On October 16, 2020 Myriad Genetics, Inc. (NASDAQ: MYGN), a global leader in molecular diagnostics and precision medicine, reported that the German Federal Joint Committee (G-BA) has successfully completed the method evaluation assessment for the EndoPredict breast cancer prognostic test (Press release, Myriad Genetics, OCT 16, 2020, https://investor.myriad.com/news-releases/news-release-details/german-federal-joint-committee-g-ba-issues-nationwide [SID1234568554]). The positive decision means that EndoPredict can be made available to all patients with statutory health insurance in Germany as a benefit of the statutory health insurance scheme.

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EndoPredict is a second-generation biomarker test used to determine the risk of recurrence in patients with early-stage breast cancer (ER+/HER2-). The genomic test helps patients and physicians jointly decide for, or against, chemotherapy when uncertainties exist in the assessment of the expected benefit of chemotherapy.

"This decision (by G-BA) makes it possible for a biomarker test to be carried out quickly in Germany, providing more certainty with the difficult decisions relating to the pros and cons of chemotherapy," says Univ Prof. Dr. Marion Kiechle, Director of the Gynaecological Clinic of the University Hospital Rechts der Isar of the TU Munich.

Every year, approximately 70,000 women in Germany are diagnosed with early-stage, breast cancer. For up to 20,000 of these patients, clinical-pathological criteria alone are not sufficient to confidently make chemotherapy treatment decisions. The Federal Joint Committee supports the use of biomarkers, now including EndoPredict, to identify those patients who will likely benefit from chemotherapy treatment.

EndoPredict has been part of the recommendations of the leading national (AGO, S3) and international (St.Gallen, ESMO (Free ESMO Whitepaper), ASCO (Free ASCO Whitepaper) and NCCN) guidelines for many years and is already available to affected women in public health systems in France, England, Italy, Spain, Switzerland and Austria.

"We are pleased to make EndoPredict broadly available to gynecologists and pathologists in Germany within the framework of the GKV," said Raymond Francot, executive vice president of Myriad International. "This decision expands access to critical, life-changing insights for patients and their providers, and adds valuable information to aid in personalized treatment selection."

About EndoPredict
EndoPredict is a second-generation, 12-gene molecular prognostic test for patients diagnosed with breast cancer. The test provides vital information that helps clinicians devise personalized treatment plans for their patients. EndoPredict has been validated in more than 4,000 patients with node-negative and node-positive cancer and has been used clinically in more than 30,000 patients. In contrast to first-generation multigene prognostic tests, EndoPredict detects the likelihood of late metastases (i.e., metastasis formation after more than five years) and, therefore, can guide treatment decisions regarding the need for chemotherapy, as well as extended anti-hormonal therapy. Accordingly, therapy decisions backed by EndoPredict confer a high level of diagnostic safety. For more information, please visit: View Source

On October 15, 2020 Plus Therapeutics, Inc. (Nasdaq: PSTV) (the "Company"), reported that it has been invited to participate in the Cancer Innovation Summit (Press release, PLUS THERAPEUTICS, OCT 15, 2020, View Source [SID1234572293]). The meeting, which is hosted by Health Tech Austin, is being held virtually on Thursday, October 22 from 12.00 to 3.00 p.m. EDT.

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Gregory Stein, M.D., Senior Vice President of Clinical Development at Plus Therapeutics will present as part of the Cancer Drug Showcase, which features novel cancer technologies from across the industry.

Register for the meeting webcast here: View Source

The Cancer Innovation Summit brings together thought leaders and innovators to share knowledge, experience, research and insights about cancer innovation.

On October 15, 2020 Emergent BioSolutions Inc. (NYSE: EBS) reported that it will host a conference call on Thursday, November 5, 2020 at 5:00 pm (Eastern Time) to discuss the financial results for the third quarter of 2020, recent business developments, revenue guidance for the fourth quarter of 2020, and financial outlook for full year 2020 (Press release, Emergent BioSolutions, OCT 15, 2020, View Source [SID1234569796]).

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This conference call can be accessed live by telephone or by webcast:

Live Teleconference Information:
Dial in number: (855) 766-6521
International dial in number: (262) 912-6157
Conference ID: 3549944

Live Webcast Information:
Visit View Source for the live webcast feed.

