On April 22, 2026 Sironax, a global clinical-stage biotechnology company developing transformative therapies for neurodegenerative, inflammatory and immunological, metabolic, and rare diseases, reported the selection of an abstract for presentation in a poster session at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) annual meeting. The meeting will take place from May 29 to June 2 in Chicago, IL.

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Presentation details are below:

Poster Title: SARM1 Inhibition to Prevent Chemotherapy-Induced Peripheral Neuropathy: Translational and Early Clinical Evaluation of SIR2501
Poster Board: 131
Abstract #: 12148
Date/Time: May 30, 2026, 1:30-4:30 PM CDT

(Press release, Sironax, APR 22, 2026, View Source [SID1234664711])

On April 22, 2026 SEED Therapeutics, Inc. ("SEED"), a clinical-stage biotechnology company pioneering rationally designed molecular glue degraders, reported new data demonstrating potent anticancer activity of its RBM39 degrader program in neuroblastoma, a pediatric cancer with high unmet medical need. SEED’s scientific work also identified potential biomarkers predictive of anticancer response that will be further examined in the clinic, with Phase 1 dose escalation projected to be completed by Q1 2027. The findings are being presented at the 2026 Annual Meeting of the American Association for Cancer Research (AACR) (Free AACR Whitepaper), which convenes more than 22,000 scientists, clinicians, and investors this week in San Diego.

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ST-01156, SEED’s clinical-stage RBM39 molecular glue degrader, is currently being evaluated in a Phase 1 dose escalation study (NCT07197554) at six leading U.S. oncology centers.

Highlights At A Glance

Tumor eradication in a rigorous in vivo model: ST-01156 achieved complete tumor regression in neuroblastoma model using a differentiated dosing regimen — a demanding efficacy benchmark in solid tumor oncology.
Active Phase 1 clinical trial: Dose escalation is underway (NCT07197554) at six leading U.S. oncology centers, with clinical sites in additional geographies in preparation.
Biomarker strategy: MYC overexpression (sensitivity) and CDKN2A/B deletion (resistance) were identified as part of SEED’s biomarker program, potentially enabling precision patient enrollment as the trial advances.
Rare Pediatric and Orphan disease opportunity: Neuroblastoma is a high-unmet-need rare pediatric cancer representing a Rare Pediatric Disease and Orphan Disease designation-eligible indication, with potential for expedited regulatory pathways including Priority Review Voucher eligibility.

Scientific Rationale: Why RBM39 Matters

RBM39 is an RNA-binding protein that governs pre-mRNA splicing — a process cancer cells exploit to fuel uncontrolled growth, evade cell death, and repair DNA damage. By degrading RBM39 entirely, rather than merely inhibiting it, SEED’s approach disrupts multiple oncogenic pathways simultaneously: cell cycle progression, metabolic reprogramming, DNA damage response, and programmed cell death (apoptosis — the process by which damaged or cancerous cells are eliminated by the body). This breadth of effect is a key differentiator from conventional targeted therapies.

Molecular glue degraders achieve this by redirecting the cell’s own quality-control machinery — the ubiquitin-proteasome system — to tag and destroy the target protein. SEED’s proprietary RITE3 platform was designed from inception to identify, validate, and optimize molecular glues with a defined therapeutic window, bringing rational drug design to protein targets previously considered undruggable.

Key Data Highlights — AACR (Free AACR Whitepaper) 2026 Poster #5785

Tumor eradication in an in vivo model: ST-01156 achieved complete tumor regression in a neuroblastoma xenograft model — meaning tumors disappeared entirely — using the same dosing schedule now deployed in the Phase 1 trial. This direct correspondence between preclinical and clinical dosing strengthens confidence in the translational path forward.
Consistent potency across a biologically diverse disease: ST-01156 demonstrated potent anticancer activity across ten neuroblastoma models — six established cell lines and four patient-derived models — with IC50 values (the concentration required to kill half of cancer cells) in the low-to-sub-micromolar range. Neuroblastoma is genetically heterogeneous; this breadth of coverage matters.
A clear mechanism of action: Treatment with ST-01156 induced DNA damage, switched on the tumor-suppressing p53/p21 pathway, and reduced the levels of known cancer-driving proteins cMYC and EZH2 — confirming a coherent, multi-pronged path to programmed cancer cell death (apoptosis).
Biomarker roadmap for precision enrollment: SEED’s translational research identified MYC overexpression as a marker of sensitivity to ST-01156, and CDKN2A/B deletion as a marker of resistance. These biomarkers — identifiable through standard tumor profiling — may provide a practical framework for selecting patients most likely to benefit as the Phase 1 trial progresses toward expansion cohorts.

"ST-01156’s advancement into clinical testing in 2026 marks a pivotal milestone for SEED and for patients with RBM39 dependent cancers, including neuroblastoma — a pediatric cancer with very limited effective treatment options. The identification of MYC and CDKN2A/B status as potential biomarkers is the product of SEED’s focus on identifying the patients who will significantly benefit from ST-01156."

