Chronic pain management remains a major clinical challenge, limited by the efficacy and safety profile of existing analgesics. The P2X7 receptor (P2X7R), a key driver of neuroinflammatory signaling, represents a promising therapeutic target; however, the clinical advancement of P2X7R antagonists has been hindered by limited efficacy and marked species differences in pharmacological activity. Here, we identify cinobufagin (CBG) as a novel, human-selective allosteric antagonist of P2X7R. CBG potently inhibited human P2X7R in functional assays measuring YO-PRO-1 uptake, calcium flux, and electrophysiological responses, but exhibited minimal activity against rat P2X7R or other P2X subtypes. Structural modeling and mutagenesis confirmed CBG's engagement with the canonical allosteric pocket, with residues F103 and M105 being critical for binding. Notably, species selectivity was determined not by variations within the binding pocket itself, but by distal extracellular domains. We further identified key discriminatory residues (R126, S165, I170, R270, Y288, N303) as novel molecular determinants of this selectivity. In a murine model of complete Freund's adjuvant (CFA)-induced inflammatory pain, CBG demonstrated significant analgesic efficacy. Comprehensive electrophysiological profiling also confirmed its selectivity against other major pain-related ion channels. Collectively, our work elucidates CBG's mechanism of action and reveals a paradigm in which allosteric modulation of P2X7R can be governed by long-range conformational influences from distal extracellular domains, rather than solely by direct ligand-pocket interactions.

01 Dec 2025·Purinergic Signalling

Expanding the P2X7R toolbox: discovery of a novel Iodine-125 radioligand

Article

Author: Matera, Carlo ; Tempra, Giorgia

This Journal Club article reviews a 2025 study by Qiu et al. that reports the development of a novel iodine-125 radioligand targeting the purinergic P2X7 receptor (P2X7R). The researchers created a small library of structurally modified P2X7R antagonists and identified compound 1c as a lead due to its high affinity and selectivity. Radiolabeling with iodine-125 produced [¹²⁵I]1c with high yield and purity. Binding studies confirmed its strong nanomolar affinity, supporting its use in radioligand screening and potential applications in imaging P2X7R in inflammatory and neurodegenerative diseases. The study demonstrates the value of radiolabeled probes in drug discovery and purinergic signaling research.

01 Nov 2025·PHARMACOLOGICAL RESEARCH

Purinergic modulation of major depressive disorder: Experimental findings, pathogenesis and therapeutic opportunities

Review

Author: Rubini, Patrizia ; Illes, Peter ; Tang, Yong ; Ren, Xing-Ying ; Engel, Tobias

Major depressive disorder (MDD) is a mental illness characterized primarily by persistent low mood and anhedonia. Traditional monoamine antidepressants have not achieved entirely satisfactory clinical efficacy. Recent studies have revealed that extracellular adenosine 5'-triphosphate (ATP), adenosine, and their P2/P1 receptor (R)-mediated purinergic signaling play a significant role in the pathogenesis of depression. This review first describes what is known regarding the mechanisms of ATP release in glial cells and neurons, particularly the role of reduced ATP release by astrocytes in decreasing synaptic plasticity and dopaminergic signaling, leading to depressive-like behavior. Subsequently, it summarizes the distinct roles of the purinergic ionotropic P2XRs (especially P2X7) and metabotropic P2YRs in regulating neuroinflammation and synaptic plasticity. It then reviews the role of adenosine metabolic imbalance and altered function of adenosine A1 and A2ARs in further promoting pathological processes in depression. Finally, based on the aforementioned mechanisms, intervention strategies targeting different purinergic pathways are briefly outlined, including P2X7R antagonists, adenosine receptor modulators and S-adenosylmethionine (SAMe), including outstanding challenges for their translation towards a clinical application.

