On June 10, 2022 Curis, Inc. (NASDAQ: CRIS), a biotechnology company focused on the development of innovative therapeutics for the treatment of cancer, reported the presentation of novel findings on biomarker development for IRAK4 inhibitor emavusertib, collaborative work from the University of Florida in primary CNS lymphoma (pCNSL), and clinical data from the TakeAim Leukemia and TakeAim Lymphoma studies at the 2022 European Hematology Association (EHA) (Free EHA Whitepaper) Hybrid Congress currently taking place in Vienna, Austria and online until June 12, 2022 (Press release, Curis, JUN 10, 2022, View Source [SID1234615866]).

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"We are delighted to share with our colleagues in Europe our findings regarding IRAK4’s previously undescribed localization in the nucleus of cancer cells. It appears that when IRAK4 is found in the nucleus with active NF-kB proteins p50 and p65, using a technique which we refer to as ‘triple staining,’ this triple nuclear presence is associated with better responses to emavusertib," said James Dentzer, President and Chief Executive Officer of Curis.

"Also at EHA (Free EHA Whitepaper) this year, collaborative work by Dr. Duane Mitchell’s team at the University of Florida is being presented on the potential role of emavusertib in treating pCNSL, including data on one patient who achieved a complete response following previous treatment with ibrutinib," Mr. Dentzer continued. "And finally, in addition to this foundational work on IRAK4 biology, we are presenting data from our TakeAim Lymphoma and TakeAim Leukemia studies as we continue to spread the word on IRAK4 and the utility of inhibiting this important target to our European colleagues."

Curis scientists have discovered previously unknown nuclear accumulation of IRAK4 selectively in acute myeloid leukemia (AML) cells whereas nuclear IRAK4 was not detectable in mature myeloid cells (#2609). IRAK4 nuclear accumulation is significantly correlated with NF-kB activation in bone marrow samples from de novo AML patients and in AML cell lines. The detection of IRAK4 and NF-kB (phospho-p50 and phospho-p65) using nuclear staining of blasts in AML bone marrow samples was defined as ‘triple-positive,’ and patients whose cells did not stain for the nuclear presence of any of the three markers were termed ‘triple-negative.’ Treatment with emavusertib led to a significant decrease in bone marrow blast count in AML patients whose bone marrow sample was triple-positive, whereas no significant decrease in bone marrow blast count was detected in triple-negative cases. The goal of the Company’s biomarker work is to develop a companion diagnostic for emavusertib that is broadly applicable and is intended to identify the patients most likely to benefit from emavusertib treatment.

Research from Curis collaborators at the University of Florida in pCNSL (#2715) show that, in a patient treated on the TakeAim Lymphoma study in the combination arm following a previous ibrutinib containing regimen, the combination of emavusertib and ibrutinib resulted in a complete response. The team also observed that IRAK-4 and NF-kB proteins have elevated expression levels in human pCNSL. Further, in preclinical work, the team showed that emavusertib achieves therapeutically relevant concentrations in brain parenchyma and shows single-agent activity in an aggressive model of pCNSL.

Also presented at the EHA (Free EHA Whitepaper) meeting were previously presented data from the TakeAim Leukemia (#3975) and TakeAim Lymphoma (#3875) studies. TakeAim Leukemia is being orally presented, and TakeAim Lymphoma is the subject of a poster at the meeting. The data from these studies were also presented at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) meeting last week in Chicago.
About Emavusertib (CA-4948)
Emavusertib is an IRAK4 kinase inhibitor and IRAK4 plays an essential role in the toll-like receptor (TLR) and interleukin-1 receptor (IL-1R) signaling pathways, which are frequently dysregulated in patients with cancer. TLRs and the IL-1R family signal through the adaptor protein MYD88, which results in the assembly and activation of IRAK4, initiating a signaling cascade that induces cytokine and survival factor expression mediated by the NF-κB protein complex. Additionally, third parties have recently discovered that the long form of IRAK4 (IRAK4-L) is oncogenic and preferentially expressed in over half of patients with AML and MDS. The overexpression of IRAK4-L is believed to be driven by a variety of factors, including specific spliceosome mutation such as SF3B1 and U2AF1. In addition to inhibiting IRAK4, emavusertib was also designed to inhibit FLT3, a known oncologic driver, which may provide additional benefit in patients with AML and MDS.

About TakeAim Lymphoma
The TakeAim Lymphoma study (NCT03328078) is a Phase 1/2 open-label, dose escalation, dose expansion clinical trial investigating emavusertib as monotherapy and in combination with ibrutinib in patients with R/R hematologic malignancies, such as non-Hodgkins’s lymphoma and other B cell malignancies. After dose escalation in both monotherapy and combination therapy to determine the recommended Phase 2 dose (RP2D), we plan to expand four cohorts for combination treatment: marginal zone lymphoma, activated b-cell diffuse large b-cell lymphoma, primary CNS lymphoma, and patients developing adaptive resistance to ibrutinib monotherapy. The goals of the study are to determine several parameters including safety, maximum tolerated dose (MTD), RP2D and signals of activity.

About TakeAim Leukemia
The TakeAim Leukemia study (NCT04278768) is a Phase 1/2 dose escalation and dose expansion study examining emavusertib use as both monotherapy and in combination with azacitidine or venetoclax in patients with R/R AML or high risk MDS. After dose escalation in both monotherapy and combination therapy to determine the recommended Phase 2 dose, we plan to expand five cohorts: monotherapy in AML patients with spliceosome and FLT3 mutations, monotherapy in patients with MDS and spliceosome mutations and combination therapy with azacitidine or venetoclax in patients without spliceosome or FLT3 mutations. The goals of the study are to determine several parameters including safety, maximum tolerated dose (MTD), RP2D and signals of activity.