On December 28, 2025 CARsgen Therapeutics Holdings Limited (Stock Code: 2171.HK), a company focused on developing innovative CAR T-cell therapies, reported that it has submitted two separate Investigational New Drug (IND) applications to the National Medical Products Administration (NMPA) for its allogeneic BCMA-targeted CAR-T cell therapy product, CT0596. The applications seek to initiate two corresponding Phase Ib/Ⅱ clinical trials for the treatment of relapsed/refractory multiple myeloma (R/R MM) and primary plasma cell leukemia (pPCL), respectively.

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CT0596 is an allogeneic CAR T-cell therapy targeting BCMA, developed based on CARsgen’s proprietary THANK-u Plus platform. Through the knockout of genes such as NKG2A, TRAC, and B2M, CT0596 is designed to reduce the risk of graft-versus-host disease (GvHD) and host immune rejection. Additional gene editing further blocks host natural killer (NK) cell-mediated rejection, thereby aiming to enhance the product’s efficacy and safety profile.

Investigator-initiated trials (IIT) for CT0596 have already been conducted in China to explore its clinical potential in treating R/R MM and pPCL. Data from the first-in-human study, presented at the 2025 American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting, demonstrated a favorable safety profile and encouraging efficacy signals for CT0596. As of August 31, 2025, all 8 patients with R/R MM who received CT0596 infusion were evaluable for efficacy, with a median follow-up of 4.14 months. Six patients achieved a partial response (PR) or better: 3 achieved complete response/stringent complete response (CR/sCR) (all received full-dose lymphodepletion), 1 achieved very good partial response (VGPR), and 2 achieved PR. Four patients experienced Grade 1 cytokine release syndrome (CRS), with no Grade 2 or higher CRS observed. No immune effector cell-associated neurotoxicity syndrome (ICANS), GvHD, dose-limiting toxicities, treatment discontinuations, or deaths were reported.

Previously, the company also disclosed preliminary clinical data for CT0596 in relapsed/refractory pPCL. Two heavily pretreated pPCL patients with high disease burden and rapid progression both achieved sCR after receiving CT0596 treatment.

The IND applications mark the commencement of the registration clinical development phase for CT0596, which holds the potential to offer a new treatment option for patients with R/R MM and pPCL.

About CT0596

CT0596 is an allogeneic BCMA-targeted CAR-T therapy developed using CARsgen’s proprietary THANK-u Plus platform. It is currently being evaluated in investigator-initiated trials for relapsed/refractory multiple myeloma (R/R MM) or primary plasma cell leukemia (pPCL). CT0596 demonstrated preliminary favorable tolerability and encouraging efficacy signals. Further investigation is planned in additional plasma cell malignancies and autoimmune diseases mediated by plasma cells.

(Press release, Carsgen Therapeutics, DEC 28, 2025, View Source [SID1234661634])

On December 28, 2025 Harbour BioMed (HKEX: 02142), a global biopharmaceutical company committed to the discovery and development of novel antibody therapeutics in immunology and oncology, reported that it has entered into a long-term strategic collaboration with Yantai Lannacheng Biotechnology Co., Ltd. ("Lannacheng"). The two parties will leverage their respective resources and strengths to jointly advance the development of next-generation radionuclide drug conjugates (RDCs).

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Compared with conventional radiotherapy, RDCs utilize tumor antigen–specific ligands to deliver radionuclides directly to tumor lesions for targeted radiotherapy, thereby effectively reducing damage to surrounding healthy tissues. In contrast to antibody–drug conjugates (ADCs), the radionuclides in RDCs can also exert cytotoxic effects on neighboring tumor cells and the tumor microenvironment, even if those cells do not express the target antigen. This mechanism offers a potential advantage in overcoming tumor heterogeneity and drug resistance. In addition, this technology holds the potential to achieve theranostics—integrating both diagnosis and treatment.

