CytoDyn to Present at the AACR Annual Meeting 2026

On April 14, 2026 CytoDyn Inc. (OTCQB: CYDY) ("CytoDyn" or the "Company"), a clinical-stage oncology company advancing leronlimab, a first-in-class humanized monoclonal antibody targeting the CCR5 receptor with therapeutic potential across multiple indications, including metastatic triple-negative breast cancer ("mTNBC") and colorectal cancer ("mCRC"), reported that it will be presenting two posters at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2026, taking place April 17–22, 2026, in San Diego, California.

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Details of the poster presentations are as follows:

Abstract title:
Leronlimab induces PD-L1 expression and is associated with long term survival with an ICI in PD-L1 low metastatic TNBC
Presenter: Richard Pestell, M.D., Ph.D., FRCP AO, Lead Consultant in Preclinical and Clinical Oncology at CytoDyn
Date and Time: April 19, 2026, from 2:00 p.m. – 5:00 p.m. PST.
Poster ID: 1033
Location:
Section 41, Board 1


Abstract title:
Preliminary results of a phase 2 study of leronlimab in combination with TAS-102 and bevacizumab in previously treated metastatic colorectal cancer
Presenter: Pashtoon M. Kasi, M.D., M.S., Medical Director at City of Hope
Date and Time: April 21, 2026, from 2:00 p.m. – 5:00 p.m. PST.
Poster ID: 6466
Location:
Section 41, Board 14

"We are encouraged by the continued progress being made as we advance leronlimab and explore its potential applications across solid tumors," said Jacob Lalezari, M.D., CEO of CytoDyn. "The research being presented at AACR (Free AACR Whitepaper) reflects the growing body of scientific work examining CCR5 biology and its role in the tumor microenvironment. Together, these studies help deepen our understanding of how leronlimab may enhance immune responses and inform our broader strategy to develop new treatment approaches for patients with difficult-to-treat cancers."

A copy of the presentations will be made available on CytoDyn’s website under the Publications & Posters section after it is presented at the symposium.

(Press release, CytoDyn, APR 14, 2026, View Source [SID1234664352])

Cellectar Enrolls First Patient in CLR 125 Auger-Emitting Radioconjugate Phase 1b Clinical Trial Targeting Refractory Triple Negative Breast Cancer (TNBC)

On April 14, 2026 Cellectar Biosciences, Inc. (NASDAQ: CLRB), a late-stage clinical biopharmaceutical company focused on the discovery and development of drugs for the treatment of cancer, reported that the first patient has been enrolled in the Phase 1b trial of CLR 121125 (CLR 125) for the potential treatment of triple negative breast cancer (TNBC).

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CLR 125 is Cellectar’s proprietary Auger-emitting radioconjugate incorporating iodine-125 to achieve intracellular delivery and direct DNA-level damage in tumor cells. The molecular structure of CLR 125 is identical to that of iopofosine I 131 (CLR 131) and the demonstrated clinical activity, safety, and tumor-targeting characteristics of iopofosine I 131 provide important validation of the platform and support translational relevance. However, these radioconjugates differ in their radiobiologic behavior at the tumor level, resulting in distinct mechanisms of action and therapeutic profiles. In preclinical studies, CLR 125 showed selective tumor uptake and statistically significant activity in vivo models of TNBC with no observed end-organ or hematologic toxicity at evaluated doses.

"Treating the first patient in this Phase 1b trial is a significant milestone for Cellectar and for those impacted by triple negative breast cancer, a condition still defined by a profound lack of targeted therapies," said James Caruso, president and chief executive officer of Cellectar. "CLR 125 embodies our commitment to optimize our proprietary PDC delivery platform to develop highly selective radioconjugates capable of delivering precise cytotoxic radiation while minimizing systemic toxicity. With additional study sites being activated in Q2, we are poised to rapidly advance this program and plan to provide dosimetry, safety, and efficacy updates throughout 2026."

The Phase 1b clinical trial is an open-label, dose-escalation study in patients with relapsed or refractory TNBC, designed to evaluate three dose levels and dosing regimens of CLR 125 (32.75 mCi administered over 4 cycles, 62.5 mCi over 3 cycles, and 95 mCi over 2 cycles), with approximately 15 patients enrolled per treatment arm. The study incorporates imaging-based assessments to characterize tumor uptake and biodistribution, supporting prediction of safety and therapeutic activity. Clinical endpoints include safety and tolerability, as well as preliminary efficacy measures, including tumor response per RECIST criteria and progression-free survival.

