Arrowhead Pharmaceuticals Hosts R&D Day on Pipeline of RNAi Therapeutics

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Arrowhead Pharmaceuticals Hosts R&D Day on Pipeline of RNAi Therapeutics
Oct 16, 2018 at 12:01 PM EDT
PASADENA, Calif. --(BUSINESS WIRE)--Oct. 16, 2018-- Arrowhead Pharmaceuticals Inc. (NASDAQ: ARWR) is hosting a Research & Development (R&D) Day today in New York to discuss its emerging pipeline of RNAi therapeutics that leverage the Company’s proprietary Targeted RNAi Molecule (TRiM™) platform.
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PASADENA, Calif.--(BUSINESS WIRE)--Oct. 16, 2018-- Arrowhead Pharmaceuticals Inc. (NASDAQ: ARWR) is hosting a Research & Development (R&D) Day today in New York to discuss its emerging pipeline of RNAi therapeutics that leverage the Company’s proprietary Targeted RNAi Molecule (TRiM™) platform. In addition to senior members of the Arrowhead team, the R&D Day includes, Ira J. Goldberg, M.D., Bronfman Professor of Medicine, Chief of the Division of Endocrinology, Diabetes, and Metabolism, New York University Langone School of Medicine.

Presentations will begin at 1:00 p.m. EDT. A live and archived webcast of the event, with slides, may be accessed on the Events and Presentations page under the Investors section of the Arrowhead website.

Chris Anzalone, Ph.D., president and chief executive officer of Arrowhead Pharmaceuticals, said: “We have made great progress since we unveiled our proprietary TRiM™ platform just a year ago. Our first two candidates, ARO-AAT and ARO-HBV, have advanced into clinical studies with speed and precision and the initial data have been very promising. In addition, our ability to target extrahepatic tissues is expanding. This now includes lung, tumor, and today we will show initial data demonstrating good knockdown in multiple muscle types. With this validation and the forthcoming capital from the ARO-HBV partnership with Janssen, we confidently enter the next phase of rapid growth for Arrowhead. Looking forward, we expect to accomplish the following: file 2-3 new CTAs every year; target a new cell type with the TRiM™ platform every 18 months; and, have 10 TRiM™ enabled candidates in clinical studies by the end of 2020.”

Select R&D Day Highlights

ARO-APOC3

ARO-APOC3 is designed to reduce production of Apolipoprotein C-III (apoC-III), a component of triglyceride rich lipoproteins (TRLs) including very low density lipoprotein (VLDL) and chylomicrons and is a key regulator of triglyceride metabolism. The company believes that knocking down the hepatic production of apoC-III may result in enhanced triglyceride metabolism and clearance of VLDL and chylomicron remnants. Elevated triglyceride levels are an independent risk factor for cardiovascular disease. Severely elevated triglycerides (often over 2,000 mg/dL) in patients with familial chylomicronemia syndrome (FCS), a rare genetic disorder, can result in potentially fatal, acute pancreatitis. Arrowhead has conducted work in multiple preclinical models, including in transgenic mice, cynomolgus monkeys (cynos), and high fructose fed rhesus monkeys that suggest ARO-APOC3 strongly reduces the liver production of apoC-III and has a desired effect on serum triglyceride levels. The company will present additional data, including liver biopsy measurements in cynos, in an oral presentation at the American Heart Association (AHA) meeting on November 12, 2018. In addition, a CTA filing is planned for late 2018 to request approval to begin a Phase 1, single and multiple ascending dose study in heathy volunteers and in patients with elevated triglycerides.

ARO-ANG3

ARO-ANG3 is designed to reduce production of angiopoietin-like protein 3 (ANGPTL3), a liver synthesized inhibitor of lipoprotein lipase and endothelial lipase. ARO-ANG3 is being developed for the treatment of dyslipidemias and metabolic diseases. ANGPTL3 inhibition has been shown to lower serum LDL, serum and liver triglyceride and has genetic validation as a novel target for cardiovascular disease. In multiple animal models, ARO-ANG3 led to deep ANGPTL3 knockdown in both Western diet or chow-fed mice and significant improvements in lipid parameters. A CTA was recently filed to begin AROANG1001, a Phase 1 single and multiple dose study to evaluate the safety, tolerability, pharmacokinetics, and pharmacodynamic effect of ARO-ANG3 in adult healthy volunteers and dyslipidemic patients. The study is designed to enroll up to 70 subjects. Arrowhead will also present additional data at the AHA meeting on November 12, 2018.

