On June 30, 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, autoimmune, cardiovascular and metabolic, ophthalmology, and other major diseases, reported to have held its Oncology R&D Day, unveiling its forward-looking strategy centered on dual innovation in next-generation immuno-oncology (IO) and antibody-drug conjugate (ADC) technologies (Press release, Innovent Biologics, JUN 30, 2025, View Source [SID1234654168]). This strategic focus aims to redefine the standards of cancer treatment and propel Innovent toward becoming a global, premier biopharmaceutical leader. The event drew over 500 participants, including leading oncology key opinion leaders (KOLs), principal investigators, analysts, and global investors, signaling strong engagement with Innovent’s transformative vision for the future of oncology.

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"Over the past decade, Innovent has been at the forefront of China’s biopharmaceutical evolution—pioneering the PD-1 immunotherapy era and building China’s leading oncology brand, with over 3 million cancer patients treated with our therapies," said Dr. Michael Yu, Founder, Chairman of the Board and CEO of Innovent. "We are entering a new chapter focused on global innovation, powered by a robust pipeline and dual innovation of next-generation IO and next-generation ADC. Our recent presence at the 2025 ASCO (Free ASCO Whitepaper) with eight oral presentations highlights the strength and global competitiveness of our R&D. But this is only the beginning. With a clear vision to advance at least five pipeline assets into MRCT Phase 3 by 2030, we are committed to delivering innovative, high-quality, and accessible cancer treatments to patients worldwide."

Dual Innovation to Unlock the Future of Oncology: Next-gen IO + Next-gen ADC

At the core of Innovent’s oncology strategy lies the dual engines of next-generation immunotherapy (IO) and next-generation antibody-drug conjugates (ADC), supported by deep insights in cancer biology and differentiated technology platforms.

"We are harnessing deep cancer biology insights, advanced antibody and protein engineering, and differentiated ADC linker-payload technologies to develop broader-spectrum, more potent, and less toxic therapies aimed at transforming the oncology treatment paradigm," said Dr. Zhou Hui, SVP of Innovent Oncology R&D. "Our strategy is designed to target some of the toughest challenges in cancer care, including drug resistance, cold tumors, and improve the efficacy of current IO treatment, while bringing new hope to patients worldwide."

Global R&D Roadmap: a Clear, Stepwise Development Strategy

Innovent’s pipeline is guided by a rational, phased IO+ADC combination strategy designed to address tumor heterogeneity and immune escape, evolving through three stages:

Next-gen IO + Chemotherapy: to redefine the IO cornerstone
Next-gen IO + mAb-ADC / bispecific ADC: to cover expansive tumor types and treatment lines
Next-gen IO + Dual-Payload ADC (dpADC): to unlock full potential of IO+ ADC synergy, and reshape cancer treatment
Currently its oncology pipeline features nearly 10 next-generation molecules in global development, with multi-regional trials actively underway in the U.S., EU, and Asia. The company also continues to invest in global R&D infrastructure, supported by R&D hubs in Shanghai and San Francisco and antibody and ADC manufacturing capacity exceeding 140,000L.

Innovent is rapidly expanding its global innovation footprint, with a 2030 goal to advance at least five pipeline assets into global MRCT Phase 3 trials. Key potential candidates includes:

IBI343: innovative CLDN18.2 ADC with site-specific conjugation and a TOPO1 inhibitor payload, demonstrating significant survival benefits in both GC and PDAC
IBI363: PD-1/IL-2α-bias fusion protein as next-gen IO to redefine cancer treatment and expand the boundaries of IO responsiveness
IBI3009: DLL3 ADC in collaboration with Roche
IBI3003: tri-specific T-cell engager targeting BCMA/GPRC5D/CD3 for multiple myeloma
IBI3001: EGFR/B7H3 ADC with two synergetic targets covering multiple potential indications
IBI3020: CEACAM5 dual-payload ADC as globally the first to enter clinical phase
IBI363: Next-Gen IO Redefining Cancer Immunotherapy

IBI363 is a global first-in-class PD-1/IL-2α-bias fusion protein, featuring a differentiated molecular design and a dual immune activation mechanism. Emerging clinical data strongly support its mechanism of action in reinvigorating and expanding tumor-specific T cells (TSTs).

