On October 23, 2025 Verismo Therapeutics, a clinical-stage CAR T company developing a novel KIR-CAR platform technology, reported its participation and sponsorship of the International Mesothelioma Interest Group (iMig) 2025 Conference. The company will highlight STAR-101, an ongoing Phase 1 clinical trial of Verismo’s lead pipeline SynKIR-110 in patients with advanced mesothelin-expressing cancers, including mesothelioma.

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Mesothelioma is a rare, aggressive cancer, with more than 2,500 people diagnosed annually in the United States and 30,000 globally1. Despite recent therapeutic advances, prognosis remains poor and most patients face limited options for long-term treatment. SynKIR-110 targets mesothelin, a protein highly expressed on mesothelioma cells and a validated target for innovative immunotherapies, enabling it to recognize and attack the cancer cells. SynKIR-110 was granted Orphan Drug and Fast Track Designations by the Food and Drug Administration for treatment of mesothelioma in 2022 and 2023, respectively.

"Mesothelioma is one of the most difficult cancers to treat, and it has historically been underserved in terms of new treatment development," said Daniel Sterman, M.D., Thomas and Suzanne Murphy Professor of Pulmonary and Critical Care Medicine at the NYU Grossman School of Medicine, Director of Division of Pulmonary Medicine at the NYU Langone Medical Center and an organizer of iMig 2025. "By sponsoring iMig and presenting the STAR-101 trial design, Verismo is demonstrating its commitment to advancing the science, addressing the unmet medical need, and supporting the global mesothelioma community." Dr. Sterman serves as the Medical Monitor for Verismo’s STAR-101 clinical study.

STAR-101 (NCT05568680) is a multicenter, open-label, Phase 1 study designed to evaluate the safety, feasibility, and preliminary efficacy of SynKIR-110 in patients with advanced mesothelin-expressing tumors. The trial is the first to bring Verismo’s multi-chain KIR-CAR platform into the clinic for solid tumors.

Verismo’s sponsorship of iMig 2025 underscores its dedication not only to scientific innovation but also to supporting patients, clinicians, and advocates working to advance care in mesothelioma worldwide.

Presentation Details:

Title: SynKIR-CAR T Cell Advanced Research (STAR)-101 Phase 1 Clinical Trial for Patients with Advanced Mesothelin-expressing Mesothelioma, Ovarian Cancer, or Cholangiocarcinoma
Session: Novel Combinations and Applications of Immunotherapy; Salon E
Date/Time: Monday, October 27, 2025, 2:30 – 2:45 PM
Presenter: Jun Xu, Ph.D., Executive Director of Translational Science, Verismo Therapeutics

(Press release, Verismo Therapeutics, OCT 23, 2025, View Source [SID1234656965])

On October 23, 2025 Halia Therapeutics, Inc., a clinical-stage biopharmaceutical company pioneering therapies that target the root causes of inflammation-driven diseases, reported that the U.S. Food and Drug Administration (FDA) has granted Orphan Drug Designation (ODD) to its investigational medicine ofirnoflast (HT-6184) for the treatment of Myelodysplastic Syndromes (MDS) — a group of bone marrow disorders characterized by ineffective blood cell production and a risk of progression to acute myeloid leukemia (AML).

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The FDA grants Orphan Drug Designation to therapies intended for the treatment, prevention, or diagnosis of rare diseases or conditions that affect fewer than 200,000 people in the United States at the time of designation.

"This designation underscores the potential of our approach in Myelodysplastic Syndromes and supports our commitment to developing new treatment options for patients living with MDS," said David Bearss, PhD, Chief Executive Officer of Halia Therapeutics. "Ofirnoflast represents a first-in-class approach to modulating inflammasome biology, an upstream driver of inflammation, with the goal of restoring healthy bone marrow function."

Ofirnoflast is a selective NEK7 allosteric modulator designed to prevent the formation and promote the disassembly of the NLRP3 inflammasome, a central driver of chronic inflammation in multiple diseases. In MDS, inflammasome activation is increasingly recognized as a key contributor to ineffective hematopoiesis and bone marrow failure. By modulating NEK7, ofirnoflast aims to restore immune balance and improve blood-cell production without broad immunosuppression.