Targeted RNAi Molecule Platform (TRiM™)

Arrowhead’s Targeted RNAi Molecule platform, or TRiM™, utilizes ligand-mediated delivery and is designed to enable multi-tissue targeting, while being structurally simple. TRiM™ represents an evolution in RNAi therapeutics from biologic complexity to small molecule precision and execution. It was designed to optimize potency, activity, durability, and safety. Important differentiators of the TRiM™ platform include:

TRiM™ platform demonstrates versatility for both hepatic and extrahepatic targets
Potency, activity, durability and safety
Speed and high success rates
Hepatocyte targets
Expertise in RNAi chemistry and biology
We have yet to encounter a hepatocyte gene that we could not knock down effectively and with a wide therapeutic index
Extrahepatic targets
Requires all TRiM™ platform modules to be fully optimized
Expertise in uncovering ligand/receptor pairs
Expertise in ligand designs to enable maximal uptake through endocytosis
Successful extrahepatic, systemic delivery of RNAi triggers via IV and subcutaneous administrations in ccRCC
Expanding extrahepatic capabilities to now include delivery to the lung, tumor, and muscle tissue
ARO-ENaC Gen 1

ARO-ENaC is designed to reduce production of the epithelial sodium channel alpha subunit (αENaC) in the airways of the lung. In cystic fibrosis patients, increased ENaC activity contributes to airway dehydration and reduced mucociliary transport. ENaC inhibitors promise a genotype-agnostic therapeutic approach for potentially all CF patients, including those with Class I mutations that produce no CFTR protein. Inhaled small molecule inhibitors transiently improve lung mucociliary clearance, but they are rapidly absorbed and systemic exposure results in renal ENaC inhibition and hyperkalemia. Inhalation of aerosolized ARO-ENaC Gen 1 selectively and durably silences ENaC mRNA expression in the rat lung while sparing the kidney. In addition, improved mucociliary clearance was observed in sheep two weeks after inhalation of aerosolized ARO-ENaC Gen 1. Work on a next-generation ARO-ENaC is focused on further increasing potency to produce in vivo clearance increases similar to short-acting small molecule ENaC inhibitors. A CTA is planned for ARO-ENaC in 2019. The platform may also be adapted to additional therapeutic targets in the pulmonary epithelium, particularly those that are currently inaccessible to traditional small molecule or antibody approaches.

ARO-HIF2

ARO-HIF2 is designed to inhibit the production of HIF2α, which has been linked to tumor progression and metastasis, for the treatment of clear cell renal cell carcinoma (ccRCC). Arrowhead believes it is an attractive target for intervention because most ccRCC tumors express a mutant form of the Von Hippel-Landau protein that is unable to degrade HIF-2α, leading to its accumulation during tumor hypoxia and promoting tumor growth. ARO-HIF2 has demonstrated effective tumor delivery and deep HIF2α mRNA knockdown in tumors. In addition, ARO-HIF2 led to inhibition of tumor growth and improved overall survival in tumor models. Initial rat exploratory toxicity studies predict that ARO-HIF2 may have a wide safety margin. Additional data is planned to be presented as a late-breaking poster at the EORTC/AACR/NCI symposium being held November 13-16, 2018. A CTA is planned for ARO-HIF2 in 2019.

About Arrowhead Pharmaceuticals

Arrowhead Pharmaceuticals develops medicines that treat intractable diseases by silencing the genes that cause them. Using a broad portfolio of RNA chemistries and efficient modes of delivery, Arrowhead therapies trigger the RNA interference mechanism to induce rapid, deep, and durable knockdown of target genes. RNA interference, or RNAi, is a mechanism present in living cells that inhibits the expression of a specific gene, thereby affecting the production of a specific protein. Arrowhead’s RNAi-based therapeutics leverage this natural pathway of gene silencing.

For more information, please visit www.arrowheadpharma.com, or follow us on Twitter @ArrowheadPharma. To be added to the Company's email list and receive news directly, please visit http://ir.arrowheadpharma.com/email-alerts.

Safe Harbor Statement under the Private Securities Litigation Reform Act:

This news release contains forward-looking statements within the meaning of the "safe harbor" provisions of the Private Securities Litigation Reform Act of 1995. These statements are based upon our current expectations and speak only as of the date hereof. Our actual results may differ materially and adversely from those expressed in any forward-looking statements as a result of various factors and uncertainties, including the safety and efficacy of our product candidates, the duration and impact of regulatory delays in our clinical programs, our ability to finance our operations, the likelihood and timing of the receipt of future milestone and licensing fees, the future success of our scientific studies, our ability to successfully develop and commercialize drug candidates, the timing for starting and completing clinical trials, rapid technological change in our markets, and the enforcement of our intellectual property rights. Our most recent Annual Report on Form 10-K and subsequent Quarterly Reports on Form 10-Q discuss some of the important risk factors that may affect our business, results of operations and financial condition. We assume no obligation to update or revise forward-looking statements to reflect new events or circumstances.