With its advanced technology platforms and deep expertise, Harbour BioMed has built a solid foundation in antibody discovery and development. The company’s proprietary Harbour Mice platform enables the generation of fully human monoclonal antibodies in both conventional (H2L2) and heavy chain-only (HCAb) formats, eliminating the need for additional engineering or humanization. The HCAb technology, in particular, produces unique, fully human heavy chain-only antibodies that are approximately half the size of conventional IgGs, offering significant advantages for next-generation antibody therapeutics. In the development of RDCs, fully human antibodies—characterized by low immunogenicity, superior tissue penetration, and high specificity and stability—can significantly enhance the efficiency of targeted delivery, thereby improving therapeutic efficacy while effectively reducing drug-related toxicity and side effects.

Founded in 2021, Lannacheng is a clinical-stage biotechnology company dedicated to the discovery, development, and commercialization of integrated theranostic radiopharmaceuticals for oncology. The company’s R&D engine, enhanced by its proprietary pharmacokinetic optimization and dual-targeting drug development platforms, combines target validation, radioisotope selection, and linker design to improve pharmacokinetic profiles and advance the development of dual-targeting radiopharmaceutical candidates. Its strengths are further solidified through end-to-end integration of capabilities supported by its controlling shareholder, Dongcheng Biochem, including R&D resources, a stable supply of radioisotopes, and a GMP production facility currently under construction in Yantai. Together, these elements ensure a sustainable, scalable, and rapidly innovating radiopharmaceutical pipeline.

Jingsong Wang, MD, PhD, Founder, Chairman, and CEO of Harbour BioMed, commented: "We are very pleased to establish a long-term strategic collaboration with Lannacheng to jointly advance the development of next-generation RDCs. Harbour BioMed is committed to providing efficient and highly differentiated antibody solutions for innovative therapies through our globally leading Harbour Mice fully human antibody platform. This collaboration will deeply integrate Harbour BioMed’s expertise in antibody discovery with Lannacheng’s strengths in radiopharmaceutical R&D and commercialization, accelerating the development of more precise, effective and safe cancer therapies and bringing new hope to patients worldwide."

Wu Xiaoming, General Manager of Lannacheng, stated: "We are delighted to establish a long-term strategic collaboration with Harbour BioMed to jointly advance the R&D and translation of next-generation radiopharmaceuticals. Lannacheng is committed to leveraging our systematic radiopharmaceutical technology platform, comprehensive industrial capabilities, and global collaboration network to provide efficient, innovative, and differentiated integrated solutions for tumor diagnosis and treatment. This collaboration will fully combine Lannacheng’s strengths in radiopharmaceutical R&D and commercialization and Harbour BioMed’s deep expertise in antibody discovery. Together, we aim to accelerate the development of more precise, effective, and safe cancer treatment therapies, bringing new hope to patients worldwide."

(Press release, Harbour BioMed, DEC 28, 2025, View Source [SID1234661633])

On December 28, 2025 Senhwa Biosciences following its recent clinical collaboration with the multinational pharmaceutical company BeOne Medicines to explore combination therapy with its marketed PD-1 inhibitor in the challenging field of cold tumor treatment reported another major milestone. The Company’s first-in-class investigational drug Pidnarulex (CX-5461) will be evaluated in combination with the globally recognized antibody-drug conjugate (ADC), Trastuzumab Deruxtecan (Enhertu), in a Phase 1b clinical trial. The study is designed for HER2-positive solid tumors and breast cancer patients, including those with HER2-low expression and metastatic breast cancer. Supported by the U.S. National Cancer Institute’s (NCI) NExT program, which funds multiple CX-5461 studies including combination strategies, Senhwa is positioning itself at the forefront of one of the most promising areas in oncology therapeutics, and this milestone marks CX-5461’s entry into the fast-growing ADC market.

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World’s First G4 Stabilizer Meets Leading ADC

CX-5461 is the world’s first and most advanced G-quadruplex (G4) stabilizer in development. It has shown promising activity in early-phase trials for breast cancer and other solid tumors in study sponsored by SU2C-CCTG in Canada. Its combination with Enhertu is expected to enhance treatment efficacy in HER2-low patients and offer new therapeutic possibilities.

