Akeso Published Mechanism of Action for CLDN18.2/CD47 Bispecific Antibody AK132 for the First Time at SITC Annual Meeting
Akeso Published Mechanism of Action for CLDN18.2/CD47 Bispecific Antibody AK132 for the First Time at SITC Annual Meeting
HONG KONG, Nov. 7, 2024 /PRNewswire/ -- At the 2024 Annual Meeting of the Society for Immunotherapy of Cancer (SITC 2024), held in Houston, USA, from November 6 - 10, Akeso Biopharma (9926. HK) presented the mechanism of action (MOA) research findings of its innovative bispecific antibody, AK132, targeting both Claudin18.2 (CLDN18.2) and CD47. AK132 is an asymmetric bispecific antibody with a "1+1" valency, designed to simultaneously target and block CLDN18.2 and CD47. It features a wild-type IgG1 Fc structure and is currently in the clinical research stage.
香港,2024年11月7日 /PRNewswire/ — 在11月6日至10日在美國休斯敦舉行的癌症免疫療法學會2024年年會(SITC 2024)上,Akeso Biopharma(9926)。HK)介紹了其針對Claudin18.2(CLDN18.2)和CD47的創新雙特異性抗體 AK132 的作用機制(MOA)研究結果。AK132 是一種價位爲 「1+1」 的不對稱雙特異性抗體,旨在同時靶向和阻斷 CLDN18.2 和 CD47。它具有野生型 IgG1 Fc 結構,目前處於臨床研究階段。
CD47 is overexpressed on a variety of cancer cells, where it interacts with its ligand SIRPα on innate immune cells to inhibit tumor phagocytosis. Claudin 18.2 (CLDN18.2), a tight junction protein, is abnormally activated and overexpressed in several primary malignancies. It has been recognized as a key tumor antigen target in gastric and pancreatic cancers.
CD47 在各種癌細胞上過度表達,與先天免疫細胞上的配體 SIRPα 相互作用,抑制腫瘤吞噬作用。Claudin 18.2(CLDN18.2)是一種緊密連接蛋白,在幾種原發性惡性腫瘤中被異常激活和過度表達。它已被公認爲胃癌和胰腺癌的關鍵腫瘤抗原靶標。
Studies have demonstrated that AK132 binds with high affinity to both human CLDN18.2 and human CD47. On one hand, it competitively blocks the interaction between CD47 and its ligand SIRPα, thereby disrupting the CD47-SIRPα axis and relieving the inhibition of tumor cell phagocytosis. This enables macrophage-mediated phagocytosis of CLDN18.2+/CD47+ tumor cells, thereby enhancing the antitumor activity of immune cells. On the other hand, AK132 also induces potent tumor cell killing through Fc-mediated effector functions, such as ADCC, ADCP, and CDC, leading to superior antitumor efficacy compared to anti-CLDN18.2 monoclonal antibodies. In subcutaneous tumor xenograft models in mice, AK132 demonstrated significantly stronger antitumor activity than anti-CLDN18.2 monoclonal antibodies.
研究表明,AK132 與人類 CLDN18.2 和人類 CD47 具有很高的親和力。一方面,它競爭性地阻斷了CD47與其配體SIRPα之間的相互作用,從而破壞了CD47-SIRPα軸,緩解了腫瘤細胞吞噬作用的抑制。這使得巨噬細胞介導的CLDN18.2+/CD47+腫瘤細胞吞噬作用成爲可能,從而增強免疫細胞的抗腫瘤活性。另一方面,AK132 還通過 FC 介導的效應器功能(例如 ADCC、ADCP 和 CDC)誘導強效的腫瘤細胞殺死,與抗 CLDN18.2 單克隆抗體相比,具有卓越的抗腫瘤功效。在小鼠皮下腫瘤異種移植模型中,AK132 顯示出比抗 CLDN18.2 單克隆抗體更強的抗腫瘤活性。
Ak132 Efficiently Binds to CLDN18.2 and CD47, Exerting Antitumor Effects through Multiple Mechanisms
Ak132 可高效結合 CLDN18.2 和 CD47,通過多種機制發揮抗腫瘤作用
Research shows that AK132 binds with high affinity and specificity to human CLDN18.2 and human CD47, competitively blocking the interaction between CD47 and its ligand SIRPα. This disruption of the CD47-SIRPα interaction releases the inhibition on tumor cell phagocytosis, enhancing immune cell anti-tumor functions. AK132 mediates macrophage phagocytosis of CLDN18.2+/CD47+ tumor cells and effectively inhibits tumor growth in subcutaneous xenograft mouse models. AK132 also efficiently kills tumor cells through Fc-mediated effector functions, such as ADCC (antibody-dependent cell-mediated cytotoxicity), ADCP (antibody-dependent cellular phagocytosis), and CDC (complement-dependent cytotoxicity).