"Inflammasome biology represents a promising frontier for hematologic innovation," said Alan F. List, MD, member of Halia Therapeutics’ Scientific Advisory Board and former President and CEO of Moffitt Cancer Center. "Ofirnoflast’s approach is distinctive in that it seeks to modulate the underlying inflammatory drivers of MDS rather than just its downstream effects. This strategy has the potential to redefine how inflammation-linked bone marrow failure is treated."

Under the FDA’s Orphan Drug Act, orphan-drug status provides several incentives, including tax credits for qualified clinical testing, exemption from FDA user fees, and potential for seven years of U.S. market exclusivity upon approval. The FDA also administers grant programs to support clinical research and advance the development of therapies for rare diseases.

About Myelodysplastic Syndromes (MDS)

Myelodysplastic Syndromes are a group of bone marrow disorders characterized by defective blood-cell formation, leading to anemia, infection risk, and bleeding complications. MDS primarily affects older adults and can progress to acute myeloid leukemia (AML). Current therapies, including hypomethylating agents and growth factors, often provide limited benefit and do not address the underlying inflammatory biology of the disease.

About Ofirnoflast (HT-6184)

Ofirnoflast (HT-6184) is Halia Therapeutics’ lead investigational compound and a first-in-class NEK7 modulator that regulates activation of the NLRP3 inflammasome — an upstream molecular complex involved in chronic inflammation. The drug is currently being evaluated across multiple disease areas, including:

Myelodysplastic Syndromes (MDS) – completed Phase 2 study evaluating safety and hematologic outcomes
Obesity (in combination with semaglutide) – ongoing Phase 2 study targeting adipose inflammation and metabolic dysregulation
Alzheimer’s Disease – early-stage program focused on genetically at-risk populations

(Press release, Halia Therapeutics, OCT 23, 2025, View Source [SID1234656964])

On October 23, 2025 Partner Therapeutics, Inc. (PTx), a private, fully-integrated biotechnology company, reported that the U.S. Food and Drug Administration (FDA) has granted Breakthrough Therapy designation (BTD) to zenocutuzumab-zbco for the treatment of adults with advanced unresectable or metastatic cholangiocarcinoma harboring a neuregulin 1 (NRG1) gene fusion. The designation was supported by results from the ongoing investigational Phase 2 eNRGy trial. These findings will be presented as both an oral and poster presentation at the AACR (Free AACR Whitepaper)-NCI-EORTC AACR-NCI-EORTC (Free AACR-NCI-EORTC Whitepaper) International Conference on Molecular Targets and Cancer Therapeutics (EORTC-NCI-AACR) (Free ASGCT Whitepaper) (Free EORTC-NCI-AACR Whitepaper) in Boston, MA and will serve as the basis for a supplemental Biologics License Application (sBLA) that will be submitted to FDA in 2026.

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BTD is granted by the FDA to expedite the development and review of therapies that may demonstrate substantial improvement over existing treatments for serious or life-threatening conditions. The designation conveys all of the fast track program features, more intensive FDA guidance on an efficient drug development program, an organizational commitment, and eligibility for rolling review and priority review. For adult patients with advanced unresectable or metastatic NRG1+ cholangiocarcinoma, a rare and aggressive cancer with limited treatment options, this designation underscores the urgent need for effective therapies and recognizes the potential of zenocutuzumab-zbco to help address this significant unmet medical need.

The designation was supported by new interim data presented at the AACR (Free AACR Whitepaper)-NCI-EORTC AACR-NCI-EORTC (Free AACR-NCI-EORTC Whitepaper) International Conference on Molecular Targets and Cancer Therapeutics (EORTC-NCI-AACR) (Free ASGCT Whitepaper) (Free EORTC-NCI-AACR Whitepaper) meeting which evaluated zenocutuzumab-zbco in patients with advanced NRG1+ cholangiocarcinoma in the eNRGy trial. In 19 evaluable patients, the results demonstrated an investigator-assessed overall response rate of 37%, a median duration of response of 7.4 months, and a median time to response of 1.9 months. Progression-free survival was 9.2 months and clinical benefit rate, defined as partial/complete response or stable disease for ≥24 weeks, was 58%. Among patients with evaluable CA 19-9 data, all experienced a decline in serum levels, including a >50% reduction in 69% of patients. The safety profile was consistent with the overall eNRGy trial population, with most adverse events grade 1 or 2. Five patients (23%) experienced serious adverse events, none considered treatment related, and no patients discontinued therapy due to treatment-related toxicity.