Enhertu, co-developed by AstraZeneca and Daiichi Sankyo, is the first HER2-directed ADC approved for HER2-low and HER2-ultralow metastatic breast cancer. This innovative drug uses a monoclonal antibody to precisely target tumor cells and deliver the chemotherapy payload Deruxtecan directly into the tumor, enabling highly effective cancer cell killing while minimizing harm to healthy cells.

Entering a High-Growth Market

The global ADC market is projected to grow at a CAGR of 28.4%, reaching approximately USD 47 billion by 2029. Analysts believe that Senhwa’s clinical development strategy combining CX-5461 and Enhertu positions the company to directly tap into this high-growth and highly competitive oncology market.

Differentiated Advantage and Strategic Collaboration Potential

Although existing HER2-targeted therapies have transformed the treatment landscape for breast and gastric cancers, their efficacy in HER2-low solid tumors remains limited. Experts suggest that if CX-5461’s novel mechanism of action, when combined with ADC’s precise delivery platform, proves effective, it could break through current treatment barriers, expand indications to additional tumor types, and establish a clear competitive edge.

With global pharmaceutical companies racing into the ADC space, collaborations and licensing agreements have become mainstream. Should Senhwa’s combination therapy demonstrate strong clinical efficacy, it could attract strategic partnerships with major international pharma players, bringing in substantial licensing revenues and long-term collaboration opportunities.

Driving Long-Term Value Creation

Analysts further note that the successful advancement of this trial would significantly enhance Senhwa’s international visibility in oncology, elevate the company’s market valuation, and deliver sustainable long-term returns for investors and shareholders.

HER2 has been validated as a critical oncogenic driver across multiple tumor types. By leveraging the innovative combination of CX-5461 and Enhertu, Senhwa aims to pioneer breakthrough therapies, capture a substantial share of the rapidly growing ADC market, and build a diverse oncology treatment platform. The company reiterated its commitment to strengthening its R&D pipeline, integrating next-generation ADC technologies with its proprietary drug candidates, and advancing toward its vision of becoming a leading Asia-based oncology innovator with a global footprint.

Senhwa Biosciences – CX-5461 NCI-NExT Program Clinical Trial Overview

No.

Study Title

Total Subjects

Primary Endpoints

Global Market Forecast

1

Pilot Study of Pidnarulex Pharmacodynamics
in Patients with Advanced Solid Tumors

Up to 40 subjects
HRD / Non-HRD (20 each)

Evaluation of RAD51 response and DNA damage response

2024: USD 362.2B
CAGR: 20%
2032: USD 1,557.4B

2

Phase 1b/2 Trial of Pidnarulex
in MYC Aberrant Lymphoma

Up to 50 subjects
Phase 1b: 36
Phase 2: 8–14

1. Safety and DLT evaluation on CX-5461
2. RP2D for on CX-5461
3. ORR
4. CX-5461 PK
5. Effect on MYC-aberrant lymphoma gene expression

2024: USD 4.9B
CAGR: 5.79%
2035: USD 8.9B

3

A Phase 1 and Randomized Phase 2 Trial
of Pidnarulex (CX-5461) and Cemiplimab (REGN2810)
in Refractory Microsatellite Stable Colorectal Cancer

Up to 86 subjects
Phase 1: 18
Phase 2: 68

1. CX-5461 RP2D combined with PD-1 inhibitor
2. Safety & tolerability for CX-5461 monotherapy & combination
3. PFS in refractory MSS CRC with liver metastases for CX-5461 monotherapy & combination

2025: USD 58.0B
CAGR: 15%
2035: > USD 250.0B

4

Phase 1b study
of Pidnarulex and Trastuzumab Deruxtecan
in patients with HER2 expressing Solid Tumors

Up to 36 subjects

1. MTD & RP2D determination for combination of CX-5461 and Trastuzumab Deruxtecan
2. Safety and tolerability in HER2-low and HR+ HER2-ultra-low breast cancer for combination of CX-5461 and Trastuzumab Deruxtecan

2023: USD 10.8B
CAGR: 28.4%
2029: USD 47.0B

(Press release, Senhwa Biosciences, DEC 28, 2025, View Source [SID1234661632])

On December 26, 2025 Adicet Bio, Inc. (Nasdaq: ACET), a clinical stage biotechnology company discovering and developing allogeneic gamma delta T cell therapies for autoimmune diseases and cancer, reported that its board of directors has determined to effect a one-for-16 reverse stock split of Adicet’s common stock, par value $0.0001 per share.