研究表明,AK132 與人類 CLDN18.2 和人類 CD47 具有很高的親和力和特異性結合,競爭性地阻斷了 CD47 與其配體 SIRPα 之間的相互作用。CD47-SIRPα相互作用的這種破壞釋放了對腫瘤細胞吞噬的抑制作用,增強了免疫細胞的抗腫瘤功能。AK132 介導 CLDN18.2+/CD47+ 腫瘤細胞的巨噬細胞吞噬作用,並有效抑制皮下異種移植小鼠模型中的腫瘤生長。AK132 還通過 FC 介導的效應器功能有效地殺死腫瘤細胞,例如 ADCC(抗體依賴性細胞介導的細胞毒性)、ADCP(抗體依賴性細胞吞噬作用)和 CDC(補體依賴性細胞毒性)。
AK132 Shows no RBC Toxicity, Does not Bind to Red Blood Cells or Induce Agglutination, Demonstrating Good Safety Profiles
AK132 不顯示紅細胞毒性,不與紅細胞結合或誘導凝集,顯示出良好的安全性
Although CD47 is considered a promising target for cancer immunotherapy, the therapeutic efficacy of CD47 monoclonal antibodies is significantly limited by their considerable toxicity to red blood cells. AK132 features a unique structural design that reduces its affinity for CD47. In vitro studies have shown that AK132 binds minimally to human red blood cells, does not induce ADCP or ADCC activity against red blood cells (thus preventing red blood cell killing), and does not cause red blood cell aggregation, demonstrating an absence of erythrocyte toxicity.
儘管CD47被認爲是癌症免疫療法的有前途的靶標,但CD47單克隆抗體的治療功效因其對紅細胞的巨大毒性而受到嚴重限制。AK132 採用獨特的結構設計,降低了其對 CD47 的親和力。體外研究表明,AK132 與人體紅細胞的結合微乎其微,不會誘導對紅細胞的 ADCP 或 ADCC 活性(從而防止紅細胞殺死),也不會引起紅細胞聚集,這表明沒有紅細胞毒性。
Six Globally Leading Bispecific Antibodies Efficiently Propel Cancer Immunotherapy into the 2.0 Era
六種全球領先的雙特異性抗體有效推動癌症免疫療法進入2.0時代
Akeso's investigational New Drug application (IND) application for AK132, aimed at treating advanced malignant solid tumors, has been approved by the China NMPA. Akeso has strategically built a leading, target-rich pipeline of bispecific antibodies, establishing a competitive edge in cancer immunotherapy. Among these, cadonilimab (PD-1/CTLA-4 bispecific) and ivonescimab (PD-1/VEGF bispecific) are already market-approved. Four other bispecific antibodies, including AK129 (PD-1/LAG-3), AK130 (TIGIT/TGF-β fusion protein), AK131 (PD-1/CD73), and AK132 (CLDN18.2/CD47), are currently in clinical trials.
Akeso針對治療晚期惡性實體瘤的 AK132 的研究性新藥申請(IND)已獲得中國國家藥品監督管理局的批准。Akeso戰略性地建立了一條領先的、富含靶標的雙特異性抗體產品線,在癌症免疫療法領域確立了競爭優勢。其中,卡多尼利單抗(PD-1/CTLA-4雙特異性)和依沃尼西單抗(PD-1/VEGF雙特異性)已經獲得市場批准。其他四種雙特異性抗體,包括 AK129(PD-1/LAG-3)、AK130(Tigit/TGF-β 融合蛋白)、AK131(PD-1/CD73)和 AK132(CLDN18.2/CD47),目前正在臨床試驗中。
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About AK132 (Claudin18.2/CD4 bispecific antibody)
關於 AK132(Claudin18.2/CD4 雙特異性抗體)
AK132 is a bispecific antibody developed by Akeso, targeting the recombinant humanized Claudin18.2 (CLDN18.2) splice variant 2 and CD47 for the treatment of various cancers, including gastric, esophageal, pancreatic, ovarian, and lung adenocarcinomas.
AK132 是 Akeso 開發的一種雙特異性抗體,靶向重組人源化 Claudin18.2 (CLDN18.2) 剪接變體 2 和 CD47,用於治療各種癌症,包括胃癌、食道癌、胰腺癌、卵巢癌和肺腺癌。
AK132 binds with high affinity to both human CLDN18.2 and CD47, effectively blocking the interaction between CD47 and its ligand SIRPα. In mouse subcutaneous tumor models, it significantly inhibits tumor growth. AK132 shows no ADCC or ADCP activity in human RBC-targeted assays and does not cause RBC aggregation. As a bispecific antibody, it holds potential as a cancer therapy with both efficacy and safety.
AK132 與人類 CLDN18.2 和 CD47 具有很高的親和力,有效阻斷了 CD47 與其配體 SIRPα 之間的相互作用。在小鼠皮下腫瘤模型中,它顯著抑制腫瘤的生長。AK132 在人紅細胞靶向檢測中沒有 ADCC 或 ADCP 活性,也不會導致紅細胞聚集。作爲一種雙特異性抗體,它具有作爲癌症療法的潛力,同時具有療效和安全性。