Source: Arrowhead Pharmaceuticals, Inc.

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2018年10月16日,美国东部时间中午的12点
加州帕萨迪纳市——(业务线)——10月。 2018——箭头制药有限公司(纳斯达克:ARWR)将主办一次研发(R&D)今天在纽约讨论其新兴管道RNAi疗法,利用公司的专有目标RNAi分子(修剪™)平台。
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加州帕萨迪纳市。——(业务线)——10月。 16日,2018年,箭头制药公司。(纳斯达克:ARWR)举办一个研究& 今天开发(R&D)纽约讨论其新兴管道 RNAi疗法,利用公司的专有的目标 RNAi分子(修剪™)平台。 除了高级成员 箭头的团队,包括研发一天,爱尔兰共和军j·戈德堡,医学博士 ,布朗 首席的医学教授的内分泌学、糖尿病、 和新陈代谢,纽约大学兰贡医学学校。

演讲将在一点。。 生活和归档网络直播 使用幻灯片,事件可能被访问的事件 和演示页面下投资者的箭头 的网站。

克里斯Anzalone博士,总裁和首席执行官箭头制药说:“我们已经取得了很大的进步,因为我们 公布我们的专有修剪™平台仅仅一年前。 我们的前两个 候选人,ARO-AAT ARO-HBV,拥有先进的临床研究 速度和精度和初始数据已经非常有前途。 此外,我们目标肝外组织扩张的能力。 现在包括肺癌、肿瘤,今天我们将显示初始数据 展示良好的击倒在多个肌肉类型。 用这个 验证和即将到来的资本从ARO-HBV伙伴关系 詹森,我们自信地进入下一个阶段的快速增长 箭头。 展望未来,我们希望实现以下:文件 每年2 - 3新商品交易顾问基金; 目标的新的细胞类型修剪™平台 每18个月; ,有10个修剪™启用候选人在临床 研究在2020年底。”

选择研发天亮点

ARO-APOC3

ARO-APOC3载脂蛋白C-III旨在减少生产 (apoC-III)的一个组成部分,丰富甘油三酯脂蛋白(trl) 包括极低密度脂蛋白(VLDL)和乳糜微粒,是 甘油三酯代谢的主要监管机构。 该公司认为, 推倒apoC-III可能导致的肝生产增强 甘油三酯代谢和清除VLDL和乳糜微粒的残骸。 高血脂的人是一个独立的危险因素 心血管疾病。 严重高甘油三酯(通常是结束了 2000 mg / dL)家族chylomicronemia综合症患者(FCS) 罕见的遗传性疾病,会导致可能致命的严重 胰腺炎。 箭头在多个临床前已经进行的工作 在转基因小鼠模型,包括,猕猴(cynos) 高果糖喂食猕猴表明ARO-APOC3强烈降低 肝脏生产apoC-III和血清有预期的效果 甘油三酸酯水平。 该公司将提供额外的数据,包括 肝活检在cynos测量,一个口头报告美国心脏协会(哈哈)会议2018年11月12日。 在 此外,CTA申请计划在2018年底请求批准 开始第一阶段,单个和多个提升剂量在石南的学习 志愿者和患者的甘油三酯升高。

ARO-ANG3

ARO-ANG3旨在减少生产angiopoietin-like蛋白质3 (ANGPTL3)、脂蛋白脂酶和肝合成抑制剂 内皮脂肪酶。 ARO-ANG3正在开发的治疗 血脂异常和代谢疾病。 ANGPTL3抑制已被证明 降低血清低密度脂蛋白,血清和肝脏甘油三酯和遗传 验证作为心血管疾病的新目标。 在多个 动物模型,ARO-ANG3导致深ANGPTL3击倒在西方 饮食或chow-fed老鼠和显著改善脂质参数。 CTA最近开始AROANG1001提起,阶段1单 多个剂量研究来评估安全,耐受性, 药物动力学和药效学的影响ARO-ANG3成人 健康的志愿者和dyslipidemic患者。 这项研究的目的是 招收70名受试者。 箭头还将提供额外的数据 美国心脏协会会议上2018年11月12日。

有针对性的RNAi分子平台(修剪™)

箭头的RNAi分子目标平台,或削减™,利用 ligand-mediated交付和旨在使multi-tissue 目标,同时结构简单。 修剪™是一个 从生物进化RNAi疗法小的复杂性 分子精度和执行。 它旨在优化能力, 活动、耐久性和安全性。 修剪™的重要差异 平台包括:

