On January 9, 2026 Averna Therapeutics, Inc., a biotechnology company developing novel genomic medicines based on gene insertion technology, reported that Tom Barnes, Ph.D., Chief Executive Officer, will present at the 44th Annual J.P. Morgan Healthcare Conference on Thursday, January 15, 2026, at 10:00 AM PT in San Francisco.

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(Press release, Averna Therapeutics, JAN 9, 2026, View Source [SID1234661912])

On January 9, 2026 Biocytogen Pharmaceuticals (Beijing) Co., Ltd. (Biocytogen, SSE: 688796; HKEX: 02315) and Acepodia (6976:TT), reported that the companies have entered into an option and license agreement designed to enable the structured evaluation of bispecific antibody-drug conjugate (BsADC) programs to further advance the development of dual-payload bispecific antibody-drug conjugates (BsAD2Cs).

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The agreement grants Acepodia an option to obtain an exclusive worldwide license from Biocytogen for two BsADC programs. Under the terms of the agreement, Biocytogen is eligible to receive an upfront option fee and, upon Acepodia’s exercise of the option, additional payments including option exercise fees, development, regulatory, and commercial milestone payments, as well as royalties on future product sales. The financial terms of the agreement were not disclosed.

"This new agreement builds upon our recent co-development collaboration with Acepodia, which has focused on the evaluation and selection of leading bispecific antibody and dual-payload ADC candidates," said Dr. Yuelei Shen, President and CEO of Biocytogen. "Based on the preclinical research conducted to date, we believe that the combination of Biocytogen’s RenLite platform with Acepodia’s Antibody-Dual-Drugs Conjugation (AD2C) technology offers a compelling approach for the development of next-generation dual-payload bispecific ADCs."

"This option-based framework allows us to systematically assess how dual-payload conjugation strategies can be applied to bispecific antibody formats," said Sonny Hsiao, Ph.D., Chairman and CEO of Acepodia. "This collaboration reflects our focus on disciplined, data-driven AD2C platform expansion."

The expanded partnership is intended to leverage complementary platform strengths to advance next-generation ADC designs with the potential to improve upon certain limitations observed in conventional ADC programs. The joint team is progressing towards candidate evaluation milestones, with advancement decisions informed by ongoing research results and Acepodia’s internal governance and option exercise criteria.

(Press release, Biocytogen, JAN 9, 2026, View Source [SID1234661911])

On January 9, 2026 The University of Pennsylvania ("Penn"), BioNTech SE ("BioNTech"), and OUP (Osage University Partners) reported the launch of the $50 million Penn-BioNTech Innovative Therapeutics Seed Fund ("PxB Fund"), a dedicated venture capital fund focused on early-stage life science companies originating from Penn. The joint effort will provide additional fuel to advance Penn discoveries into products that benefit patients across the world, following a decade in which the university’s research teams have spawned 45 FDA approvals for transformative vaccines and novel medical treatments such as CAR T cell therapy, and garnered a Nobel Prize and four Breakthrough Prizes for Life Sciences.

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The PxB Fund will provide capital to Penn-founded companies developing novel therapeutics, diagnostics, and research tools, including AI-enabled drug discovery platforms to address serious medical conditions. It is designed to help Penn investigators accelerate the translation of high-potential science from their labs to patients by providing early-stage capital to promising Penn startups. The fund will be managed by OUP, a Philadelphia-based venture capital firm with over $800 million under management that has invested in more than 150 startups commercializing university research, including more than 10 Penn startups.

"Penn has a remarkable track record of creating cutting-edge startups, with recent success stories including Capstan Therapeutics, which has been acquired by AbbVie, and Interius BioTherapeutics, acquired by Kite," said Marc Singer, Managing Partner of OUP. "We have been a partner of Penn and have worked closely with the Penn Center for Innovation (PCI) over many years to promote the Penn entrepreneurial ecosystem. Through the PxB Fund, and with access to BioNTech’s insights, we intend to invest in the next generation of Penn innovations to translate breakthrough science into medicines that can improve patients’ lives."

As part of the launch, Anna Turetsky, PhD has been appointed as General Partner. Dr. Turetsky is an experienced biotech investor and Penn alumnus who has spent her decade-long career backing and advising early-stage therapeutics companies. After earning her PhD in Biophysics at Harvard University, she began her venture career at Lightstone Ventures, where she invested in and helped build multiple successful life science startups. She then launched and led the venture arm of an oncology-focused non-profit, the Mark Foundation, where her investments included work with Penn on Interius BioTherapeutics.