News (Medical) associated with P2X7R Antagonists(Breye Therapeutics)

25 Jan 2024

·www.prnewswire.com

Breye Therapeutics Commences Oral Dosing of Danegaptide in Patients with Diabetic Retinopathy

Investigating potential for an oral treatment in diabetic retinopathy First patient dosed in Phase 1b/2a clinical trial COPENHAGEN, Denmark, Jan. 25, 2024 /PRNewswire/ -- Breye Therapeutics ApS (Breye), a clinical-stage biopharmaceutical company developing novel oral therapies for retinal vascular diseases within ophthalmology, today announces the start of a phase 1b/2a clinical trial to investigate danegaptide, following oral administration, in patients suffering from diabetic macular edema (DME). Breye is developing novel, oral ophthalmology drugs to address the need for more effective and less burdensome therapies for millions of patients suffering with deteriorating vision due to Diabetic Retinopathy (DR) or Age-Related Macular Degeneration (AMD). While there has been successful development of intravitreally administered products for patients with late-stage disease, treatment options are currently limited for patients in the early or moderate stages. As an oral therapy, danegaptide targets the core pathological events in DR, including cell-cell uncoupling, apoptotic vascular cell death and vascular leakage, at earlier stages of disease progression. With safety data derived from over 500 clinical trial participants, robust toxicology data, and strong non-clinical in vitro and in vivo efficacy results, there is strong support for danegaptide's potential to address the clinical core ocular pathologies of vascular leakage and capillary breakdown. The positive effects of treating these pathologies have been clinically validated. The study's design is a multicenter, open-label, dose-escalating Phase 1b/2a study to assess the safety, tolerability, pharmacokinetics (PK), and early signs of biological activity following oral administration of danegaptide in participants diagnosed with DME. Ulrik Mouritzen, Chief Executive Officer of Breye Therapeutics, said: "The launch of the Phase 1b/2a clinical trial for danegaptide represents a significant milestone towards realising our mission of developing more effective, globally accessible orally administered treatment solutions for patients at risk of vision loss and blindness. The burden on patients with diabetic retinopathy is significant and those who experience vision loss and blindness face threats to their physical and mental health and overall quality of life. At Breye, we are committed to help treat the disease earlier by offering effective oral therapies, to patients who currently have limited or no treatment options." Prof. Carl Regillo, MD, Director of Retina Service of Wills Eye Hospital and Professor of Ophthalmology at Thomas Jefferson University in Philadelphia, Member of the Breye Therapeutics Scientific Advisory Board, commented: "Danegaptide has the potential to become a valuable oral treatment option for patients with Diabetic Retinopathy. Patients should ideally be treated earlier and before the disease progresses to later stages, where laser treatments or intravitreally administered products are required." About Breye Therapeutics Breye is a biopharmaceutical company developing novel, oral ophthalmology drugs to address the needs of millions of patients suffering with deteriorating vision due to Diabetic Retinopathy (DR) or Age-Related Macular Degeneration (AMD), for which there are no treatments in early or moderate disease. Severe diabetic retinopathy requires intravitreal injections directly into the eye, which are unpopular with patients, resulting in a significant drop out rate of about 50% after 1 year and only 40% of patients obtain an optimal response. Orally administered drugs will be less burdensome than injections, as well as potentially more effective and commercially competitive. With its clinically de-risked safety profile, the lead program with danegaptide has potential for a short and well-accepted clinical regulatory pathway. Breye is also developing an oral P2X7R antagonist for AMD which seeks to reduce nerve damage and inflammation. Breye raised a seed round from Novo Holdings and Sound BioVentures and received financial support from the BioInnovation Institute, the Danish Growth Foundation (Vækstfonden) and the Danish Innovation Foundation (Innovationsfonden). For more information, please visit: SOURCE Breye Therapeutics

Clinical Study

25 Jul 2023

·www.prnewswire.com

Golgi Neurosciences and Breye Therapeutics announce successful closing of P2X7 receptor antagonist program transfer

