A Phase 1/2, Open-label Study of the Safety, Tolerability, Pharmacokinetics, Pharmacodynamics and Clinical Activity of AP402 in HER2-Positive Patients With Locally or Advanced Solid Tumors

This is a Phase 1/2, multi-regional, multi-center, open-label, first-in-human (FIH), dose-escalation and dose expansion study to evaluate the safety, tolerability, pharmacokinetics (PK), pharmacodynamics (PD) and preliminary clinical activity of AP402 in HER2-positive patients with locally or advanced solid tumors.

开始日期2025-04-22

申办/合作机构

AP Biosciences, Inc.

NCT05473156

/ Recruiting临床1/2期

A Phase 1/2, Open-label Study of the Safety, Pharmacokinetics, and Clinical Activity of AP203 in Patients with Locally Advanced or Metastatic Solid Tumors, and Expansion to Selected Malignancies

This is a multi-regional, multi center, open label, first in human (FIH), dose-escalation, and dose-expansion study of AP203 to evaluate the safety, tolerability, pharmacokinetics (PK), immunogenicity, pharmacodynamics, and antitumor activities of AP203 in adult patients with locally advanced or metastatic solid tumors.

开始日期2023-07-24

申办/合作机构

AP Biosciences, Inc.

NCT06723964

/ Active, not recruiting临床1期

A Phase 1 Dose-Escalation Study to Evaluate the Tolerability, Pharmacokinetics, and Preliminary Anti-Tumor Activity of AP505 Injection, an Anti-PD-L1 and Anti-VEGF Bispecific Antibody, in Patients With Advanced Solid Tumors

This is a multi-center, open-label study to investigate the safety, tolerability, pharmacokinetics (PK), immunogenicity, and preliminary anti-tumor activity of AP505 injection in patients with advanced solid tumors. The study will determine the maximum tolerated dose (MTD) and recommended Phase 2 dose (RP2D) for AP505.

开始日期2023-03-30

申办/合作机构

AP Biosciences, Inc.

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项与 AP Biosciences, Inc. 相关的文献（医药）

2025-04-21·Cancer Research

Abstract 6016: AP402, a bispecific antibody targets p95HER2 and CD137, shows a potent antitumor activity in p95HER2-expressing cancers

作者: Huang, Kuan-Ming ; Huang, Po-Lin ; Hsu, Ching-Hsuan ; Chen, Hsin-Yu ; Hsieh, Hsin-Ta ; You, Jhong-Jhe ; Kan, Hung-Tsai