Penn is a global leader in translating academic research into commercial impact, with hundreds of startups formed around Penn intellectual property and a large and growing list of FDA-approved therapies tied to inventions made by its scientists and physicians, including Nobel Prize winning mRNA technology used in some COVID-19 vaccines. The PxB Fund is a strong complement to Penn’s existing commercialization, incubation, and co-investment programs, providing a focused capital pool to lead financing transactions at the earliest stages of company formation.

"Penn’s mission is not only to perform groundbreaking research and generate and disseminate new knowledge, but to ensure that the fruits of those efforts are translated into real-world solutions," said John S. Swartley, PhD, MBA, Chief Innovation Officer of the University of Pennsylvania. "This new fund is reflective of the deep trust and shared vision we have with BioNTech and OUP. It will allow us to move faster and more intentionally to support our faculty and other members of our research community as they build high-impact life science companies here in Philadelphia and beyond. We see this as a major step forward for Penn’s innovation ecosystem and a real boon for patients."

BioNTech, a pioneer in mRNA-based medicines and next-generation immunotherapies, has longstanding scientific and translational ties to Penn. Through the PxB Fund, BioNTech aims to deepen its collaboration with Penn and increase its visibility into emerging therapeutic approaches at the university across a breadth of technologies and modalities.

"BioNTech has a longstanding R&D collaboration with Penn. Groundbreaking work, including in mRNA and immunotherapy, is aligned with our commitment to developing innovative therapeutics for patients with high unmet medical needs," said James Ryan, Ph.D., Chief Business Officer and Chief Legal Officer, BioNTech SE. "By partnering with Penn and OUP on this fund, we will have the opportunity to support the next wave of scientific breakthroughs coming out of the university."

About the PxB Fund

The PxB Fund (Penn BioNTech Innovative Therapeutics Seed Fund) is a $50 million venture capital fund formed by the University of Pennsylvania, BioNTech, and OUP to invest in early-stage life science companies based on Penn intellectual property and/or founded by Penn researchers. The fund focuses on seed and Series A investments in therapeutics, platforms, diagnostics, and research tools emerging from Penn’s faculty and researcher community.

(Press release, BioNTech, JAN 9, 2026, View Source [SID1234661910])

On January 9, 2026 Partner Therapeutics, Inc. (PTx), a private, fully integrated biotechnology company, reported new data from a post hoc analysis of the eNRGy trial (NCT02912949), evaluating zenocutuzumab in patients with advanced neuregulin 1 fusion-positive (NRG1+) pancreatic adenocarcinoma (PDAC) and cholangiocarcinoma (CCA) who continued therapy beyond progression. Results were presented in a poster session at the 2026 ASCO (Free ASCO Whitepaper) Gastrointestinal Cancers Symposium in San Francisco, California.

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"These findings highlight an important therapeutic opportunity for patients with NRG1 fusion-positive pancreatic and biliary cancers, which are often difficult to treat," said Alison M. Schram, MD, Memorial Sloan Kettering and lead author of the presentation. "In this analysis, zenocutuzumab provided ongoing benefit after radiographic progression, including multi-year disease control in some patients."

The new analysis examined efficacy and safety of zenocutuzumab in 17 patients with NRG1+ gastrointestinal tumors (12 PDAC, 5 CCA) who received at least three doses of therapy after experiencing progressive disease, including oligoprogressive, mixed, or otherwise indolent progression patterns. Across the subset zenocutuzumab showed an overall response rate (ORR) of 35%, with one complete response, five partial responses, and eight patients achieving stable disease; the clinical benefit rate, defined as complete/partial response or stable disease for at least 24 weeks, was 65%. Treatment was generally well tolerated, and no patients discontinued therapy due to adverse events.

"The durability of benefit with zenocutuzumab is not typically seen in these diseases and it speaks directly to the biological relevance of HER3 inhibition in NRG1-driven tumors," said Pritesh J. Gandhi, Chief Development Officer, Partner Therapeutics. "Importantly, zenocutuzumab was able to maintain disease control even after patients met the conventional definition of progression—sometimes for years— without introducing new safety concerns."

