Abstract LB118: Mechanisms underlying synergistic activity in MYD88MTDLBCL of KT-413, a targeted degrader of IRAK4 and IMiD substrate

C. Klaus, S. Rusin, K. Sharma, S. Bhaduri, M. Weiss, A. Mcdonald, M. Mayo, D. Walker, Rahul Karnik
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引用次数: 4

Abstract

Relapsed/refractory DLBCL remains an incurable disease, and single-agent therapies typically show low response rates and/or transient clinical responses. Oncogenic MYD88 mutations occur in ~25% of DLBCL and drive constitutive NFkB activation, promoting proliferation and survival. Despite its role in tumor biology, targeting MYD88MT by inhibiting or degrading IRAK4 alone, a key component of the MYD88 complex, does not drive significant antitumor activity in preclinical models. One potential reason is the frequent redundant NFkB pathway activation by co-mutations, highlighting the need for combination therapies to effectively target the NFkB pathway in DLBCL. To address this challenge, we have developed IRAKIMiDs, heterobifunctional degraders that simultaneously degrade both IRAK4 and IMiD substrates, as a rational therapeutic combination in a single molecule. IRAKIMiDs show increased antitumor activity in vitro and in vivo in MYD88MT cells as compared to IMiD or IRAK4-targeting alone, highlighting suggesting their potential as single agents in R/R DLBCL.Our lead IRAKIMiD, KT-413, is a potent degrader of IRAK4 (DC50 6nM) and IMiD substrates (Ikaros/Aiolos DC50 2nM), inducing rapid and potent cell killing in vitro and complete and sustained tumor regressions in vivo in MYD88MT models of DLBCL. This activity is superior to the IMiD CC-220, which has similar activity against IMiD substrates (Ikaros/Aiolos DC50 1 nM), supporting the synergistic role of IRAK4 degradation in the context of IMiD biology. We show here that the combined activity of these 2 mechanisms drives a synergistic effect on NFkB and IRF4 signaling with greater downstream effect on NFkB and type 1 interferon (IFN) signaling and cell cycle gene expression than either mechanism alone. In THP1 cells engineered with NFkB and IRF4 reporters, KT-413 but not CC-220 inhibits TLR-stimulated NFkB and IRF4 transcription, supporting a role for IRAK4 but not IMiDs in MYD88-driven survival and proliferation signals. IMiDs have previously been shown to modulate type1 IFN signaling through downregulation of IRF4. We propose that simultaneous targeting of both NFkB and type 1 IFN signaling with KT-413 drives synergistic cell killing in MYD88MT cells. In MYD88MT OCI-Ly10 cells, KT-413 leads to greater IRF4 downregulation, increased type 1 IFN signaling, and preferential downregulation of NFkB pathway and cell cycle transcripts when compared to CC-220. These data support the hypothesis that the synergistic activity of targeting IRAK4 and IMiD substrates by KT-413 in MYD88MT DLBCL is a result of dual targeting of NFkB and IRF4/Type1 IFN through degradation of both IRAK4 and IMiD substrates,driving significantly greater cell killing as compared to either mechanism alone, supporting the potential for the first single agent targeted therapy in MYD88MT DLBCL. KT-413 is on track for initiation of a Phase 1 trial in B cell lymphoma in 2H 2021. Citation Format: Christine R. Klaus, Scott F. Rusin, Kirti Sharma, Samyabrata Bhaduri, Matthew M. Weiss, Alice A. McDonald, Michele F. Mayo, Duncan Walker, Rahul Karnik. Mechanisms underlying synergistic activity in MYD88MTDLBCL of KT-413, a targeted degrader of IRAK4 and IMiD substrate [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr LB118.
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摘要LB118: IRAK4和IMiD底物靶向降解物KT-413在MYD88MTDLBCL中协同作用的机制
复发/难治性DLBCL仍然是一种无法治愈的疾病,单药治疗通常表现出低缓解率和/或短暂的临床反应。致瘤性MYD88突变发生在约25%的DLBCL中,并驱动构成性NFkB激活,促进增殖和生存。尽管MYD88MT在肿瘤生物学中发挥着重要作用,但在临床前模型中,通过抑制或降解MYD88复合物的关键成分IRAK4来靶向MYD88MT并没有显著的抗肿瘤活性。一个潜在的原因是NFkB通路通过共突变频繁激活,因此需要联合治疗来有效靶向DLBCL中的NFkB通路。为了应对这一挑战,我们开发了IRAKIMiDs,这是一种异质双功能降解剂,可以同时降解IRAK4和IMiD底物,作为一种合理的单分子治疗组合。与单独靶向IMiD或irak4相比,IRAKIMiDs在体外和体内对MYD88MT细胞显示出更高的抗肿瘤活性,突出表明它们作为R/R DLBCL的单一药物的潜力。我们的主要IRAKIMiD KT-413是IRAK4 (DC50 6nM)和IMiD底物(Ikaros/Aiolos DC50 2nM)的有效降解剂,在体外诱导快速有效的细胞杀伤,在MYD88MT DLBCL模型中诱导完全和持续的肿瘤消退。该活性优于IMiD CC-220,后者对IMiD底物(Ikaros/Aiolos DC50 1 nM)具有相似的活性,支持IRAK4在IMiD生物学背景下的协同降解作用。我们在这里表明,这两种机制的联合活性对NFkB和IRF4信号传导产生协同作用,对NFkB和1型干扰素(IFN)信号传导和细胞周期基因表达的下游影响比单独的任何一种机制都要大。在用NFkB和IRF4报告基因工程的THP1细胞中,KT-413而不是CC-220抑制tlr刺激的NFkB和IRF4转录,支持IRAK4而不是IMiDs在myd88驱动的存活和增殖信号中的作用。先前已证明IMiDs通过下调IRF4来调节1型IFN信号。我们提出,KT-413同时靶向NFkB和1型IFN信号可驱动MYD88MT细胞的协同细胞杀伤。在MYD88MT OCI-Ly10细胞中,与CC-220相比,KT-413导致更大的IRF4下调,1型IFN信号传导增加,NFkB通路和细胞周期转录物优先下调。这些数据支持了这样的假设,即在MYD88MT DLBCL中,KT-413靶向IRAK4和IMiD底物的协同活性是通过IRAK4和IMiD底物的降解双重靶向NFkB和IRF4/ 1型IFN的结果,与单独的任何一种机制相比,驱动更大的细胞杀伤,支持了MYD88MT DLBCL中首个单药靶向治疗的潜力。KT-413有望在2021年下半年启动B细胞淋巴瘤的1期临床试验。引文格式:Christine R. Klaus, Scott F. Rusin, Kirti Sharma, Samyabrata Bhaduri, Matthew M. Weiss, Alice A. McDonald, Michele F. Mayo, Duncan Walker, Rahul Karnik。KT-413 (IRAK4和IMiD底物的靶向降解物)在MYD88MTDLBCL中协同作用的机制[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):摘要nr LB118。
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