Abstract 4788: Discovery of HX035, an OX40-bi-epitope bi-specific antibody (BsAb), for the treatment of inflammatory/autoimmune diseases

表位 抗体 医学 双特异性抗体 免疫学 单克隆抗体 癌症研究
作者
Hang Ke,Tao Yang,Feiyu Peng,Jialing Li,Cen Chen,Peixuan Song,Lei Zhang,Faming Zhang,Henry Qixiang Li
出处
期刊:Cancer Research [American Association for Cancer Research]
卷期号:85 (8_Supplement_1): 4788-4788
标识
DOI:10.1158/1538-7445.am2025-4788
摘要

Abstract With hyperactive OX40+CD4+ T-cells implicated as the pathogenic cells in various inflammatory/autoimmune disorders, we hypothesized that OX40-antagonistic and/or depleting antibody are both important candidate therapeutics for these diseases. To test this hypothesis, we designed and tested a novel bi-specific antibody (BsAb), HX035 and a 1+1 asymmetric IgG1 mAb, against two different OX40 epitopes. Epitope-1 is featured with non-ligand blocking but strong ADCC (depleting antibody), while epitope-2 is characterized by ligand blocking and antagonistic activity. We found that HX035 binds to recombinant OX40 proteins with the similar binding affinity as the respective parental mAbs, with EC50 0.056 nM (avidity) as opposed to 0.027 nM (epitope 1-mAb) and 0.036 nM (epitope 2-mAb), respectively. Although the binding avidity of HX035 to OX40+ cells is similar to its parental mAbs, HX035 showed more binding to OX40lo and even more to OX40hi cells, as anticipated. HX035 is also an OX40 ligand blocker slightly less potency than the epitope 2-mAb (IC50 5.0 nM vs. 2.6 nM). HX035 also showed similar extent of antagonistic activity to epitope2-mAb in an in vitro reporter bioassay. Remarkably, HX035 induced significantly enhanced ADCC over both parental mAbs, making it a stronger depleting antibody than both parental mAbs. We have also further engineered an ADCC-enhanced (5 times stronger) HX035 molecule, so making it an even stronger depleting-antibody. A human PBMC acute graft-versus-host disease (aGVHD) mouse model indeed confirmed the superior anti-aGVHD activities of HX035, over both parental mAbs in the preclinical setting, accompanied with significant depletion of CD4+ T-cells in vivo. All these suggested that HX035 may be a potential “best-in-class” (FIC) candidate for the treatment of autoimmune diseases. Citation Format: Hang Ke, Tao Yang, Feiyu Peng, Jialing Li, Cen Chen, Peixuan Song, Lei Zhang, Faming Zhang, Henry Qixiang Li. Discovery of HX035, an OX40-bi-epitope bi-specific antibody (BsAb), for the treatment of inflammatory/autoimmune diseases [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 1 (Regular Abstracts); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_1):Abstract nr 4788.

科研通智能强力驱动
Strongly Powered by AbleSci AI
科研通是完全免费的文献互助平台,具备全网最快的应助速度,最高的求助完成率。 对每一个文献求助,科研通都将尽心尽力,给求助人一个满意的交代。
实时播报
风趣的鸡翅完成签到,获得积分10
刚刚
Leeee完成签到,获得积分10
1秒前
麻花阳完成签到,获得积分0
1秒前
Akim应助现代的书本采纳,获得10
1秒前
MST完成签到,获得积分10
2秒前
2秒前
陈某发布了新的文献求助10
3秒前
3秒前
酱紫完成签到,获得积分10
3秒前
七七完成签到,获得积分10
3秒前
今后应助lh采纳,获得10
3秒前
XYX完成签到,获得积分10
3秒前
lzj完成签到,获得积分10
3秒前
muliushang完成签到 ,获得积分10
4秒前
4秒前
SW冒险家完成签到 ,获得积分10
4秒前
健壮的书桃应助呆小仙采纳,获得30
5秒前
刘佳婷完成签到,获得积分10
5秒前
风和日丽发布了新的文献求助10
5秒前
郦稀完成签到,获得积分10
6秒前
情怀应助英吉利25采纳,获得10
6秒前
xxx完成签到,获得积分10
6秒前
木mu完成签到,获得积分10
7秒前
turtle85完成签到,获得积分10
7秒前
feisun发布了新的文献求助10
7秒前
Xx完成签到 ,获得积分10
7秒前
无极微光应助Frank采纳,获得20
8秒前
丘比特应助fuqingpei采纳,获得10
8秒前
张萌完成签到 ,获得积分10
8秒前
Www完成签到,获得积分10
8秒前
dduejrif完成签到 ,获得积分10
8秒前
bkagyin应助研小白采纳,获得10
9秒前
科研通AI6.2应助研小白采纳,获得10
9秒前
所所应助研小白采纳,获得10
9秒前
SciGPT应助研小白采纳,获得10
9秒前
科研通AI6.4应助研小白采纳,获得10
9秒前
隐形曼青应助研小白采纳,获得10
9秒前
9秒前
Jasper应助zh采纳,获得10
9秒前
英俊的铭应助研小白采纳,获得10
9秒前
高分求助中
Principles of Economics, 11th Edition 10000
University Physics with Modern Physics, 16th edition 10000
(应助此贴封号)【重要!!请各用户(尤其是新用户)详细阅读】【科研通的精品贴汇总】 10000
Arthritis and Related Conditions, An Issue of Orthopedic Clinics 1000
Development of a Bridge Weigh-In-Motion System: A technology to convert the bridge response to the passage of traffic into data on vehicle configurations, speeds, times of travel and weights 1000
ズームレンズの光学設計に関する研究 800
Fundamentals of Pharmaceutical and Biologics Regulations: A Global Perspective, Second Edition 700
热门求助领域 (近24小时)
化学 材料科学 医学 生物 纳米技术 工程类 有机化学 化学工程 生物化学 计算机科学 内科学 物理 复合材料 催化作用 细胞生物学 无机化学 光电子学 物理化学 电极 基因
热门帖子
关注 科研通微信公众号,转发送积分 7291510
求助须知:如何正确求助?哪些是违规求助? 8910474
关于积分的说明 18861054
捐赠科研通 6958835
什么是DOI,文献DOI怎么找? 3209339
关于科研通互助平台的介绍 2378998
邀请新用户注册赠送积分活动 2185193