CANbridge and Scriptr Global Announce Publication in the Journal Science Reporting the Discovery of the StitchR™ RNA Assembly Technology and its Application for the Treatment of Muscular Dystrophies
CANbridge and Scriptr Global Announce Publication in the Journal Science Reporting the Discovery of the StitchR™ RNA Assembly Technology and its Application for the Treatment of Muscular Dystrophies
SUZHOU – November 15, 2024— CANbridge Pharmaceuticals Inc. (1228.HK), a global biopharmaceutical company committed to the research, development and commercialization of transformative therapies to treat rare diseases, today announced the publication of a research article in the journal Science https://www.science.org/doi/10.1126/science.adp8179 that describes the discovery of the StitchR™ RNA assembly technology and its application to treat muscle diseases caused by mutations in large genes, including Duchenne muscular dystrophy (DMD). The title of the publication is “Ribozyme-activated mRNA Trans-ligation Enables Large Gene Delivery to Treat Muscular Dystrophies.”
蘇州——2024年11月15日——致力於研究開發和商業化治療罕見疾病的變革性療法的全球生物製藥公司北海康成製藥有限公司(1228.HK)今天宣佈在《科學》雜誌上發表一篇研究文章 https://www.science.org/doi/10.1126/science.adp8179 這描述了stitChr™ RNA組裝技術的發現及其在治療由大基因突變引起的肌肉疾病(包括杜興氏肌營養不良症(DMD))方面的應用。該出版物的標題是 「核酶激活的mRNA反式連接使大型基因遞送能夠治療肌肉萎縮症」。
The StitchR technology was developed by Douglas Anderson, Ph.D. and colleagues at the University of Rochester and Scriptr Global Inc. to address the limited payload capacity of adeno-associated viruses (AAV). vectors, the most commonly used gene therapy vector. This technology enables the efficient delivery of larger gene payloads via two independent AAV. The dual AAV vectors express the left and right halves of a gene sequence that are seamlessly stitched together end-to-end by ribozymes at the messenger RNA level, thus enabling the production of large proteins.
StitChr技術由羅切斯特大學和Scriptr Global Inc.的道格拉斯·安德森博士及其同事開發,旨在解決腺相關病毒(AAV)載體(最常用的基因治療載體)有效載荷有限的問題。該技術能夠通過兩個獨立的 AAV 高效傳送更大的基因有效載荷。雙 AAV 載體表達基因序列的左右兩半,這些基因序列在信使 RNA 水平上由核酶端到端無縫拼接在一起,從而能夠產生大型蛋白質。
In 2021, CANbridge entered into a research collaboration and exclusive world-wide license agreement with Scriptr Global for the development of StitchR-enabled gene therapies targeting dystrophinopathies, including DMD, Becker muscular dystrophy (BMD) and X-linked dilated cardiomyopathy (DCM) driven by DMD mutations. The new study demonstrates that StitchR can reconstitute high levels of a large midi-dystrophin protein encoded by StitchR-enabled dual AAV vectors in the muscles and heart of mdx mice, a key preclinical model for studying DMD. The midi-dystrophin is approximately twice the size of the micro-dystrophins that are currently approved or in clinical trials, and more than half the size of native dystrophin. The authors further show that the midi-dystrophin is functional and leads to significant improvements in muscle health in treated mice. StitchR is the basis of CANbridge’s CAN204 DMD gene therapy program, which is currently in the preclinical research stage.
2021年,北海康成與Scriptr Global簽訂了研究合作和全球獨家許可協議,開發基於Stitchr的基因療法,靶向營養不良症,包括DMD、貝克爾肌營養不良症(BMD)和由DMD突變驅動的X連鎖擴張型心肌病(DCM)。這項新研究表明,stitCHR可以在mdx小鼠的肌肉和心臟中重組由支持Stitchr的雙AAV載體編碼的大型midi-dystrophin蛋白,這是研究DMD的關鍵臨床前模型。midi-dystrophin的大小大約是目前批准或正在臨床試驗中的微型肌營養素的兩倍,大小是天然肌營養不良蛋白的一半以上。作者進一步表明,midi-dystrophin具有功能性,可顯著改善接受治療的小鼠的肌肉健康。stitCHR是北海康成 CAN204 DMD 基因療法計劃的基礎,該項目目前處於臨床前研究階段。
“The publication in Science demonstrates that this technology for creating large proteins from dual AAV vectors is recognized externally across the broader scientific community as both novel and extremely powerful,” said James Xue, Ph.D., founder, chairman and CEO of CANbridge Pharmaceuticals Inc. “DMD is an X-linked genetic muscle disease that is caused by mutations in the dystrophin gene, which is too large to fit into a single or even dual AAV vectors. The StitchR RNA Assembly Technology enables a doubling of the size of a gene that AAV can deliver, and in the case of DMD, we believe that that by providing a larger recombinant dystrophin than the current micro-dystrophins, CANbridge’s next generation AAV approach may lead to a more potent treatment to address the significant unmet needs of DMD patients.”
