis more potently than a single antibody inhibition or blank control in the 4T1 tumor mouse model in vivo. IMM2520 is an antibody-receptor (mAb-Trap) fusion protein consisting of recombinant human SIRPα and anti- PD-L1 antibody, thereby targeting CD47 and PD-L1 to antagonize both innate and adaptive immune checkpoint pathways. IMM2520 binds to PD-L1 on the tumor cell membrane and restores the immune response of T cells. IMM2520 also reverses the inhibitory effect of tumor cells on macrophages by blocking the binding of CD47 on the tumor cell to SIRPα on macrophages. In vitro studies have demonstrated that IMM2520 not only possesses a potent binding activity to CD47 (EC50 = 0.8 nM) and PD-L1 (EC50 = 0.09 nM) respectively, but also exhibits a strong activity in blocking PD-1/PD-L1 binding (IC50 = 0.06 - 1.0 nM). IMM2520 also showed a potent antibody-dependent cellular cytotoxicity (ADCC, EC50 = 1.54 ng/ml) against Raji-PDL1 and induced a strong antibody-dependent cellular phagocytosis (ADCP, EC50 = 0.04 nM) activity (THP-1 against Raji-PDL1). In vivo efficacy study with CT26-hPD-L1/hCD47 colon cancer model demonstrated that IMM2520 at 3 mg/kg significantly reduced tumor volume (TGITV = 90.12%, P Citation Format: Wenzhi Tian, Song Li, Dianze Chen, Wenqi Zhu, Yanan Yang, Dandan Liu, Huiqin Guo, Chunmei Yang, Li Zhang, Wei Zhang, Xiaoping Tu, Liang Peng, Gui Zhao, Ruliang Zhang, Fan Zhang, Frank Gan. Preclinical development of a novel bispecific mAb-Trap fusion protein, IMM2520, targeting both PD-L1 and CD47 as cancer immunotherapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 1878.

Published

2023

8. Abstract 2938: Preclinical development of a novel bispecific mAb-Trap fusion protein, IMM2902, targeting both HER2 and CD47 as cancer immunotherapy

Author

Binglei Zhang, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Li Zhang, Wei Zhang, Xiaoping Tu, Liang Peng, Gui Zhao, Ruliang Zhang, Frank X. Gan, Wenzhi Tian, Fan Zhang, and Yongping Song

Subjects

Cancer Research, Oncology

Abstract

The overexpression of human epidermal growth factor receptor 2 (HER2) has been identified in a variety of solid tumors including breast cancer (BC), gastric cancer and is associated with tumor recurrence, brain metastasis, and an overall poor prognosis. As such, HER2 has become a major target in the research and development of anticancer drugs. CD47, an integrin-associated protein, is expressed in many human cancer cells, especially upregulated preferentially in HER2-expressing cells. Co-expression of HER2 and CD47 is more frequently detected in recurrent BC patients with poor prognosis when comparing with the counterpart primary tumors. IMM2902 is a first-in-class, clinical-stage, novel recombinant bispecific mAb-Trap fusion protein targeting both CD47 and HER2 simultaneously. The binding activities of IMM2902, measured as EC50, to total CD47+ and HER2+ in BT474, NCI-N87 and SKOV-3 cancer cell lines are 16, 11 and 5 nM respectively. The affinity of IMM2902 to HER2 is about 15 times higher than that of CD47. IMM2902 not only prevents the engagement of CD47 with SIRPα and hence blocks “don’t eat me” signal of CD47/SIRPα, but also induces strong antibody-dependent cell-mediated cytotoxicity (ADCC, EC50 = 0.0045 - 0.0544 nM) and antibody-dependent cellular phagocytosis (ADCP, EC50 = 0.05 - 0.13 nM) activity with specifically engineered IgG1 Fc fragment. Most importantly, IMM2902 induces accelerated HER2 degradation in tumor tissues. Despite its high affinity to CD47, IMM2902 does not binds to CD47 on erythrocyte membrane, therefore, unlike conventional CD47 mAb, IMM2902 demonstrated a minimal impact on red blood cells (RBC). In preclinical research, IMM2902 has demonstrated a much stronger antitumor activity with excellent tolerability in a mouse model of human breast cancer (dose range 3.5 - 10 mg/kg) and a mouse model of human gastric cancer (dose range 1 -18 mg/kg) than that of trastuzumab (targeting HER2 only) alone, IMM01 (a SIRPα-Fc fusion protein) alone, and the combination of trastuzumab and IMM01. In HER2-low SUN-1 xenograft models, IMM2902 has showed a strong tumor growth inhibition at doses between 2 to 18 mg/kg. Intriguingly, IMM2902 also has exhibited potent tumor killing activity against breast cancer resistant to trastuzumab (HCC-1954 and patient-derived xenografts herceptin-resistant model) at doses between 3.5 to 10 mg/kg. Given the strong preclinical antitumor activity as well as the favorable safety profile, IMM2902 may serve as a potent immunotherapy for HER2-expressing cancers via dual blockade of CD47 and HER2. A Phase 1 clinical trial exploring safety, tolerability, and preliminary efficacy of IMM2902 in patients with HER2-expressing advanced solid tumors is currently ongoing in both China (CXSL2101035) and USA (NCT05076591). Citation Format: Binglei Zhang, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Li Zhang, Wei Zhang, Xiaoping Tu, Liang Peng, Gui Zhao, Ruliang Zhang, Frank X. Gan, Wenzhi Tian, Fan Zhang, Yongping Song. Preclinical development of a novel bispecific mAb-Trap fusion protein, IMM2902, targeting both HER2 and CD47 as cancer immunotherapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 2938.