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The reverse stock split ratio approved by the board of directors is within the previously disclosed range of ratios for a reverse stock split authorized by the stockholders of the company at the 2025 Special Meeting of Stockholders of Adicet held on December 19, 2025. The reverse stock split will take effect at 12:01 a.m. Eastern Time on December 30, 2025, and Adicet’s common stock will begin trading on a split-adjusted basis on The Nasdaq Capital Market as of the opening of trading on December 30, 2025. The CUSIP number of 007002207 will be assigned to Adicet’s common stock when the reverse stock split becomes effective.

When the reverse stock split becomes effective, every sixteen (16) of Adicet’s issued shares of common stock will be combined into one issued share of common stock, without any change to the par value per share. This will reduce the number of outstanding shares of common stock from approximately 153.3 million shares to approximately 9.6 million shares. The reverse stock split will not affect the absolute number of Adicet’s authorized shares of common stock, which will remain at 300,000,000, but the total number of shares of Adicet’s common stock available for future issuance will increase.

Proportional adjustments will also be made to the number of shares of common stock awarded and available for issuance under Adicet’s equity incentive plans, as well as the exercise price and the number of shares issuable upon the exercise or conversion of Adicet’s outstanding stock options and other equity securities under Adicet’s equity incentive plans. All outstanding pre-funded warrants will also be adjusted in accordance with their terms, which will result in proportionate adjustments being made to the number of shares issuable upon exercise of such warrants and to the exercise prices of such warrants, as applicable.

No fractional shares will be issued in connection with the reverse stock split. Stockholders who would otherwise be entitled to receive fractional shares will automatically be entitled to receive cash in lieu of such fractional share.

Stockholders with shares held in book-entry form or through a bank, broker, or other nominee are not required to take any action and will see the consequence of the reverse stock split reflected in their accounts on or after December 30, 2025. Such beneficial holders may contact their bank, broker, or nominee for more information.

The reverse stock split is intended to enable Adicet to regain compliance with the minimum bid price requirement for continued listing on the Nasdaq Capital Market.

(Press release, Adicet Bio, DEC 26, 2025, View Source [SID1234661629])

On December 25, 2025 Innovent Biologics, Inc. ("Innovent") (HKEX: 01801), a world-class biopharmaceutical company that develops, manufactures and commercializes high quality medicines for the treatment of oncology, cardiovascular and metabolic, autoimmune, ophthalmology and other major diseases, reported that the New Drug Application (NDA) for TABOSUN (ipilimumab N01 injection; R&D Code: IBI310), the first domestic cytotoxic lymphocyte-associated antigen-4 (CTLA-4) monoclonal antibody (mAb), has been approved by China’s National Medical Products Administration (NMPA), in combination with sintilimab as neoadjuvant treatment for stage IIB-III resectable microsatellite instability-high (MSI-H) or mismatch repair deficient (dMMR) colon cancer. TABOSUN (ipilimumab N01 injection) is the world’s first approved CTLA-4 mAb for neoadjuvant treatment of colon cancer. Short-term neoadjuvant treatment with the ipilimumab N01 and sintilimab combination demonstrated a substantial improvement in pathological complete response, offering the potential to benefit a broader population of patients with MSI-H/dMMR colon cancer.