At ASCO (Free ASCO Whitepaper) 2025, IBI363 demonstrated breakthrough potential in three hard-to-treat tumor types, with a long tailing effect in prolonged survival benefits:

Immune-resistant NSCLC (squamous & Adeno): boosted response rate and extended PFS reflects strong immune activation; median overall survival (mOS) up to 17.5 months in 1.5 mg dose cohorts, 12-month OS rate exceeding 70% for 3 mg dose cohorts, and benefit observed even in PD-L1 low expressers
Later-line CRC (3L+): mOS of 16.1 months in monotherapy and only 17.8% OS events occurred in combination with bevacizumab with 9.4 months follow-up, outperforming historical benchmarks
Immune-resistant melanoma (mucosal/acral subtypes): confirmed overall response rate (cORR) 23%, median duration of response (mDoR) 14 months, and median OS 14.7 months, showing unprecedented positive response and a long-lasting immunologic tailing effect
With two Breakthrough Therapy Designations from the NMPA CDE, two Fast Track Designations from the FDA, IBI363 is advancing rapidly toward registrational development. The first head-to-head trial vs. pembrolizumab in mucosal and acral melanoma was initiated. Meanwhile, IBI363 is in preparation for registrational trails in IO-treated squamous NSCLC, and third-line MSS colorectal cancer. Additional trails for first-line and other solid tumors also under exploration in ongoing PoC studies.

High-Potency, Low-toxicity ADC Platforms Synergizing with IO for Broad Indication Coverage

Innovent is rapidly advancing its next-gen ADC pipeline, including:

IBI343 (CLDN18.2 ADC): first in PDAC to demonstrate long-term survival benefits (mOS 12.1 months in 2L)
IBI3001 (EGFR/B7H3 ADC): dual-targeted ADC with broad potential in solid tumors
IBI3020 (CEACAM5 dual payload ADC): designed for high efficacy and low toxicity in treatment-resistant tumors
These programs leverage proprietary payloads and linkers, optimized for lower toxicity and high potency, and are poised to synergize with Innovent’s IO agents to address broader and deeper indications.

Innovent Academy: R&D Engine to Drive Global Innovation

Innovent Academy is the company’s discovery engine for driving global innovation. The Academy continues to expand its platforms in IO, ADC, T-cell engagers, and cytokines, firmly establishing its leadership in next-gen oncology discovery and translational science to generate 6–8 novel molecules per year.

Specifically, for next-gen IO and next-gen ADC dual upgradation, Innovent Academy focuses on:

diversified antitumor mechanisms to integrate TME modulation and optimize IO efficacy;
dual targeting approaches to overcome tumor heterogeneity and drug resistance.
This framework allows Innovent to systematically escalate efficacy and broaden tumor applicability, laying the foundation for first-in-class and best-in-class combination regimens for cancer treatments.

Catalyzing China’s Role in Global Oncology Innovation

Leading oncology KOLs and principal investigators (PIs) delivered keynote speeches, reflecting on a pivotal moment for China’s biotech industry. They emphasized that China’s innovation, which is driven by rising translational capabilities, expanding global talent pools, and patient-centric trial execution, has entered a "Deepseek" moment, one where Chinese-discovered drugs can lead global standards, not just follow them.

"What we’re witnessing is a profound shift," said one keynote speaker. "Innovent’s next-generation IO programs like IBI363, with a clear global-first design, and ADC platforms targeting previously untreatable populations, show that Chinese biotech is poised to influence—not just participate in—the next global oncology paradigm."

The enthusiastic response from investors and KOLs underscores growing confidence in China-originated oncology innovation and reaffirms Innovent’s position as it enters a new era of global innovation with a vision to become a global premier biopharmaceutical leader.

On June 27, 2025 Schrödinger, Inc. (Nasdaq: SDGR) reported that SGR-1505, its clinical stage MALT1 inhibitor, was designated as a Fast Track product by the U.S. Food and Drug Administration (FDA) for the treatment of adult patients with Waldenström macroglobulinemia that have failed at least two lines of therapy, including a Bruton’s tyrosine kinase (BTK) inhibitor (Press release, Schrodinger, JUN 27, 2025, View Source [SID1234654163]).

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"We are excited to receive Fast Track designation for SGR-1505, which underscores the significant need in patients with Waldenström macroglobulinemia," said Karen Akinsanya, Ph.D., president, head of therapeutics R&D and chief strategy officer, partnerships at Schrödinger. "Despite the continued therapeutic advances in the treatment of hematologic malignancies, treatment failure and disease progression due to BTK resistance remains a challenge for a growing number of patients. This unmet need represents an opportunity for novel mechanisms such as MALT1 as monotherapy and as part of new combination regimens."

"We believe this Fast Track designation in Waldenström macroglobulinemia, combined with our encouraging Phase 1 data across a broad range of relapsed/refractory B-cell malignancies such as chronic lymphocytic leukemia, diffuse large B-cell lymphoma, and marginal zone lymphoma, reinforce the potential of SGR-1505 as a future therapeutic option for patients," said Margaret Dugan, chief medical officer at Schrödinger. "We look forward to discussing our Phase 1 study results and recommended Phase 2 dose with the FDA later this year."