About Triple Negative Breast Cancer
Triple-negative breast cancer (TNBC) is an aggressive subtype of breast cancer characterized by the absence of estrogen receptors, progesterone receptors, and HER2 protein expression. This lack of common therapeutic targets makes TNBC particularly challenging to treat, with limited options beyond chemotherapy. TNBC tends to grow and spread more quickly than other breast cancer types and disproportionately affects younger women and those of African descent. In the U.S., approximately 12% of breast cancer diagnoses are TNBC. Studies suggest that approximately 25% of TNBC cases relapse after standard treatments like surgery, chemotherapy, and radiation. Due to its high recurrence rate and poor prognosis, there is a critical need for innovative, targeted therapies to improve outcomes for patients facing this difficult diagnosis.

(Press release, Cellectar Biosciences, APR 14, 2026, View Source [SID1234664351])

BullFrog AI Announces Participation at AACR Annual Meeting

On April 14, 2026 BullFrog AI Holdings, Inc. (NASDAQ: BFRG; BFRGW) ("BullFrog AI" or the "Company"), a technology company using artificial intelligence ("AI") and machine learning to turn complex biomedical data into actionable insights, reported its participation as an exhibitor at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2026. The AACR (Free AACR Whitepaper) Annual Meeting will be held from April 17-22 at the San Diego Convention Center in San Diego, California.

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Companies, researchers, and other conference attendees who are interested in meeting with the BullFrog AI team should visit booth 2957 or contact Steven Seegers at [email protected].

The AACR (Free AACR Whitepaper) Annual Meeting is the premier gathering for the global cancer community, uniting researchers, clinicians, patients, and advocates to share cutting-edge breakthroughs in oncology. Showcasing top-tier research from around the world, the event covers the entire spectrum of cancer care, from basic biology and prevention to clinical trials and patient advocacy. With a theme this year of "Precision, Partnership, Purpose: Advancing Cancer Science to Save Lives Globally," the meeting will highlight the work of the best minds in cancer science and medicine from institutions all over the world.

(Press release, Bullfrog AI, APR 14, 2026, View Source [SID1234664350])

bioAffinity Technologies’ CyPath® Lung Diagnostic Supports Physician’s Assessment, Prompts Follow-Up Imaging and Defers Unnecessary Biopsy

On April 14, 2026 bioAffinity Technologies, Inc. (Nasdaq: BIAF; BIAFW), a biotechnology company advancing noninvasive diagnostics for lung cancer and other lung diseases, reported a new clinical case study illustrating how CyPath Lung, the Company’s noninvasive sputum-based diagnostic test, helped determine next steps for a high-risk patient with a suspicious pulmonary nodule where imaging and risk models suggested a high likelihood of cancer, but the physician suspected possible inflammation.

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The patient, a 70-year-old female with a 50 pack-year smoking history and smoking-related emphysema, presented with increased symptoms including cough, sputum production and shortness of breath. A low-dose CT scan identified a suspicious 30-millimeter (mm) lesion in the lower right lung with nearby enlarged lymph nodes, findings that can be associated with lung cancer. PET imaging suggested a high likelihood of malignancy. Lung cancer risk calculators estimated the probability of cancer as high on the Mayo and Herder models and intermediate on the Brock model.

"In this case, imaging findings and risk calculators suggested a very high probability of lung cancer, and we scheduled her for biopsy," said Daya Nadarajah, MD, the treating pulmonologist. "I routinely use CyPath Lung in my practice and ordered the test for her. She received a negative result, ‘Unlikely Malignancy,’ which prompted another scan before we moved forward with the biopsy."

A follow-up CT scan showed that the concerning 30-mm nodule had completely resolved, confirming the physician’s acumen that the abnormality was due to a reversible inflammatory process rather than lung cancer.

"In patients with underlying lung disease, like emphysema, or other comorbidities like cardiovascular disease, biopsy can carry significant risks. Physicians must weigh the risks against the potential benefits," said Gordon Downie, MD, PhD, Chief Medical Officer of bioAffinity Technologies. "Adding CyPath Lung to the diagnostic pathway for indeterminate nodules provides additional objective data that can be very valuable when assessing patients with complicating health conditions. In this patient’s case, CyPath Lung supported additional imaging before biopsy which resulted in saving the patient from a risky, costly and unnecessary procedure."