Dr. Alison M. Schram, Principal Investigator of the eNRGy trial and medical oncologist from Memorial Sloan Kettering Cancer Center, commented: "NRG1 fusions represent a rare but actionable driver in cholangiocarcinoma, and the data from the eNRGy trial continue to highlight the potential of zenocutuzumab to offer meaningful clinical benefit for these patients. I’m honored to present these findings at AACR (Free AACR Whitepaper)-NCI-EORTC, where we can advance the dialogue around targeted therapies in hard-to-treat cancers."

"Patients with cholangiocarcinoma face an aggressive disease with limited standard therapy options," said Juan W. Valle, MD, Chief Medical Officer of the Cholangiocarcinoma Foundation. "The eNRGy trial results are encouraging, and they underscore how critical comprehensive molecular testing, notably tissue-based RNA NGS, is to ensure that patients with rare drivers such as NRG1 fusions are identified and can potentially have access to targeted treatments."

"In December 2024, zenocutuzumab-zbco (tradename BIZENGRI) received accelerated approval for the treatment of adults with advanced unresectable or metastatic non-small cell lung cancer (NSCLC) and pancreatic adenocarcinoma harboring a neuregulin 1 (NRG1) gene fusion with disease progression on or after prior systemic therapy. The new data from the eNRGy trial highlight the potential of zenocutuzumab-zbco as a promising treatment option for patients with NRG1 fusion–positive cholangiocarcinoma," said Pritesh J. Gandhi, PharmD, Chief Development Officer of Partner Therapeutics. "With the growing number of genomic alternations and gene fusions that are now actionable, it is imperative that oncologists order upfront tissue-based RNA next generation sequencing to ensure that gene fusions, of which NRG1 is just one, are not missed."

A copy of the poster and presentation will be available on the Partner Therapeutics website under the research tab following the conference. Additional meeting information can be found on the AACR (Free AACR Whitepaper)-NCI-EORTC website.

These indications are approved under accelerated approval based on overall response rate and duration of response. Continued approval for these indications may be contingent upon verification and description of clinical benefit in a confirmatory trial(s).

For more information on the eNRGy trial and zenocutuzumab-zbco, please visit www.partnertx.com.

Dr. Schram has financial interests related to Partner Therapeutics.

About NRG1 Gene Fusions

NRG1 fusions are unique cancer drivers that create oncogenic chimeric ligands rather than the more widely described chimeric receptors (NTRK, RET, ROS1, ALK, and FGFR fusions). The chimeric ligands bind to HER3, triggering HER2/HER3 heterodimerization and activate downstream signaling pathways that cause cancer cells to grow and proliferate. Zenocutuzumab-zbco is a bispecific antibody that blocks HER2/HER3 dimerization and NRG1 fusion interactions with HER3, resulting in the suppression of these pathways. Comprehensive molecular testing, notably tissue-based RNA next generation sequencing, is essential to identify rare and actionable gene fusions like NRG1.

About BIZENGRI (zenocutuzumab-zbco)

INDICATIONS

BIZENGRI is indicated for the treatment of adults with advanced unresectable or metastatic non-small cell lung cancer (NSCLC) harboring a neuregulin 1 (NRG1) gene fusion with disease progression on or after prior systemic therapy.

BIZENGRI is indicated for the treatment of adults with advanced unresectable or metastatic pancreatic adenocarcinoma harboring a neuregulin 1 (NRG1) gene fusion with disease progression on or after prior systemic therapy.

These indications are approved under accelerated approval based on overall response rate and duration of response. Continued approval for these indications may be contingent upon verification and description of clinical benefit in a confirmatory trial(s).

Important Safety Information

BOXED WARNING: EMBRYO-FETAL TOXICITY

Embryo-Fetal Toxicity: Exposure to BIZENGRI during pregnancy can cause embryo-fetal harm. Advise patients of this risk and the need for effective contraception.