Collaboration to advance development of innovative oral small molecule therapeutics for retinal disorders MILAN and COPENHAGEN, Denmark, July 25, 2023 /PRNewswire/ -- Golgi Neurosciences S.r.l., the biotech incubator dedicated to the development of new treatments for devastating diseases, and Breye Therapeutics ApS, a clinical-stage biopharmaceutical company developing novel oral therapies for retinal vascular diseases, today announces a collaboration to develop the P2X7 receptor antagonist programme. The P2X7 receptor is an ATP-gated ion channel expressed in various cell types and is a key inflammation switch. Inflammation increases in the diabetic retina and does so in a self-propagating manner. Strong scientific evidence also implicates inflammation in the pathogenesis of AMD. Orally available antagonists of the P2X7 receptor represent a novel approach for the treatment of both early-stage DR and dry-AMD. Diabetic Retinopathy (DR) affects 30% of diabetic patients and is one of the leading causes of blindness among working age adults. Age-Related Macular Degeneration (AMD) is another prominent cause of vision loss, particularly for individuals aged 60 years and older. Chiara Liberati, Managing Director, Golgi Neurosciences, commented: "There is a significant need for more effective and patient-compliant drugs in the ophthalmic field. With leading experts on the Scientific Advisory Board, Breye is led by a strong and seasoned Management team, supported by a highly-regarded syndicate of investors, making Breye the ideal partner to facilitate the next steps in advancing our P2X7 receptor antagonist program towards developing innovative approaches for retinal disorders. "This marks the first closed deal for Golgi Neurosciences since its inception which serves as a validation for the quality of our research in the field of small-molecule drugs." Ulrik Mouritzen , Chief Executive Officer, Breye Therapeutics, said: "The Golgi incubator has fantastic expertise in neurosciences, and we are pleased to collaborate to advance the P2X7 receptor antagonist program for retinal disorders, where there is a large unmet medical need for more effective and less burdensome therapies." About Golgi Neurosciences Golgi Neurosciences is a biotech incubator based in Milan, Italy, dedicated to the discovery and development of small molecule-based treatments for neurodegenerative diseases with high unmet need. The incubator boasts a diverse portfolio of clinical and preclinical stage companies, all focused on programs targeting various neurodegenerative diseases, including Alzheimer's, Parkinson's, Amyotrophic Lateral Sclerosis, Multiple Sclerosis and Retinopathies. In addition, Golgi Neurosciences is progressing a robust pipeline of proprietary projects on innovative therapeutics targets, for which it is open to partnership. For more information, please visit: golgineurosciences.com About Breye Therapeutics Breye is a biopharmaceutical company developing novel, oral ophthalmology drugs to address the needs of millions of patients suffering with deteriorating vision due to Diabetic Retinopathy (DR) or Age-Related Macular Degeneration (AMD), for which there are no treatments in early or moderate disease. Severe diabetic retinopathy requires intravitreal injections directly into the eye, which are unpopular with patients, resulting in a significant drop out rate of about 50% after 1 year and only 40% of patients obtain an optimal response. Orally administered drugs will be less burdensome than injections, as well as potentially more effective and commercially competitive. With its clinically de-risked safety profile, the lead program with danegaptide has potential for a short and well-accepted clinical regulatory pathway. The addition of the oral P2X7R inhibitor program seeks to reduce nerve damage and inflammation in retinal diseases. Breye raised a seed round from Novo Holdings and Sound BioVentures and received financial support from the BioInnovation Institute, the Danish Growth Foundation (Vækstfonden) and the Danish Innovation Foundation (Innovationsfonden). For more information, please visit: SOURCE Golgi Neurosciences; Breye Therapeutics