AbstractIntroduction:p95HER2 is the extracellular domain-truncated form of HER2 receptor while preserves the intracellular tyrosine kinase activity to support tumor growth. p95HER2 was found in 30 to 40% HER2-positive breast cancer patients and associated with a more aggressive phenotype and worse prognosis. Due to the lack of extracellular domain, p95HER2 has been recognized as the potential mechanism of trastuzumab-resistance. The unmet need for trastuzumab-resistant patients and exclusive expression in cancerous tissues make p95HER2 as an ideal therapeutic target. Here, AP402 was designed to coordinate two dominant effector cells, natural killer and T cells, against p95HER2-positive cancers.Experimental procedures:AP402 bispecific antibody was generated by conjugating CD137 single-chain variable fragment (scFv) to the heavy chain C-terminal of p95HER2 antibody (human IgG1). The affinity and specificity of p95HER2 antibodies were checked by biolayer interferometry (BLI) and flow cytometry, respectively. ADCC and ADCP activities of AP402 were determined by NK cells and monocyte-derived macrophages, respectively. AP402-mediated activation of T cells were studied by coculturing T cells with p95HER2-transgenic cells. Antitumor activity of AP402 was studied using humanized mice inoculated with p95HER2-transgenic cancer cells and p95HER2-positive breast cancer patient-derived xenograft (PDX). Safety of AP402 was determined by the 4-week toxicity study in monkeys.Results:1. AP402 showed the superior affinity (KD 0.34 nM) to p95HER2 with the minimal crossreactivity to HER2 (KD 38.4 nM). 2. AP402 elicited ADCC robustly in p95HER2-NCI-H292 (EC50 0.006 nM) and p95HER2-MDA-MB-231 cells (EC50 0.043 nM), while in SKBR3 cells to a minimal level, but not in the wildtype and CD137-HEK293 cells at all. 3. ADCP was induced by AP402 in macrophages cocultured with p95HER2-NCI-H292 cells. 4. Compared to the mono or combinational treatment of parental monoclonal antibodies, AP402 boosted the most vigorous T cell activation, which intensity corresponded to the expression levels of p95HER2 on cancer cells. 5. AP402 showed the potent antitumor activity in p95HER2-MDA-MB-231 (TGI 92.3%) and p95HER2-NCI-H292 (TGI 73.6%) tumor-bearing mice dosed with 0.4 mg/kg, BIW. Antitumor activity was also shown in mice inoculated with p95HER2-positve breast cancer PDXs (TGI 59%). 6. In monkey Tox study, the exposure of AP402 was approximately dose proportional in doses 25-100 mg/kg with t1/2 ∼108 hrs. NOAEL: 100 mg/kg.Conclusions:Nonclinical studies demonstrated that AP402 is efficacious in triggering the effector functions of NK and T cells in vitro and blocking the growth of p95HER2-positive breast and lung tumors in vivo. AP402 was well tolerated in repeat doses up to 100 mg/kg in monkeys.Citation Format:Po-Lin Huang, Hsin-Ta Hsieh, Hung-Tsai Kan, Ching-Hsuan Hsu, Kuan-Ming Huang, Hsin-Yu Chen, Jhong-Jhe You. AP402, a bispecific antibody targets p95HER2 and CD137, shows a potent antitumor activity in p95HER2-expressing cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 1 (Regular Abstracts); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_1):Abstract nr 6016.

2024-07-01·Biomedicine & Pharmacotherapy

Fully human chitinase-3 like-1 monoclonal antibody inhibits tumor growth, fibrosis, angiogenesis, and immune cell remodeling in lung, pancreatic, and colorectal cancers

Article

作者: Su, Pei-Chia ; Shan, Yan-Shen ; Chen, Ching-Yu ; Hsieh, Hsin-Ta ; Yu, Min-Hua ; Hou, Ya-Chin ; Kuo, I-Ying ; Wang, Yi-Ching ; Yang, Pei-Shan ; Hsu, Ching-Hsuan ; Chang, Chih-Peng

Considering the limited efficacy of current therapies in lung, colorectal, and pancreatic cancers, innovative combination treatments with diverse mechanisms of action are needed to improve patients' outcomes. Chitinase-3 like-1 protein (CHI3L1) emerges as a versatile factor with significant implications in various diseases, particularly cancers, fostering an immunosuppressive tumor microenvironment for cancer progression. Therefore, pre-clinical validation is imperative to fully realize its potential in cancer treatment. We developed phage display-derived fully human monoclonal CHI3L1 neutralizing antibodies (nAbs) and verified the nAbs-antigen binding affinity and specificity in lung, pancreatic and colorectal cancer cell lines. Tumor growth signals, proliferation and migration ability were all reduced by CHI3L1 nAbs in vitro. Orthotopic or subcutaneous tumor mice model and humanized mouse model were established for characterizing the anti-tumor properties of two CHI3L1 nAb leads. Importantly, CHI3L1 nAbs not only inhibited tumor growth but also mitigated fibrosis, angiogenesis, and restored immunostimulatory functions of immune cells in pancreatic, lung, and colorectal tumor mice models. Mechanistically, CHI3L1 nAbs directly suppressed the activation of pancreatic stellate cells and the transformation of macrophages into myofibroblasts, thereby attenuating fibrosis. These findings strongly support the therapeutic potential of CHI3L1 nAbs in overcoming clinical challenges, including the failure of gemcitabine in pancreatic cancer.