WARNINGS AND PRECUATIONS

Infusion-Related Reactions/Hypersensitivity/Anaphylactic Reactions

BIZENGRI can cause serious and life-threatening infusion-related reactions (IRRs), hypersensitivity and anaphylactic reactions. Signs and symptoms of IRR may include chills, nausea, fever, and cough.

In the eNRGy study, 13% of patients experienced IRRs, all were Grade 1 or 2; 91% occurred during the first infusion.

Administer BIZENGRI in a setting with emergency resuscitation equipment and staff who are trained to monitor for IRRs and to administer emergency medications. Monitor patients closely for signs and symptoms of infusion reactions during infusion and for at least 1 hour following completion of first BIZENGRI infusion and as clinically indicated. Interrupt BIZENGRI infusion in patients with ≤ Grade 3 IRRs and administer symptomatic treatment as needed. Resume infusion at a reduced rate after resolution of symptoms. Immediately stop the infusion and permanently discontinue BIZENGRI for Grade 4 or life-threatening IRR or hypersensitivity/anaphylaxis reactions.

Interstitial Lung Disease/Pneumonitis

BIZENGRI can cause serious and life-threatening interstitial lung disease (ILD)/pneumonitis.

In the eNRGy study, ILD/pneumonitis occurred in 2 (1.1%) patients treated with BIZENGRI. Grade 2 ILD/pneumonitis (Grade 2) resulting in permanent discontinuation of BIZENGRI occurred in 1 (0.6%) patient. Monitor for new or worsening pulmonary symptoms indicative of ILD/pneumonitis (e.g., dyspnea, cough, fever). Immediately withhold BIZENGRI in patients with suspected ILD/pneumonitis and administer corticosteroids as clinically indicated.

Permanently discontinue BIZENGRI if ILD/pneumonitis ≥ Grade 2 is confirmed.

Left Ventricular Dysfunction

BIZENGRI can cause left ventricular dysfunction.

Left ventricular ejection fraction (LVEF) decrease has been observed with anti-HER2 therapies, including BIZENGRI. Treatment with BIZENGRI has not been studied in patients with a history of clinically significant cardiac disease or LVEF less than 50% prior to initiation of treatment.

In the eNRGy study, Grade 2 LVEF decrease (40%-50%; 10 – 19% drop from baseline) occurred in 2% of evaluable patients. Cardiac failure without LVEF decrease occurred in 1.7% of patients, including 1 (0.6%) fatal event.

Before initiating BIZENGRI, evaluate LVEF and monitor at regular intervals during treatment as clinically indicated. For LVEF of less than 45% or less than 50% with absolute decrease from baseline of 10% or greater which is confirmed, or in patients with symptomatic congestive heart failure (CHF), permanently discontinue BIZENGRI.

Embryo-Fetal Toxicity

Based on its mechanism of action, BIZENGRI can cause fetal harm when administered to a pregnant woman. No animal reproduction studies were conducted with BIZENGRI. In post marketing reports, use of a HER2-directed antibody during pregnancy resulted in cases of oligohydramnios manifesting as fatal pulmonary hypoplasia, skeletal abnormalities, and neonatal death. In animal models, studies have demonstrated that inhibition of HER2 and/or HER3 results in impaired embryo-fetal development, including effects on cardiac, vascular and neuronal development, and embryolethality. Advise patients of the potential risk to a fetus. Verify the pregnancy status of females of reproductive potential prior to the initiation of BIZENGRI. Advise females of reproductive potential to use effective contraception during treatment with BIZENGRI and for 2 months after the last dose.

ADVERSE REACTIONS

NRG1 Gene Fusion Positive Unresectable or Metastatic NSCLC

Serious adverse reactions occurred in 25% of patients with NRG1 gene fusion positive NSCLC who received BIZENGRI. Serious adverse reactions in ≥ 2% of patients included pneumonia (n=4) dyspnea and fatigue (n=2 each). Fatal adverse reactions occurred in 3 (3%) patients and included respiratory failure (n=2), and cardiac failure (n=1). Permanent discontinuation of BIZENGRI due to an adverse reaction occurred in 3% of patients. Adverse reactions resulting in permanent discontinuation of BIZENGRI included dyspnea, pneumonitis and sepsis (n=1 each).