演示了多功能性肝和修剪™平台 肝外的目标
力量、活动、耐久性和安全性
速度和成功率高
肝细胞的目标
RNAi化学和生物学方面的专长
我们还没有遇到一个肝细胞的基因,我们可以不敲门 有效和广泛的治疗指数
肝外的目标
要求所有削减™平台模块充分优化
专业知识发现配体/受体对
专业知识在配体的设计使最大吸收 内吞作用
成功的肝外,系统性的RNAi触发器通过静脉和交付 在ccRCC皮下政府
现在包括交付到肝外扩张能力 肺、肿瘤和肌肉组织
ARO-ENaC创1

ARO-ENaC旨在降低生产的上皮钠 通道α亚基(αENaC)航空公司的肺。 在囊性 纤维化的病人,即活动增加导致气道 脱水和降低黏膜纤毛的运输。 博抑制剂承诺 genotype-agnostic可能所有CF患者,治疗方法 包括那些类我CFTR突变无检测蛋白质。 吸入小分子抑制剂是暂时性改善肺黏膜纤毛的 间隙,但他们正在迅速吸收和系统性接触的结果 在肾钠抑制和血钾过高。 雾化吸入的 ARO-ENaC创1选择性经久地沉默ENaC mRNA表达 河鼠肺,同时保留肾脏。 此外,改善黏膜纤毛的 间隙是羊吸入两周后观察 雾化ARO-ENaC创1。 在下一代ARO-ENaC工作 专注于进一步增加体内效力产生间隙 增加类似于短效小分子ENaC抑制剂。 一个CTA 计划在2019年ARO-ENaC。 这个平台也可以适应 额外的治疗靶点的肺上皮细胞,特别是 那些传统的小分子或目前无法访问 抗体的方法。

ARO-HIF2

ARO-HIF2旨在抑制HIF2α的生产,一直 与肿瘤进展和转移,治疗明显 细胞肾细胞癌(ccRCC)。 箭头认为这是一个 有吸引力的目标干预,因为大多数ccRCC肿瘤表达 冯的突变形式Hippel-Landau蛋白质无法降解 HIF-2α,导致其积累在肿瘤组织缺氧和促进 肿瘤的生长。 交付和ARO-HIF2已经证明有效的肿瘤 深HIF2αmRNA击倒在肿瘤。 此外,ARO-HIF2导致 抑制肿瘤的生长和提高总生存期的肿瘤 模型。 初步预测,ARO-HIF2鼠毒性探索性研究 可能有一个广泛的安全裕度。 额外的数据计划 作为最新的海报EORTC / AACR / NCI研讨会 被关押2018年11月13 - 16,。 CTA是计划在2019年ARO-HIF2。

关于箭头制药

箭头制药开发药物,治疗棘手 引起疾病的基因沉默。 使用广泛的投资组合 RNA的化学反应和高效的方式交付,箭头疗法 触发RNA干扰机制诱导迅速,深, 耐用击倒目标基因。 RNA干扰、RNAi是a 机制存在于活细胞的表达有抑制作用 特定的基因,从而影响生产的一个特定的蛋白质。 箭头的RNAi-based疗法利用这个自然的途径 基因沉默。

有关更多信息,请访问www.arrowheadpharma.com, 或者在Twitter上关注我们@ArrowheadPharma。 添加到该公司的直接邮件列表和接收消息, 请访问http://ir.arrowheadpharma.com/email-alerts。

安全港声明下私人证券诉讼改革 行为:

本新闻稿中包含前瞻性陈述内 意义的“安全港”规定私人证券 诉讼改革法案1995。 这些报表是基于我们的 当前的预期,只讲的日期。 我们的实际 结果可能在任何物质和负面的表达不同 由于各种因素和前瞻性的语句 不确定性,包括我们产品的安全性和有效性 候选人,监管延迟的时间和影响我们的临床 项目,我们财务业务的能力,和可能性 时间未来的里程碑和许可费用的收据,未来 我们科学研究的成功,我们成功开发的能力 和商业化药物候选人,开始和时机 完成临床试验,快速的技术变化在我们的市场, 和我们的知识产权执法。 我们最近 年度报告形式10 - 10 - k和随后的季度报告形式 讨论一些重要的危险因素,可能会影响我们的业务, 业务和财务状况的结果。 我们假设没有义务 更新或修订前瞻性陈述,以反映新的事件或 环境。

来源:箭头制药有限公司

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Targeted RNAi Molecule (TRiM™) platform