北海康成製藥公司創始人、董事長兼首席執行官薛傑博士說:「《科學》雜誌上的出版物表明,這種利用雙AAV載體制造大型蛋白質的技術被外部公認爲既新穎又極其強大。DMD是一種X連鎖遺傳性肌肉疾病,由肌萎縮蛋白基因突變引起,體積太大,無法容納到單一甚至雙AAV載體中。StitChr RNA組裝技術使AAV能夠傳遞的基因大小擴大一倍,就DMD而言,我們認爲,通過提供比當前微肌萎縮素更大的重組肌萎縮蛋白,北海康成的新一代AAV方法可能會帶來更有效的治療方法,以滿足DMD患者尚未滿足的重大需求。」
Jason West, Ph.D., Vice President of Research of CANbridge, and co-author of the publication added “CAN204 may represent a best-in-class therapy compared to other dual and single vector AAV approaches because of the high efficiency and limited byproducts demonstrated by the StitchR technology when used to deliver large dual vector-encoded DMD genes to mice and human skeletal muscle cells during our collaboration with Scriptr and in our preclinical research studies. We are excited to continue to advance this program as rapidly and safely as possible for DMD patients.”
該出版物的合著者、北海康成研究副總裁傑森·韋斯特博士補充說:「與其他雙載體和單載體AAV方法相比,CAN204 可能是同類最佳療法,因爲在我們與Scriptr合作和臨床前研究中,StitChr技術在向小鼠和人類骨骼肌細胞提供大型雙向量編碼的DMD基因時所表現出的效率高且副產物有限。我們很高興能夠繼續爲DMD患者儘可能快速、安全地推進這項計劃。」
About dystrophinopathies
關於肌營養不良症
Dystrophinopathies are X-linked genetic muscle diseases, which include Duchenne muscular dystrophy (DMD), Becker muscular dystrophy (BMD) and X-linked dilated cardiomyopathy (DCM) driven by mutations in the DMD gene. DMD presents in early childhood and is characterized by rapidly progressive muscle degeneration and weakness, leading to loss of ambulation by about 12 years of age. BMD is characterized by later-onset skeletal muscle weakness and loss of ambulation in adulthood. X-linked DCM is characterized by a large and poorly contracting heart without significant skeletal muscle involvement. DCM, which also occurs in DMD and BMD patients, often progresses to congestive heart failure and is a common cause of morbidity and death in patients with dystrophinopathies.
肌萎縮症是X連鎖遺傳性肌肉疾病,包括杜興氏肌肉萎縮症(DMD)、貝克爾肌肉萎縮症(BMD)和由DMD基因突變驅動的X連鎖擴張型心肌病(DCM)。DMD 出現在兒童早期,其特徵是快速進行性肌肉退化和虛弱,導致大約 12 歲時失去活動能力。骨髓損傷的特徵是晚發的骨骼肌無力,成年後失去活動能力。X-linked dcM 的特徵是心臟較大且收縮不良,骨骼肌無明顯受累。dcM 也發生在 DMD 和 BMD 患者中,通常會發展爲充血性心力衰竭,是肌萎縮症患者發病和死亡的常見原因。
About CAN204
關於 CAN204
CAN204 is a dual AAV vector gene therapy currently in the discovery research stage of development. CAN204 utilizes the StitchR™ RNA Assembly Technology that is exclusively licensed to CANbridge from Scriptr Global Inc. for the worldwide treatment of dystrophinopathies.
CAN204 是一種雙 AAV 載體基因療法,目前處於發現研究開發階段。CAN204 採用了 Scriptr Global Inc. 獨家授權北海康成的 StitChr™ RNA 組裝技術,用於在全球範圍內治療肌營養不良症。
About CANbridge Pharmaceuticals Inc.
關於北海康成製藥公司
CANbridge Pharmaceuticals Inc. (HKEX:1228) is a global biopharmaceutical company, with a foundation in China, committed to the research, development and commercialization of transformative therapies for rare diseases. CANbridge has a differentiated drug portfolio, with 3 approved drugs and a pipeline of 9 assets, targeting prevalent rare disease indications that have unmet needs and significant market potential. These include Hunter syndrome (Mucopolysaccharidosis type II) and other lysosomal storage disorders, complement-mediated disorders, hemophilia A, metabolic disorders, rare cholestatic liver diseases and neuromuscular diseases. The CANbridge Next-Generation Innovation and Process Development Facility is developing novel, potentially curative, gene therapies for rare genetic diseases, including Pompe disease, Fabry disease, spinal muscular atrophy (SMA), Duchenne muscular dystrophy (DMD) and other neuromuscular conditions, and collaborates with world-leading researchers and biotech companies. CANbridge global partners include: Apogenix, GC Biopharma, Mirum Pharma, WuXi Biologics, Privus Biologics, UMass Chan Medical School, the University of Washington School of Medicine and Scriptr Global.
北海康成製藥有限公司(HKEX: 1228)是一家全球生物製藥公司,在中國設有基地,致力於罕見疾病變革性療法的研究、開發和商業化。北海康成擁有差異化的藥物組合,包括3種獲批藥物和9種資產,針對需求未得到滿足且市場潛力巨大的流行罕見病適應症。這些疾病包括亨特綜合徵(粘多糖貯積症 II 型)和其他溶酶體貯積症、補體介導的疾病、A型血友病、代謝性疾病、罕見的膽汁淤積性肝病和神經肌肉疾病。北海康成下一代創新和工藝開發基金正在開發新型、可能具有治療作用的基因療法,用於罕見遺傳病,包括龐貝病、法布里病、脊髓性肌萎縮症(SMA)、杜興氏肌肉萎縮症(DMD)和其他神經肌肉疾病,並與世界領先的研究人員和生物技術公司合作。北海康成全球合作伙伴包括:Apogenix、GC Biopharma、Mirum Pharma、藥明生物製劑、普利沃斯生物製藥、麻省大學陳醫學院、華盛頓大學醫學院和Scriptr Global。
For more on CANbridge Pharmaceuticals Inc., please go to: www.canbridgepharma.com.
有關北海康成製藥公司的更多信息,請訪問: canbridgepharma.com.
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