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Resectable MSI-H/dMMR colon cancer urgently requires effective neoadjuvant therapies to improve prognosis

MSI-H/dMMR colon cancer accounts for around 15% of all resectable colon cancer cases[ii]. Due to its unique biological characteristics, this class of tumor shows limited sensitivity to chemotherapy and generally responds poorly[iii]. In recent years, immune checkpoint inhibitors have demonstrated significant efficacy in advanced MSI-H/dMMR colon cancer, but a gap remains in the neoadjuvant setting. For locally advanced MSI-H/dMMR colon cancer, the current standard of care is direct surgery followed by adjuvant chemotherapy. Under this regimen, approximately 10%-30% of patients experience disease recurrence or metastasis after surgery, while chemotherapy-related toxicities may negatively affect quality of life[iv]. Thus in the neoadjuvant setting, there remains an urgent need for more effective therapies to improve outcomes for patients with locally advanced MSI-H/dMMR colon cancer.

The world’s first dual-IO neoadjuvant therapy: TABOSUN (ipilimumab N01 injection) combined with TYVYT (sintilimab injection) markedly enhances pathological complete response rates

Immune checkpoint blockade (ICB) therapy targeting PD-1 and CTLA-4 has transformed cancer treatment. The combination of DABOSUN (ipilimumab N01 injection) and TYVYT (sintilimab injection) as neoadjuvant therapy can significantly improve pathological complete response(pCR) rates and allow the majority of patients to avoid adjuvant chemotherapy.

Previously, results from a randomized, controlled Phase 1b trial evaluating ipilimumab N01 plus sintilimab as neoadjuvant treatment for MSI-H/dMMR colon cancer were published in the top-tier journal Cancer Cell[i].

As of June 17, 2025, 101 patients were enrolled and randomized to receive ipilimumab N01 plus sintilimab (n=52) or sintilimab alone (n=49).
In the per-protocol population, the pCR rate in the ipilimumab N01-plus-sintilimab arm was significantly higher than in the sintilimab-alone arm (80.0% vs 47.7%, p=0.0007).
With median follow-up of 21.4 months, no patient experienced disease recurrence.
Approval is based on results from the randomized, controlled, multicenter, pivotal Phase 3 clinical trial (NeoShot, NCT05890742), which evaluated the safety and efficacy of ipilimumab N01 combined with sintilimab as neoadjuvant therapy compared with direct radical surgery for MSI-H/dMMR colon cancer. The primary endpoints are pCR rate and event-free survival (EFS). Interim analysis by the Independent Data Monitoring Committee (IDMC) confirmed that the NeoShot trial met its primary endpoint.

As of November 28, 2024, among the first 50 patients in the treatment arm, 41 achieved pathological complete response after neoadjuvant treatment, yielding a pCR rate of 82%.
Neoadjuvant treatment with ipilimumab N01 combined with sintilimab did not significantly increase safety risks compared with direct surgery.
Detailed results will be presented at future academic conferences or published in academic journals.

The Principal Investigator of the NeoShot study, Academician of the Chinese Academy of Engineering, Prof. Ruihua Xu from Sun Yat-sen University Cancer Center, stated: "Achieving R0 resection remains challenging for certain patients with locally advanced colon cancer, who also face substantial surgical trauma and poor prognosis. Results from the FOxTROT study indicated that neoadjuvant chemotherapy provides limited benefit in MSI-H/dMMR colon cancer, with a pCR rate of only around 5%[v]. The NeoShot trial is the first randomized, controlled Phase 3 clinical trial to show promising efficacy of dual checkpoint inhibition as neoadjuvant therapy in MSI-H/dMMR colon cancer. Interim analysis suggests that ipilimumab N01 with sintilimab as short-term neoadjuvant treatment can lead to pathological complete response in 82% of treated patients. In addition, NeoShot Ph1b and Ph3 interim results both show the R0 resection under this regimen could reach 100% and spare patients from adjuvant chemotherapy. In NeoShot-1b, the dual-immunotherapy neoadjuvant regimen combining ipilimumab N01 and sintilimab significantly improved the pCR rate, which serves as a surrogate endpoint for long-term prognosis. Based on the existing data, this regimen shows promising potential to reduce recurrence risk and improve long-term survival outcomes. We look forward to observing continued reductions in recurrence with longer-term follow-up. The approval of this dual-immunotherapy regimen is expected to change clinical practice, fill a critical gap in neoadjuvant treatment of colon cancer and benefit more patients with MSI-H/dMMR colon cancer."