In patients with NRG1 gene fusion positive NSCLC who received BIZENGRI, the most common (>20%) adverse reactions, including laboratory abnormalities, were decreased hemoglobin (35%), increased alanine aminotransferase (30%), decreased magnesium (28%), increased alkaline phosphatase (27), decreased phosphate (26%), diarrhea (25%), musculoskeletal pain (23%), increased gamma-glutamyl transpeptidase (23%), increased aspartate aminotransferase (22%), and decreased potassium (21%).

NRG1 Gene Fusion Positive Unresectable or Metastatic Pancreatic Adenocarcinoma

Serious adverse reactions occurred in 23% of patients with NRG1 gene fusion positive pancreatic adenocarcinoma who received BIZENGRI.

There were 2 fatal adverse reactions, one due to COVID-19 and one due to respiratory failure.

In patients with NRG1 gene fusion positive pancreatic adenocarcinoma who received BIZENGRI the most common (≥20%) adverse reactions, including laboratory abnormalities, were increased alanine aminotransferase (51%), diarrhea (36%), increased aspartate aminotransferase (31%), increased bilirubin (31%), decreased phosphate (31%), increased alkaline phosphatase (28%), decreased sodium (28%), musculoskeletal pain (28%), decreased albumin (26%), decreased potassium (26%), decreased platelets (26%), decreased magnesium (24%), increased gamma-glutamyl transpeptidase (23%), decreased hemoglobin (23%), vomiting (23%), nausea (23%), decreased leukocytes (21%), and fatigue (21%).

Please see full Prescribing Information, including Boxed Warning

(Press release, Partner Therapeutics, OCT 23, 2025, View Source [SID1234656963])

On October 23, 2025 Jacobio Pharma (1167.HK) reported that it presented the pre-clinical data of its internally discovered pan-KRAS inhibitor JAB-23E73 in a poster presentation at the 2025 AACR (Free AACR Whitepaper)-NCI-EORTC AACR-NCI-EORTC (Free AACR-NCI-EORTC Whitepaper) International Conference on Molecular Targets and Cancer Therapeutics (EORTC-NCI-AACR) (Free ASGCT Whitepaper) (Free EORTC-NCI-AACR Whitepaper).

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The pre-clinical results demonstrated that JAB-23E73 is a highly potent pan-KRAS (ON/OFF) inhibitor with strong selectivity that spares HRAS and NRAS inhibition. The compound exhibits superior antitumor activity across multiple cancer types harboring different KRAS driver mutations or amplification.

In KRAS-driven mouse tumor models, JAB-23E73 induced tumor regression without causing significant body weight loss, indicating good tolerability and a wide therapeutic window. The compound also showed a favorable pharmacokinetic profile for oral administration and exhibited plasma drug concentration-dependent intratumoral p-ERK inhibition.

Phase I clinical trials of JAB-23E73 are currently ongoing in both China and the United States for patients with advanced solid tumors harboring KRAS gene alterations.

(Press release, Jacobio Pharmaceuticals, OCT 23, 2025, View Source [SID1234656962])

On October 23, 2025 HanchorBio Inc. (TPEx: 7827), a global clinical-stage biotechnology company developing next-generation immunotherapies, reported that its manuscript describing the discovery and preclinical development of HCB101, an engineered SIRPα-Fc fusion protein, has been published in the Journal of Hematology & Oncology (SCI Impact Factor 40.4; for reference, leading journals in the field of immuno-oncology include Journal of Clinical Oncology (impact factor 41.9), The Lancet Oncology (35.9), and Nature Cancer (28.5)).

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The publication, titled "HCB101: A Novel Potent Ligand-Trap Fc-fusion Protein Targeting the CD47-SIRPα Pathway with High Safety and Preclinical Efficacy for Hematological and Solid Tumors," describes the rational protein engineering that enabled HCB101 to restore macrophage-mediated phagocytosis and bridge innate and adaptive immune responses while reducing red blood cell binding. In preclinical studies, HCB101 showed broad activity across more than 80 xenograft and PDX tumor animal models with a safety profile that differs from first- and second-generation CD47-targeting agents.