The FDA Fast Track program is designed to facilitate the development and expedite the review of drug candidates to treat serious conditions and fill an unmet medical need. A drug granted Fast Track designation is eligible for multiple benefits, including more frequent meetings and written communications with the FDA, as well as eligibility for Accelerated Approval, Priority Review or Rolling Review, if relevant criteria are met.

SGR-1505 is currently being evaluated in a Phase 1 clinical study as a treatment for patients with relapsed/refractory B-cell malignancies. Initial data were recently presented at the European Hematology Association (EHA) (Free EHA Whitepaper) Annual Congress and International Conference on Malignant Lymphoma where SGR-1505 was observed to have a favorable safety profile and was well tolerated. Encouraging signs of preliminary efficacy were observed in multiple B-cell malignancy subtypes, including Waldenström macroglobulinemia patients, previously treated with a BTK inhibitor prior to starting SGR-1505.

On August 11, 2023, the FDA granted orphan drug designation to SGR-1505 for Mantle Cell Lymphoma (MCL) based on preclinical data.

About SGR-1505
SGR-1505 is an oral investigational MALT1 inhibitor being evaluated for the treatment of relapsed/refractory B-cell malignancies. MALT1 plays a central role in key signaling pathways that drive cancer cell survival and proliferation, making its location downstream of BTK in the NF-κB signaling pathway an attractive target for the development of novel therapeutics for a potentially broad range of B-cell malignancies. In preclinical studies, SGR-1505 was observed to be highly potent and selective, and has demonstrated anti-tumor activity in preclinical models both as a monotherapy and in combination with BTK and BCL-2 inhibitors. There is also emerging therapeutic rationale supporting MALT1 inhibition as a potential treatment for inflammatory and autoimmune disorders.

SGR-1505 was designed using Schrödinger’s computational platform at scale and was discovered approximately 10 months after the company started its MALT1 program. A Phase 1 study in patients with relapsed/refractory B-cell malignancies is ongoing (NCT05544019).

On June 27, 2025 TransThera Sciences Inc. ("TransThera") reported that the translational studies of tinengotinib in CCA with acquired resistance to FGFR inhibitors were published in Annals of Oncology (IF 56.7). Dr. Peng Peng, Vice President at TransThera, serves as the co-first author (Press release, TransThera Biosciences, JUN 27, 2025, View Source [SID1234654162]).

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CCA is an aggressive bile duct cancer often driven by FGFR2 fusion and rearrangement, which are targetable with inhibitors like pemigatinib and futibatinib. However, resistance frequently develops due to acquired FGFR2 mutations. In this paper, multimodal analyses led to a model characterizing the biology of acquired resistance, informing the rational design of next-generation FGFR inhibitors. Novel FGFR inhibitors should be small, high-affinity, and capable of binding to active form of FGFR. The article discloses for the first time the co-crystal structure of tinengotinib with the FGFR2 kinase domain of its unique binding mode, in addition to kinetic studies to illustrate its higher affinity compared to first-generation FGFR inhibitors, in vitro and in vivo activities against clinically acquired FGFR2 resistance mutations, as well as a case report to demonstrate its clinical efficacy. These data demonstrated that tinengotinib is a second-generation FGFR inhibitor meeting all the aforementioned criteria.

Dr. Lipika Goyal, the Director of Gastrointestinal Oncology at the Stanford Cancer Center, who is the principal investigator of the study and correspondence author of the paper, stated, "The study represents a comprehensive analysis of acquired resistance to FGFR inhibitors using circulating tumor DNA, biopsy, rapid autopsy, pharmacokinetic, and in vitro and in vivo data, It represents the largest collection of primary patient data on acquired FGFR resistance, with analysis of nearly 500 clinical samples. Research in rare cancers like CCA relies on the collective efforts of numerous teams working together, and we highly appreciated the translational studies of tinengotinib by TransThera, which validated the principles of developing next-generation FGFR inhibitors highlighted in this publication. We believe this study will be a substantial contribution to the field that will advance our understanding of acquired resistance to FGFR inhibitors."

"We are delighted that TransThera’s discovery be part of the fundamental research in the field of overcoming FGFR refractory. Currently tinengotnib is undergoing a pivotal phase 3 study globally and we hope to bring novel treatment option to CCA patients", commented by Dr. Peng from TransThera.

About Tinengotinib

Tinengotinib is an internally discovered, global phase III multi-kinase inhibitor that exerts antitumor effects by targeting FGFRs and VEGFRs, mitotic kinases Aurora A/B and Janus kinases (JAK). Ongoing clinical trials in the US and China have revealed the potential of tinengotinib to be efficacious in various solid tumors. It was granted the Orphan Drug Designation(ODD) and Fast Track Designation(FTD) by the FDA for the treatment of CCA, the Breakthrough Therapy Designation (BTD) by NMPA in China, the Orphan Drug Designation(ODD) for the treatment of biliary tract cancer by EMA.