Published

2023

9. Novel Sirpα-Fc Fusion Protein IMM01 Exhibits Dual Anti-Tumor Activities By Targeting CD47/Sirpα Signal Pathway

Author

Jifeng Yu, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Wei Zhang, Li Zhang, Gui Zhao, Xiaoping Tu, Liang Peng, Sijin Liu, Xing Bai, Yongping Song, Zhongxing Jiang, Ruliang Zhang, and Wenzhi Tian

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

10. Abstract 6281: Preclinical development of a bispecific antibody-trap selectively targeting CD47 and CD24 for cancer immunotherapy

Author

Wenzhi Tian, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Li Zhang, Wei Zhang, Xiaoping Tu, Liang Peng, Gui Zhao, Ruliang Zhang, and Fan Zhang

Subjects

Cancer Research, Oncology

Abstract

Limited treatment beneficial rate and market saturation of the first generation of immune checkpoint inhibitors (Such as PD-(L)1 inhibitors) have turned the attention of pharmaceutical industry to the next generation of innate immune checkpoints such as CD47/SIRPα and CD24/Siglec-10. Various cancers of lung, breast, colon, prostate, ovarian, stomach, pancreas, myeloid and lymphoid tissues are known to highly express CD47 and/or CD24, which confer cancer cells means of immune-evasion via induction of “Don’t eat me” signals. Precisely and simultaneously neutralizing CD47 and CD24 signaling on tumors, when coupled with an IgG1 antibody’s potent phagocytosis and cytotoxicity activity, may serve as potent immunotherapy for multiple cancer types. We have developed a humanized CD24 neutralizing antibody which has been revealed to neutralize CD24-Siglec-10 interaction and completely eliminate established colon cancer in syngeneic mouse models via proposed mechanisms of antibody-dependent cell cytotoxicity (ADCC), antibody-dependent cell phagocytosis (ADCP), and subsequent tumor-specific immunity as a result of macrophage activation. Using this mAb as backbone, we developed an CD24 mAb-CD47 trap by conjugating the SIRPα decoy receptor to the N-terminal of the antibody heavy chain. Initial in vitro studies indicated that this mAb-trap has simultaneous two-target binding as well as blocking activities. More promisingly, eight administrations of the mAb-trap at 3mg/kg dose in mice bearing triple-negative breast cancer resulted in a complete tumor growth inhibition. Furthermore, in a Herceptin-resistant xenograft tumor model, the mAb-trap is also efficacious and resulted in over 60% of tumor growth inhibition when administrated at 7.2mg/kg. Taken together, our data show that precise neutralization of CD47 and CD24 signaling on tumors using IgG1 antibody may serve as potent monotherapy for cancers. Citation Format: Wenzhi Tian, Song Li, Dianze Chen, Dandan Liu, Huiqin Guo, Chunmei Yang, Li Zhang, Wei Zhang, Xiaoping Tu, Liang Peng, Gui Zhao, Ruliang Zhang, Fan Zhang. Preclinical development of a bispecific antibody-trap selectively targeting CD47 and CD24 for cancer immunotherapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6281.

Published

2022