The data illustrate that several patients remained on zenocutuzumab well beyond progression, including multiple patients who continued treatment for more than one- or two-years post-progression. Median total therapy duration was 11 months with a median of two months on therapy after progression, and an upper range exceeding 35 months.

"Well-tolerated, targeted therapies improve outcomes for patients. PanCAN strongly recommends biomarker testing to guide treatment options," said Anna Berkenblit, MD, Chief Scientific and Medical Officer, PanCAN. "For NRG1 fusion-driven pancreatic cancer, zenocutuzumab is an important step closer to a world in which all patients with pancreatic cancer will thrive."

In December 2024, zenocutuzumab-zbco (BIZENGRI) received U.S. Food and Drug Administration 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 indications were approved under accelerated approval based on ORR 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.

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%).

(Press release, Partner Therapeutics, JAN 9, 2026, View Source [SID1234661909])

On January 9, 2026 Pierre Fabre Laboratories and Iktos, a global leader in Artificial Intelligence (AI) and Robotics on drug discovery, reported an integrated drug discovery collaboration to identify and develop novel small-molecule drug candidates in oncology. This initiative reflects both companies’ commitment to advancing oncology research by integrating complementary strengths across computational design, medicinal chemistry, biology, medical science and preclinical development.

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Under the terms of the agreement, Iktos will leverage its AI-driven generative design platform to accelerate the discovery of optimized small-molecule candidates against an undisclosed oncology target. Pierre Fabre Laboratories will contribute its extensive knowledge in oncology research and preclinical development to guide the selection, evaluation, and progression of candidate molecules.

Financial terms of the agreement are not disclosed but include an upfront and several milestone payments.

"This collaboration with Iktos marks an important milestone in our journey to build an AI-powered R&D engine at Pierre Fabre Laboratories" said Audrey Kauffmann, Head of Data Science and Biometry at Pierre Fabre Medical Care R&D. "By integrating Iktos’ generative AI and automated chemistry technologies into our research platforms, we are taking a step toward realizing our data and AI strategy. This cooperation exemplifies our ambition to leverage cutting-edge innovation to improve the quality and probability of success in drug discovery, while accelerating the delivery of meaningful advances for patients in oncology."

"We are delighted to start a drug discovery collaboration with Iktos", said Olivier Geneste, Head of Drug Discovery at Pierre Fabre Medical Care R&D. "Thanks to its well-established expertise in generative AI coupled to automated chemistry, we strongly believe that Iktos will help us in accelerating and derisking the discovery of innovative therapeutics targeting a highly valuable oncology target to serve unmet cancer patients’ needs."

"We are delighted to initiate this collaboration with Pierre Fabre Laboratories, a company with a distinguished track record in oncology," said Yann Gaston-Mathé, Co-founder and CEO of Iktos. "This collaboration exemplifies the powerful complementarity between Iktos’ generative AI and automated chemistry technologies and Pierre Fabre’s deep scientific and clinical development expertise. Together, we intend to create the optimal framework to rapidly and efficiently progress innovative small-molecule candidates in oncology, with the aim of bringing meaningful therapeutic advances to patients worldwide."

About the Pierre Fabre Laboratories R&D pipeline:

Pierre Fabre Laboratories has expanded its efforts in precision oncology by adding several assets to its R&D pipeline. PFL-241 and PFL-721, two mutant-selective EGFR inhibitors, are being developed for the treatment of EGFR-driven non-small cell lung cancer (NSCLC) patients. PFL-002 is undergoing clinical testing in solid tumors driven by MET genetic alterations. The pan-RAF inhibitor exarafenib is being developed to expand targeted therapy options for RAS/RAF-driven solid tumors. Moreover, pre-clinical candidates for various oncology targets are sought to be identified in collaboration with Vernalis Ltd. Furthermore, a collaboration with RedRidge Bio is underway to identify and develop biparatopic antibodies for multiple targets in precision oncology, dermatology, and rare diseases. These new additions to the discovery and clinical development portfolio complement Pierre Fabre Laboratories’ existing precision oncology portfolio targeting BRAF, MEK, HER2, as well as EBV-driven post-transplant lymphoproliferative disorder.

(Press release, Pierre Fabre, JAN 9, 2026, View Source [SID1234661908])