21 Apr 2023

·www.prnewswire.com

Breye Therapeutics Strengthens Management Team and Board

Industry veteran Dr. Peter Adamson, PhD appointed as Chief Scientific Officer Dr. Gabriela Burian, MD appointed to the Board of Directors COPENHAGEN, Denmark , April 20, 2023 /PRNewswire/ -- Breye Therapeutics ApS (Breye), a clinical-stage biopharmaceutical company developing novel oral therapies for retinal vascular diseases within ophthalmology, today announces the appointment of Peter Adamson as Chief Scientific Officer (CSO) and Gabriela Burian as a new member of its Board of Directors. Dr. Adamson has over 20 years of experience in ophthalmology drug development. He has previously held senior leadership positions at various biopharmaceutical companies including Vice President and Head of Ophthalmology Research at GlaxoSmithKline, where he generated multiple clinical candidates and acted as Lead Biologist on a number of discovery programmes. He previously also worked at ProQR and recently Tenpoint Therapeutics, where he was involved in building pipelines and securing successful financing. Gabriela Burian is a physician-scientist with over 25 years of experience in clinical research and drug development in ophthalmology. She has held various global leadership positions at leading biopharmaceutical companies including Roche and Novartis. Breye is developing novel, oral ophthalmology drugs to address the needs of millions of patients suffering with deteriorating vision due to Diabetic Retinopathy (DR) or Age-Related Macular Degeneration (AMD), for which there are no broadly available treatments in early or moderate disease. It is focused on advancing into clinic its lead compound to phase 1b. Ulrik Mouritzen, CEO of Breye Therapeutics, said: "We are thrilled to welcome Peter as CSO. His extensive experience in ophthalmology drug development will be invaluable as we advance our lead compound through clinical development. Gabriela's appointment to the Board brings significant industry and development experience which will be instrumental as we build a pipeline of novel oral therapies for retinal vascular diseases within ophthalmology." Peter Adamson, CSO of Breye Therapeutics, commented: "I am pleased to join the team at Breye Therapeutics and to drive the development of our pipeline of innovative oral therapies for retinal vascular diseases and bring much needed treatments to patients." Gabriela Burian, newly appointed Board Member of Breye Therapeutics, said: "I am honoured to join the Board of Directors and to support the management team in its goal to develop first-in-class oral drugs for treating Diabetic Retinopathy and Age-Related Macular Degeneration and broaden the access to therapeutic options in this patient population." About Breye Therapeutics Breye is a biopharmaceutical company developing novel, oral ophthalmology drugs to address the needs of millions of patients suffering with deteriorating vision due to Diabetic Retinopathy (DR) or Age-Related Macular Degeneration (AMD), for which there are no treatments in early or moderate disease. Danegaptide is an oral investigational compound that targets diabetic retinopathy, a serious complication of a rapidly growing global disease. Severe diabetic retinopathy requires intravitreal injections directly into the eye, which are unpopular with patients, resulting in a significant drop out rate of about 50% after 1 year and only 40% of patients obtain an optimal response. Originally developed for cardiac indications, clinical studies have shown danegaptide to be a safe drug, stabilising cell-cell coupling and protecting against vascular leakage and capillary breakdown. Danegaptide is orally administered and less burdensome than injections, as well as potentially more effective and commercially competitive. With its recognised safety profile, danegaptide has potential for a short and well accepted clinical regulatory pathway. Breye is also developing an oral P2X7R inhibitor for AMD which seeks to reduce nerve damage and inflammation. Breye raised a seed round from Novo Holdings and Sound BioVentures and received financial support from the BioInnovation Institute, the Danish Growth Foundation (Vækstfonden) and the Danish Innovation Foundation (Innovationsfonden). For more information, please visit: SOURCE Breye Therapeutics

Executive Change

100 Deals associated with P2X7R Antagonists(Breye Therapeutics)

R&D Status

10 top R&D records.

to view more data

Indication	Highest Phase	Country/Location	Organization	Date
dry age-related macular degeneration	Preclinical	United States	Breye Therapeutics ApS	13 Sep 2024

Clinical Result

Indication

Phase

Evaluation

View All Results

Translational Medicine

Boost your research with our translational medicine data.

view full example data

Deal

Boost your decision using our deal data.

view full example data

Core Patent

Boost your research with our Core Patent data.

view full example data

Clinical Trial

Identify the latest clinical trials across global registries.

view full example data

Approval

Accelerate your research with the latest regulatory approval information.

view full example data

Regulation

Understand key drug designations in just a few clicks with Synapse.

view full example data

AI Agents Built for Biopharma Breakthroughs

Accelerate discovery. Empower decisions. Transform outcomes.

Get started for free today!

Accelerate Strategic R&D decision making with Synapse, PatSnap’s AI-powered Connected Innovation Intelligence Platform Built for Life Sciences Professionals.

Start your data trial now!

Synapse data is also accessible to external entities via APIs or data packages. Empower better decisions with the latest in pharmaceutical intelligence.

Bio

Bio Sequences Search & Analysis

Chemical

Chemical Structures Search & Analysis


No Data