Dr. Hui Zhou, Chief R&D Officer (Oncology) of Innovent, stated: "There remains a substantial unmet clinical need for neoadjuvant therapies for stage IIB-III resectable MSI-H/dMMR colon cancer in China. Interim analysis has shown that the NeoShot trial met its primary endpoint. Through Innovent’s efficient and high-quality clinical development, ipilimumab N01 has become China’s first domestically developed innovative CTLA-4 inhibitor approved by the NMPA, offering a new treatment option for patients in China with stage IIB-III resectable MSI-H/dMMR colon cancer."

About Ipilimumab N01

Ipilimumab N01 (R&D code: IBI310) is a fully human monoclonal antibody injection independently developed by Innovent. Ipilimumab N01 specifically binds cytotoxic T lymphocyte-associated antigen 4 (CTLA-4), thereby blocking CTLA-4-mediated inhibition of T cell activity, promoting T cell activation and proliferation, improving tumor immune response, and achieving anti-tumor effects. [vi]

The NDA for ipilimumab N01 in combination with sintilimab as neoadjuvant treatment for stage IIB-III resectable microsatellite instability-high (MSI-H) or mismatch repair deficient (dMMR) colon cancer has recently been approved by the NMPA.

About Sintilimab

Sintilimab, marketed as TYVYT (sintilimab injection) in China, is a PD-1 immunoglobulin G4 monoclonal antibody co-developed by Innovent and Eli Lilly and Company. Sintilimab is a type of immunoglobulin G4 monoclonal antibody, which binds to PD-1 molecules on the surface of T-cells, blocks the PD-1 / PD-Ligand 1 (PD-L1) pathway, and reactivates T-cells to kill cancer cells.[vii]

In China, sintilimab has been approved and included in the updated NRDL for eight indications. The updated NRDL reimbursement scope for TYVYT (sintilimab injection) includes:

For the treatment of relapsed or refractory classic Hodgkin’s lymphoma after two lines or later of systemic chemotherapy;
For the first-line treatment of unresectable locally advanced or metastatic non-squamous non-small cell lung cancer lacking EGFR or ALK driver gene mutations;
For the treatment of patients with EGFR-mutated locally advanced or metastatic non-squamous non-small cell lung cancer who progressed after EGFR-TKI therapy;
For the first-line treatment of unresectable locally advanced or metastatic squamous non-small cell lung cancer;
For the first-line treatment of unresectable or metastatic hepatocellular carcinoma with no prior systematic treatment;
For the first-line treatment of unresectable locally advanced, recurrent or metastatic esophageal squamous cell carcinoma;
For the first-line treatment of unresectable locally advanced, recurrent or metastatic gastric or gastroesophageal junction adenocarcinoma; and
In combination with fruquintinib for the treatment of patients with advanced endometrial cancer with pMMR tumors that have failed prior systemic therapy and are not candidates for curative surgery or radiation.
The NDA for sintilimab’s ninth indication, in combination with ipilimumab N01 as neoadjuvant treatment for stage IIB-III resectable MSI-H/dMMR colon cancer is recently approved by the NMPA.

The NDA for sintilimab’s tenth indication, in combination with fruquintinib for the treatment of locally advanced or metastatic renal cell carcinoma who previously failed systematic treatment, has been accepted by the Center for Drug Evaluation (CDE) of NMPA.

In addition, two clinical studies of sintilimab have met their primary endpoints:

Phase 2 study of sintilimab monotherapy as second-line treatment of esophageal squamous cell carcinoma; and
Phase 3 study of sintilimab monotherapy as second-line treatment for squamous non-small cell lung cancer with disease progression following platinum-based chemotherapy.

(Press release, Innovent Biologics, DEC 25, 2025, View Source [SID1234661627])