— James Tonra, PhD, President & Chief Scientific Officer, SEED Therapeutics

"The RBM39 data we are presenting at AACR (Free AACR Whitepaper) 2026 reflect what SEED’s RITE3 platform was designed to do — not just degrade a difficult target, but understand which patients are most likely to benefit. Seeing ST-01156 achieve complete tumor regression in a neuroblastoma model, at the same dosing schedule now in the clinic, is deeply gratifying and scientifically meaningful. Our focus at SEED is on ensuring that the molecular insight behind this program translates into real outcomes for patients with very few options."

— Lan Huang, PhD, Co-Founder, SEED Therapeutics

Clinical Development Status

ST-01156 is being evaluated in an ongoing Phase 1 dose escalation study (NCT07197554) designed to establish safety, pharmacokinetics, and target engagement. The study enrolls patients enriched for cancer types with demonstrated RBM39 dependency in preclinical research. The trial is currently active at six leading U.S. oncology centers, with additional clinical sites in preparation. Phase 1 dose escalation is projected to be completed by Q1 2027. The dosing schedule employed is consistent with that used in IND-enabling studies and in the in vivo efficacy program reported at AACR (Free AACR Whitepaper) 2026 — providing a robust translational foundation.

AACR 2026 Poster Presentation Details

Title: RBM39 Degrader Anticancer Activity Against Neuroblastoma; MYC and CDKN2A/B as Potential Response Biomarkers
Poster Number: 5785
Session: Proximity-Induced Drug Discovery 2 (Experimental and Molecular Therapeutics)
Authors: James Finn, Imad Salhab, Haihong Jin, Fei Liu, Dong Liu, Yunkai Zhang, Xing Liu, James Tonra, Lan Huang, Dan Lu

(Press release, Seed Therapeutics, APR 22, 2026, View Source [SID1234664710])

On April 22, 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 new clinical data from its ongoing Phase 2 study in metastatic colorectal cancer (mCRC) were presented at the AACR (Free AACR Whitepaper) Annual Meeting 2026, taking place April 17–22, 2026, at the San Diego Convention Center.

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The presentation highlighted findings supporting CCR5 inhibition with leronlimab as a strategy to modulate the tumor microenvironment, enhance immune engagement, and improve outcomes in metastatic colorectal cancer (mCRC), particularly in combination with standard-of-care therapies.

Metastatic colorectal cancer remains a significant clinical challenge, particularly in patients with refractory disease who have progressed on multiple prior lines of therapy. While standard regimens such as TAS-102 in combination with bevacizumab provide modest benefit, treatment resistance and immune evasion continue to limit durable responses. Results presented at AACR (Free AACR Whitepaper) demonstrate that CCR5 inhibition with leronlimab may enhance anti-tumor activity by modulating the tumor microenvironment and improving immune engagement.

"Preliminary results from our ongoing Phase 2 study suggest that CCR5 inhibition with leronlimab may enhance both biomarker and clinical responses in heavily pretreated mCRC patients," said Pashtoon M. Kasi, M.D., M.S., Medical Director of GI Oncology, City of Hope Orange County, Irvine, California. "Real-time assessment of novel liquid biopsy biomarkers, including circulating tumor cells, circulating tumor DNA, and cancer-associated macrophage-like cells in blood, along with integrated evaluation of tumor tissue and the tumor microenvironment, is providing insights that conventional imaging and traditional assessment methods cannot capture."

Key findings from the ongoing Phase 2 mCRC study include:

Among pre-screened patients with evaluable samples (N=33), CCR5 expression was detected in 100% of cases, supporting its potential as a therapeutic target in mCRC.
Early clinical and biomarker responses were observed, including rapid and substantial reductions in circulating tumor DNA (ctDNA), with median declines of approximately 70% by week 2 across evaluable patients (N=19).
The combination regimen has been well tolerated, with no leronlimab-related dose-limiting toxicities (DLTs) observed, and escalation to 700 mg dosing underway.
The study continues to enroll toward full enrollment, reflecting significant unmet need in previously treated mCRC.
"Building on the translational and clinical data presented earlier in the week in mTNBC, these findings further support CCR5 as a key regulator of the tumor microenvironment across solid tumors," said Jacob P. Lalezari, M.D., Chief Executive Officer of CytoDyn. "The early biomarker and clinical signals observed in our ongoing Phase 2 mCRC study reinforce the potential of leronlimab-based combination approaches to enhance immune engagement and address resistance in heavily pretreated patients."

The poster presentation titled "Preliminary results of a phase 2 study of leronlimab in combination with TAS-102 and bevacizumab in previously treated metastatic colorectal cancer" was presented by Dr. Kasi on April 21, 2026, from 2:00 p.m. – 5:00 p.m. PT (Poster #6466). A copy of the poster will be made available on CytoDyn’s website under the Publications & Posters section.