On June 27, 2025 Mabwell (688062.SH), an innovative biopharmaceutical company with entire industry chain, reported its wholly-owned subsidiary T-mab has entered into an agreement with Qilu Pharmaceutical for Albipagrastim alfa for Injection (R&D code: 8MW0511). Under the terms of the agreement, Mabwell will grant Qilu Pharmaceutical exclusive rights to develop, manufacture, improve, utilize and commercialize the licensed product in the Greater China (including Chinese Mainland, Hong Kong, Macau and Taiwan) (Press release, Mabwell Biotech, JUN 27, 2025, View Source [SID1234654161]). T-mab can obtain a total of up to RMB 500 million of upfront payment and sales milestone payment, and the royalty of up to double-digit percentage of net sales of licensed product.

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Albipagrastim alfa for Injection is a recombinant (yeast-secreted) human serum albumin/human granulocyte-colony stimulating factor (I) fusion protein for Injection. It is indicated to decrease the incidence of infection, as manifested by febrile neutropenia, in adult patients with non-myeloid malignancies receiving myelosuppressive anti-cancer drugs associated with a clinically significant incidence of febrile neutropenia.

Albipagrastim alfa is a new generation of long-acting G-CSF (highly active modified cytokine) with intellectual property rights of Mabwell, which was developed with albumin fusion platform technology by fusing highly active recombinant G-CSF with human serum albumin (HSA). The modification increases the molecular weight, significantly inhibits the elimination pathway mediated by G-CSF receptor and prolongs the half-life of the drug in vivo, which improves the treatment adherence by reducing the frequency of administration in clinical practice. Compared to PEG-G-CSF, Albipagrastim alfa uses HSA as its natural carrier protein via a Pichia pastoris expression system. This approach offers a simpler production process and superior product homogeneity.

On June 27, 2025 Allarity Therapeutics, Inc. ("Allarity" or the "Company") (NASDAQ: ALLR), a Phase 2 clinical-stage pharmaceutical company dedicated to developing stenoparib—a differentiated, dual PARP and WNT pathway inhibitor reported that the second patient has been dosed in its new Phase 2 clinical trial protocol evaluating stenoparib in patients with advanced, recurrent, platinum-resistant or platinum-ineligible ovarian cancer (Press release, Allarity Therapeutics, JUN 27, 2025, View Source [SID1234654160]).

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Commenting on the development, Thomas Jensen, Chief Executive Officer of Allarity Therapeutics, stated:

"We are pleased to see the second patient enrolled so soon after the trial’s launch. This pace of enrollment suggests a strong level of engagement from our investigators, who appear highly attuned to the opportunity to explore stenoparib’s potential for patients with few or no remaining treatment options."

This new trial builds on earlier Phase 2 data demonstrating durable clinical benefit and favorable tolerability with twice-daily dosing of stenoparib. It focuses on the platinum resistant patient population for whom current treatment options are extremely limited. Stenoparib may represent a novel, targeted and better-tolerated treatment option for these patients who are typically offered only marginally effective, toxic chemotherapies.

In parallel, this trial will serve to advance Allarity’s proprietary Drug Response Predictor (DRP) companion diagnostic and further evaluate the WNT-modulating mechanism of action unique to stenoparib.

About Stenoparib
Stenoparib is an orally available, small-molecule dual-targeted inhibitor of PARP1/2 and tankyrase 1/2. At present, tankyrases are attracting significant attention as emerging therapeutic targets for cancer, principally due to their role in regulating the WNT signaling pathway. Aberrant WNT/β-catenin signaling has been implicated in the development and progression of numerous cancers. By inhibiting PARP and blocking WNT pathway activation, stenoparib’s unique therapeutic action shows potential as a promising therapeutic for many cancer types, including ovarian cancer. Allarity has secured exclusive global rights for the development and commercialization of stenoparib, which was originally developed by Eisai Co. Ltd. and was formerly known under the names E7449 and 2X-121.

About the Drug Response Predictor – DRP Companion Diagnostic
Allarity uses its drug-specific DRP to select those patients who, by the gene expression signature of their cancer, may have a high likelihood of benefiting from a specific drug. By screening patients before treatment, and only treating those patients with a sufficiently high, drug-specific DRP score, the therapeutic benefit rate may be enhanced. The DRP method builds on the comparison of sensitive vs. resistant human cancer cell lines, including transcriptomic information from cell lines, combined with clinical tumor biology filters and prior clinical trial outcomes. DRP is based on messenger RNA expression profiles from patient biopsies. The DRP platform has shown an ability to provide a statistically significant prediction of the clinical outcome from drug treatment in cancer patients across dozens of clinical studies (both retrospective and prospective). The DRP platform, which may be useful in all cancer types and is patented for dozens of anti-cancer drugs, has been extensively published in the peer-reviewed literature.