Notably, a US competitor focusing on CD47/SIRPα published findings in JHO in November 2020, reporting on a third-generation anti-CD47–SIRPα therapy. This underscores the journal’s strong recognition within the field. The continued publication of anti-CD47 biologics in JHO highlights both the scientific importance of ongoing advancements and the journal’s role as a leading international platform for preclinical and translational research on anti-CD47 therapies.

"Publication in the Journal of Hematology & Oncology affirms the scientific rigor and innovation behind HCB101 and emphasizes its differentiated preclinical foundation," said Scott Liu, PhD, Chairman, CEO, and Founder of HanchorBio. "Importantly, these insights are being directly translated into clinical studies: combined with standard-of-care, HCB101 has demonstrated a clear dose-dependent efficacy profile in 2L gastric cancer, culminating in a nearly 90% partial response rate at 5.12 and 8.0 mg/kg. In parallel, we have now escalated monotherapy dosing to 30 mg/kg without safety concerns. These milestones highlight HCB101’s potential to serve as a backbone immunotherapy across solid tumors and hematologic malignancies and lay the groundwork for expanding into autoimmune indications where CD47-SIRPα biology is also potentially useful in creating a new B-cell depletion therapy."

Clinical Progress Strengthens Differentiated Best-in-Class Profile
HCB101 is currently being evaluated in multinational Phase 1 and Phase 1b/2a trials:

Monotherapy (HCB101-101, NCT05892718):
The Safety Review Committee (SRC) has reviewed the safety data up to 30 mg/kg weekly and found no dose-limiting toxicities, confirming a wide therapeutic window. Early signs of efficacy included two confirmed partial responses (PRs) in head and neck squamous cell carcinoma and marginal zone lymphoma, along with stable disease (SD) in nine patients, including over 40 weeks of disease control in platinum-resistant ovarian cancer.
Combination (HCB101-201, NCT06771622):
In the triplet regimen for 2L-gastric cancer (HCB101 + ramucirumab + paclitaxel), emerging activity was first observed at 2.56 mg/kg, where evaluable patients achieved SD with modest tumor shrinkage, averaging a 6% reduction in tumor size in the dose cohort. At 5.12 mg/kg, all three evaluable patients achieved confirmed PRs (33%–46% tumor reductions). At 8.0 mg/kg, all three evaluable patients have now achieved confirmed PRs (tumor shrinkage up to -78%) after extended follow-up. Together, these results represent a nearly 90% confirmed response rate (6 of 7 patients) at ≥ 5.12 mg/kg dose level — a striking outcome in a setting where the typical overall response rate (ORR) for the SOC is only 26.5%.
"The data now published in JHO validate the design strategy that made HCB101 possible – balancing high efficacy with a clean safety margin where earlier CD47-targeting agents failed," added Wenwu Zhai, PhD, Chief Scientific Officer of HanchorBio. "Seeing those preclinical insights translate into durable monotherapy activity and remarkable combination dose-dependent responses in gastric cancer provides confidence not only for oncology but also for new areas such as autoimmunity. HCB101’s differentiated mechanism and safety profile open the door to rational combinations and next-generation applications well beyond cancer."

About HCB101: A Differentiated CD47-SIPRα Blockade
HCB101 is a 3.5th-generation, affinity-optimized SIRPα-Fc fusion protein with intact IgG4 effector function, developed using HanchorBio’s proprietary FBDB platform. Engineered for selective CD47 blinding on tumors with low affinity for red blood cells, HCB101 avoids the hematologic toxicities commonly associated with anti-CD47 monoclonal antibodies, while preserving strong antibody-dependent cellular phagocytosis (ADCP) and innate-to-adaptive immune bridging.

Key Differentiators of HCB101:

Enhanced safety: Low RBC binding minimizes anemia and thrombocytopenia risk.
Robust immune activation: Engineered to enhance ADCP and innate-to-adaptive bridging.
Broad tumor applicability: Demonstrated activity in >80 PDX/CDX preclinical models.
Clinical translation: Early efficacy as monotherapy with durable disease control, and 100% ORR and disease control rate (DCR) at the middle dose cohort in combination with standard-of-care for 2L-gastric cancer.

(Press release, Hanchor Bio, OCT 23, 2025, View Source;oncology-302592241.html [SID1234656961])