(Press release, CytoDyn, APR 22, 2026, View Source [SID1234664709])

On April 22, 2026 Amplia Therapeutics limited (ASX:ATX | OTCQB:INNMF), ("Amplia" or the "Company") reported that an oral presentation highlighting mature data from the Company’s ACCENT trial in metastatic pancreatic cancer is being delivered today at the annual meeting of the AACR (Free AACR Whitepaper). The presentation includes more detailed analysis of the recently reported data from the ACCENT study, which is investigating the Company’s best-in-class FAK inhibitor narmafotinib in combination with standard-of-care chemotherapy.

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The presentation is included as part of a mini-symposium entitled Advances in Precision Oncology being held in the San Diego Convention Center, San Diego USA, and will be delivered by Amplia’s Director of Translational Biology, Dr Terrie-Anne Cock, at 3:44 pm local time. A copy of the slides is included with this announcement.

The key points from the presentation are:

Narmafotinib displays a manageable toxicity profile, with no significant tolerability burden over chemotherapy alone
Independent (central) reading of data identified 5 confirmed Complete Responses (CR’s) from 64 patients, an 8% CR rate compared to a 0.2% rate for chemotherapy alone
A response rate of 36% is observed (23 of 64 patients); 42% if unconfirmed responses included
A Disease Control Rate (DCR) of 70% was determined, compared to 50% for chemotherapy alone
Median overall survival (mOS) was found to be 11.1 months, while median progression-free survival (mPFS) was 7.7 months, both showing improvements of over two months compared to chemotherapy alone
A trend to improved Overall Survival is observed when comparing Stable Disease, Partial Response and Complete Response patients
The combined efficacy data is superior to chemotherapy alone across all measures despite the intermittent narmafotinib dosing schedule employed (12 days of each 28 day treatment cycle)
Subsequent trials will employ a daily dosing regimen of narmafotinib given the tolerability observed to date, which may lead to improved responses

Dr Chris Burns, CEO and Managing Director of Amplia, commented, "These extremely promising clinical responses demonstrate the potential narmafotinib has in the treatment of this terrible disease. We are now focused on building on this promising data with additional clinical studies, including a pivotal study based on the ACCENT trial, as well as combination studies with the exciting new class of drugs called kRAS inhibitors."

(Press release, Amplia Therapeutics, APR 22, 2026, View Source [SID1234664708])

On April 22, 2026 BridgeBio Oncology Therapeutics, Inc. ("BBOT") (Nasdaq: BBOT), a clinical-stage biopharmaceutical company focused on RAS-pathway malignancies, reported new preclinical data for BBO-11818, a selective, orally bioavailable non-covalent inhibitor that targets mutant KRAS in both the ON (active GTP-bound) and OFF (inactive GDP-bound) states with robust anti-tumor activity in KRAS-mutant preclinical models. The data underscore BBO-11818’s differentiated activity across multiple KRAS-mutant cancer types. The data were presented at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2026.

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"BBO-11818 addresses a significant unmet need by targeting multiple KRAS variants for which no approved therapies exist, including KRASG12D and KRASG12V," said Pedro J. Beltran, PhD, Chief Scientific Officer of BBOT. "Its ability to inhibit KRAS in both its inactive and active states drives potent tumor regressions in pancreatic, lung, and colorectal cancer models — and its efficacy is meaningfully amplified in combination with BBO-10203, cetuximab, and anti-PD-1, underscoring its potential as a combination backbone in KRAS-mutant cancers."

Highlights from the poster include:

BBO-11818 potently inhibits ERK phosphorylation and proliferation in KRAS-dependent cell lines in vitro.
BBO-11818 demonstrates robust efficacy in KRASG12D and KRASG12V CDX models.
BBO-11818 exhibits in vivo combination effect with BBO-10203, a RAS:PI3K⍺ breaker, and cetuximab in KRAS-mutant CDX and PDX models.
BBO-11818 also shows combination benefit with anti-PD-1 treatment, resulting in complete tumor regressions and the induction of an adaptive immune response in the CT26 syngeneic model.
The presentation is titled "BBO-11818: an orally bioavailable, highly potent and selective non-covalent pan-KRAS (ON) and (OFF) inhibitor with robust anti-tumor activity in KRAS-mutant preclinical models." A copy of the poster will be available on the "Publications" page of the BBOT website following the conference.

About BBO-11818
BBO-11818 is a selective, orally bioavailable non-covalent inhibitor that targets KRAS in both the ON and OFF states, has high selectivity over HRAS and NRAS, and displays strong activity in KRAS-mutant preclinical models, including KRASG12D and KRASG12V. In addition, it potently suppresses MAPK signaling and inhibits cell proliferation in KRAS-mutant cell lines. BBO-11818 is currently being evaluated in the Phase 1 KONQUER-101 trial in subjects with locally advanced unresectable or metastatic KRAS-mutant solid tumors.

(Press release, BridgeBio Oncology Therapeutics, APR 22, 2026, View Source [SID1234664707])