2023-10-01·Journal of periodontal research

Complement components C3b and C4b as potential reliable site-specific diagnostic biomarkers for periodontitis.

Article

作者: You, Jhong-Jhe ; Shieh, Yi-Shing ; Tseng, Fang-Yi ; Huang, Ren-Yeong ; Weng, Pei-Wei ; Van Dyke, Thomas E ; Cheng, Chia-Dan ; Sung, Cheng-En ; Cheng, Wan-Chien

OBJECTIVEThis study aimed to investigate the correlation between the expression levels of C3b and C4b in human gingival tissue (GT) and gingival crevicular fluid (GCF) and disease severity in human periodontitis and to determine whether C3b and C4b are significant site-specific complementary diagnostic markers for periodontitis.BACKGROUNDA variety of biomarkers that have potential for informing diagnoses of periodontitis have been proposed. The complement components C3b and C4b were found to be positively correlated with disease severity. The therapeutic effect of targeting C3b and C4b on inflammatory bone loss in experimental periodontitis models has been studied. However, studies on the diagnostic potential of the gingival C3b and C4b expression levels for periodontitis are scarce.METHODSThe expression levels of C3b and C4b in the GT and GCF were investigated via immunohistochemistry and enzyme-linked immunosorbent assay, respectively. The correlation between the expression levels of C3b and C4b and disease severity with probing depth as well as the clinical attachment level were determined. To evaluate the diagnostic accuracy of the C3b and C4b expression levels at the periodontitis sites, the receiver operating characteristic (ROC) curve, cut-off point, area under the ROC curve, sensitivity, and specificity were analyzed.RESULTSThe expression levels of C3b and C4b in human GT and GCF were significantly positively correlated with periodontitis severity. The expression levels of combined C3b + C4b in the GT can significantly differentiate the disease status at the tissue level (p < .0001). Similarly, the expression levels of C3b + C4b in GCF can statistically distinguish periodontitis sites from healthy ones (p < .0001).CONCLUSIONSLocally deposited C3b and C4b were positively correlated with periodontitis severity and recognized as site-specific diagnostic biomarkers for clinicopathological features in periodontitis. The association between the C3b and C4b network and periodontitis may be further understood and provide a basis for the development of novel screening as well as diagnostic and therapeutic strategies for periodontitis.

项与 AP Biosciences, Inc. 相关的新闻（医药）

2025-04-29

·PipelineReview

AP Biosciences Presents Preclinical Data on p95HER/CD137 T-Cell Engager at American Association of Cancer Research Annual Meeting

TAIPEI, Taiwan I April 29, 2025 I AP Biosciences, a clinical-stage biopharmaceutical company dedicated to transforming cancer therapy through innovative bispecific antibodies, today announced the presentation of new preclinical data for its lead asset, AP402, at the 2025 American Association for Cancer Research (AACR) Annual Meeting in San Diego, California. The data, presented in a poster titled “AP402, a bispecific antibody targeting p95HER2 and CD137, shows potent antitumor activity,” highlight the therapeutic potential of AP402 to address treatment-resistant HER2-positive cancers through conditional T-cell engagement. “The findings presented at AACR reinforce the rationale for advancing AP402 into clinical studies,” said Jeng Her, Ph.D., Founder and Chief Executive Officer of AP Biosciences. “By selectively targeting p95HER2—a truncated HER2 isoform implicated in therapeutic resistance—and conditionally activating CD137, AP402 offers a unique mechanism to recruit and stimulate immune effector cells while minimizing the risk of systemic toxicity. These data demonstrate the strength of our T-cube platform in delivering targeted immune activation precisely within the tumor microenvironment.” Results Summary In conclusion, the preclinical data show that AP402 effectively engages innate and adaptive immune responses, demonstrates robust antitumor activity in p95HER2-expressing tumor models, and is well tolerated in non-human primates. These findings support the continued development of AP402, which recently entered clinical evaluation in Australia ( NCT06669975 ). About AP402 AP402 is a first-in-class bispecific antibody developed by AP Biosciences to target p95HER2, a truncated variant of HER2 associated with resistance to Herceptin and poorer prognosis. This variant is present in approximately 30–40% of HER2-positive breast cancer patients. By leveraging p95HER2 recognition to cluster CD137, the design enables localized T-cell activation within the tumor microenvironment, helping to minimize systemic cytokine-related toxicity. The binding domains for p95HER2 and CD137 are strategically positioned on opposite ends to enhance bridging between HER2 variant-expressing cancer cells and CD137-expressing T-cells, ensuring efficient immune cell recruitment without spatial hindrance. This novel mechanism has positioned AP402 as a promising therapeutic approach to addressing tumors that have developed resistance to traditional anti-HER2 therapies, offering potential new hope for patients with refractory/recurrent cancers. About AP Biosciences AP Biosciences is a Taiwan-based clinical-stage biopharmaceutical company committed to developing innovative antibody-based therapies for cancer and other diseases. Applying its proprietary Omni-Mab and T-cube platforms, AP Biosciences is pioneering next generation bispecific antibodies that activate the immune system precisely where it’s needed, for both established and treatment-resistant cancers. SOURCE: AP Biosciences