This case highlights how CyPath Lung can assist physicians with pulmonary nodule management by helping physicians confidently defer unnecessary – and often risky – invasive procedures. This case study is illustrative of a single patient experience and does not establish generalized clinical utility.

About CyPath Lung

CyPath Lung by bioAffinity Technologies is a noninvasive test designed to improve the early detection of lung cancer in patients at high risk for the disease. CyPath Lung uses advanced flow cytometry and proprietary artificial intelligence (AI) to identify cell populations in patient sputum that indicate malignancy. CyPath Lung incorporates a fluorescent porphyrin that is preferentially taken up by cancer and cancer-related cells. In a clinical trial of high-risk patients, CyPath Lung demonstrated 92% sensitivity, 87% specificity and 88% accuracy in detecting lung cancer in patients at high risk for the disease who had small indeterminate lung nodules less than 20 millimeters. CyPath Lung is not intended for use as a sole diagnostic tool and should be considered alongside other clinical findings.

(Press release, BioAffinity Technologies, APR 14, 2026, View Source [SID1234664349])

Asgard Therapeutics appoints Professor Dr Wolfram Brugger as Chief Medical Officer as it advances transformative ‘personalized off-the-shelf’ immunotherapy toward clinical development

On April 14, 2026 Asgard Therapeutics, a privately held biotech company pioneering in vivo direct cell reprogramming for cancer immunotherapy, reported the appointment of Prof Dr Wolfram Brugger as Chief Medical Officer. Prof Dr Brugger, who has been involved in more than 130 Phase I-III clinical oncology trials with numerous modalities across a wide variety of cancer types, including solid tumors, will strengthen Asgard’s leadership as it prepares to transition to a clinical-stage biotech.

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Cristiana Pires, Co-founder and Chief Executive Officer of Asgard Therapeutics, said: "Strengthening our leadership team with Wolfram, who is such a highly experienced clinical trials expert and practicing medical oncologist, is a privilege and we are excited to welcome him on board. Wolfram’s proven capabilities and track record will ensure that Asgard is perfectly positioned as we advance AT-108 towards the clinic."

Prof Dr Wolfram Brugger, incoming Chief Medical Officer of Asgard Therapeutics, said: "I’ve always been driven by bringing new modalities to patients, and I am excited to be developing a ‘personalized off-the-shelf’ immunotherapy which has great potential to help patients with a wide variety of cancers. Asgard’s in vivo cell reprogramming technology has transformative potential, and the pre-clinical proof-of-concept data, both published and upcoming data to be presented at key scientific conferences, is highly convincing. Having treated hundreds of cancer patients in clinical trials throughout my career, I look forward to utilizing my experience to shape Asgard’s clinical strategy, driving AT-108 through clinical development."

Wolfram joins Asgard from NASDAQ-listed Autolus Therapeutics where he led the global clinical development program of AUTO1 (AUCATZYL / obe-cel), an autologous CD19 CAR T therapy, in hematological and autoimmune indications. AUTO1 received FDA approval in 2024 for relapsed / refractory B-cell acute lymphoblastic leukemia (B-ALL) and conditional approval was granted by the EMA and MHRA in 2025. Prior to this he was at MorphoSys where he headed the global clinical development program for the monoclonal antibody tafasitamab across various blood cancer indications. Tafasitamab (in combination with lenalidomide) was granted accelerated approval by the FDA in relapsed/refractory DLBCL in 2020 and conditional approval by the EMA in the same indication in 2021. At AstraZeneca, he was global medical lead for Phase I / early Phase II trials for several oncology assets in numerous cancer types, including testing them in combination with checkpoint inhibitors.

Prior to moving into drug development, he was Chief & Medical Director in the Department of Hematology, Oncology, Immunology & Infectious Diseases at a Teaching Hospital of Freiburg University in Germany. He holds an MD and PhD from Albert-Ludwigs University Freiburg and Eberhard-Karls University Tübingen, Germany, with a specialist registration in Internal Medicine, Medical Oncology and Hematology.

Asgard is currently focused on advancing IND-enabling studies and CMC activities to support clinical development of AT-108. Key proof-of-concept data on AT-108 were published in 2024 in the high-impact, peer-reviewed journal Science.

(Press release, Asgard Therapeutics, APR 14, 2026, View Source [SID1234664348])