AACR会议免疫疗法

2025-04-22

·GlobeNewswire-Health Care

AP Biosciences Doses First Patient in Phase 1/2 Clinical Trials of AP402 for HER2+ Cancer Patients

TAIPEI, Taiwan, April 22, 2025 (GLOBE NEWSWIRE) -- AP Biosciences, a clinical-stage biopharmaceutical company dedicated to transforming cancer therapy through development of innovative bispecific antibodies, today announced that it has dosed the first patient in its Phase 1 study evaluating AP402, a potential first-in-class, next generation T cell engager targeting CD137 and p95HER2 in patients relapsed/refractory to anti-HER2 treatment. The Phase 1 clinical trial, currently taking place in Australia, is designed to evaluate the safety, tolerability, and preliminary efficacy of AP402 in HER2+ patients with advanced solid tumors, including breast cancer. The following dose expansion phase of the study may include clinical sites in Taiwan, South Korea and the United States. “AP402 targets p95HER2, a truncated form of HER2 present in 30-40% of HER2-positive cancers, which is associated with exceptionally poor prognosis, and not addressable by conventional anti-HER2 therapies,” said Dr. Jeng Her, Ph.D., Founder and Chief Executive Officer of AP Biosciences. “AP402 represents the only T-cell engager in human trials which bridges activated T cells and p95HER2-expressing cancer cells in the tumor – a differentiated mechanism that could deliver a powerful immune response while minimizing systemic toxicity. AP402 thus offers promise as a potential therapeutic option for patients with difficult-to-treat cancers that could enhance efficacy and safety where other treatments fall short.” AP402-101 (NCT06669975), is a multi-center, open-label Phase 1 trial, enrolling up to 85 patients divided in two parts: a dose-escalation phase to determine the maximum tolerated dose and recommended Phase 2 dose (RP2D), followed by a dose-expansion phase targeting specific HER2-positive tumor types. Primary endpoints of the study include safety and tolerability, while secondary endpoints will evaluate objective response rate (ORR), disease control rate (DCR), and pharmacokinetic (PK) parameters. Exploratory endpoints will assess pharmacodynamic biomarkers and immunogenicity. The Company has announced that preclinical data supporting the therapeutic potential of AP402 will be presented in a poster at this year’s American Association of Cancer Research (AACR) conference. Visit https://www.apbioinc.com/en/ for more information about AP Biosciences and its pipeline of next-generation cancer therapies. About AP402AP402 is a first-in-class bispecific antibody originated and developed by AP Biosciences to target p95HER2, a truncated variant of HER2 that is expressed in 30-40% of treatment-resistant HER2-positive cancers. AP402 is constructed using T-cube bispecific antibody technology which combines p95HER2 targeting with a CD137 activation domain to enable target-dependent T-cell activation exclusively in the tumor microenvironment. The antibody design facilitates clustering of HER2 variants to effectively trigger CD137-mediated T-cell activation, while minimizing potential side effects related to systemic cytokine release. The binding domains for p95HER2 and CD137 are designed to enhance bridging between HER2 variant-expressing cancer cells and CD137-expressing T-cells, ensuring efficient immune cell recruitment without spatial hindrance. This novel mechanism has positioned AP402 as a promising potential therapeutic approach to addressing tumors that have developed resistance to traditional anti-HER2 therapies, offering new hope for patients with refractory/recurrent cancers. About AP Biosciences AP Biosciences is a Taiwan-based clinical-stage biopharmaceutical company committed to developing innovative antibody-based therapies for cancer and other diseases. Applying its proprietary Omni-Mab and T-cube platforms, AP Biosciences is pioneering next generation bispecific antibodies that activate the immune system precisely where it’s needed, for both established and treatment-resistant cancers. AP Biosciences ContactSpike LoAP Biosciencespr@apbioinc.com+886-2-2653-2886 Media ContactJason Braco, PhDLifeSci Communicationsjbraco@lifescicomms.com(908)-432-4243

临床1期AACR会议免疫疗法

2025-04-22

·GlobeNewswire-Health Care

UPDATE -- AP Biosciences to Present New Preclinical Data at American Association of Cancer Research Annual Meeting

TAIPEI, Taiwan, April 21, 2025 (GLOBE NEWSWIRE) -- AP Biosciences, a clinical-stage biopharmaceutical company dedicated to transforming cancer therapy through innovative bispecific antibodies, today announced that it will present a preclinical abstract in a poster presentation at the upcoming American Association for Cancer Research (AACR) Association Annual Meeting, taking place in Chicago, IL, April 25- 30, 2025. The data will showcase the potential of AP402, a first-in-class, next generation T cell engager targeting CD137 and p95HER2 in in-vivo and in vitro studies. AP402 recently received IND clearance to begin clinical trials in Australia this past February. Details for the poster presentation are as follows: Title: AP402, a bispecific antibody targets p95HER2 and CD137, shows a potent antitumor activityPoster Number: 6016Presenter: Dr. Po-Lin Huang, Associate Director, Antibody DiscoverySession: Clinical Research, Therapeutic Antibodies, Including Engineered Antibodies 2Location: Poster Section 35Date and Time: 4/29/2025 2:00 – 5:00 PM The poster will be made available on the AP Biosciences website following the session. About AP402 AP402 is a first-in-class bispecific antibody originated and developed by AP Biosciences to target p95HER2, a truncated variant of HER2 that is expressed in 30-40% of treatment-resistant HER2-positive cancers. AP402 combines p95HER2 binding with a CD137 activation domain to enable target-dependent T-cell activation exclusively within the tumor microenvironment. This design facilitates clustering of HER2 variants to effectively trigger CD137-mediated T-cell activation, while minimizing potential toxicity related to systemic cytokine release. The binding domains for p95HER2 and CD137 are designed to enhance bridging between HER2 variant-expressing cancer cells and CD137-expressing T-cells, ensuring efficient immune cell recruitment without spatial hindrance. This novel mechanism has positioned AP402 as a promising therapeutic approach to addressing tumors that have developed resistance to traditional anti-HER2 therapies, offering potential new hope for patients with refractory/recurrent cancers. About AP Biosciences AP Biosciences is a Taiwan-based clinical-stage biopharmaceutical company committed to developing innovative antibody-based therapies for cancer and other diseases. Applying its proprietary Omni-Mab and T-cube platforms, AP Biosciences is pioneering next generation bispecific antibodies that activate the immune system precisely where it’s needed, for both established and treatment-resistant cancers. AP Biosciences ContactSpike LoAP Biosciencespr@apbioinc.com+886-2-2653-2886 Media ContactJason Braco, PhDLifeSci Communicationsjbraco@lifescicomms.com(908)-432-4243

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