A replay of the call can be accessed on Emergent’s website emergentbiosolutions.com under "Investors."

On October 15, 2020 Checkmate Pharmaceuticals, Inc. (NASDAQ: CMPI) ("Checkmate"), a clinical stage biotechnology company focused on developing proprietary technology to harness the power of the immune system to combat cancer, reported new data presentations evaluating CMP-001, Checkmate’s Toll-like receptor 9 (TLR9) agonist, at The Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper) 35th Anniversary Annual Meeting to be held virtually November 9-14, 2020 (Press release, Checkmate Pharmaceuticals, OCT 15, 2020, View Source [SID1234568689]).

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The abstracts for these presentations appeared briefly on the SITC (Free SITC Whitepaper) website in error prior to their intended release on November 9, 2020, and as a result are provided in full below.

"These data continue to demonstrate the compelling clinical activity and manageable safety profile of CMP-001 in combination with anti-PD-1 antibodies in patients with melanoma," said Dr. James Wooldridge, Chief Medical Officer at Checkmate Pharmaceuticals. "Of particular note, we are encouraged by the maturing results in the neoadjuvant study that will be presented by Dr. Davar, including a pathological response rate (pCR, pMR, pPR) of 70%, and a 1-year relapse-free survival of 82%, which trended higher in patients achieving a pathological response."

Presentation Details (presented without modification below):

Title: Intratumoral injection of CMP-001, a Toll-like receptor 9 (TLR9) agonist, in combination with pembrolizumab reversed programmed death receptor 1 (PD-1) blockade resistance in advanced melanoma

Presenting Author: Mohammed Milhem

Abstract #: 579

Location: Virtual Poster Hall November 11-14, 9:00am – 5:00pm ET

Full abstract:

Background: Therapeutic options are limited for patients with advanced melanoma that is refractory to PD-1 blockade. This study was performed in this patient population to assess the safety and antitumor activity of CMP-001, a CpG-A TLR9 agonist packaged within a virus-like particle.

Methods: Patients were eligible for this 2-part, open-label, multicenter, phase 1b study if they had metastatic/unresectable melanoma and stable disease after ³12 weeks or progressive disease (PD) on/after anti-PD-1 therapy. Part 1 evaluated CMP-001 plus pembrolizumab dose-escalation and dose-expansion. Part 2 evaluated CMP-001 monotherapy. Accessible lesion(s) were injected intratumorally with CMP-001, at a polysorbate 20 (PS20) concentration of either 0.01% or 0.00167%. The Part 1 primary objective was to identify the recommended phase 2 dose (RP2D) and schedule of CMP-001 plus pembrolizumab, while the Part 2 primary objective was to assess the safety of CMP-001 monotherapy. Secondary objectives for both parts were a preliminary assessment of antitumor activity of CMP-001 plus pembrolizumab and CMP-001 monotherapy, and the overall safety profile and pharmacodynamics of the combination.

Results: In Part 1 (N=159) and Part 2 (N=40), 93.1% and 80.0% of patients had PD as their last response to prior anti–PD-1 therapy, respectively. The most common treatment-related adverse events (TRAEs; >25%) were flu-like symptoms (Parts 1 and 2) and injection-site reactions (Part 1). Grade 3/4 TRAEs were reported in 36.5% (Part 1) and 22.5% (Part 2) of patients, the most common being hypotension (Part 1: 6.9%; Part 2: 5.0%). No Grade 5 TRAEs were observed.

In Part 1, the best objective response rate (ORR; RECIST v1.1) in patients treated with pembrolizumab and CMP-001 (PS20 0.01%) was 23.5% (23/98), while CMP-001 PS20 (0.00167%) resulted in a lower ORR of 11.5% (7/61). Seven additional patients had a delayed response after initial PD (Table). The median duration of response was >1 year. In the 37 RECIST v1.1 and post-progression responders, the mean regression in injected and noninjected target lesions was 54.7% and 52.7%, respectively. In Part 2, the best ORR with CMP-001 monotherapy was 17.5% (7/40 patients); the response duration was shorter than in Part 1. Intratumoral CMP-001 PS20 0.01% 10 mg was selected as the RP2D.

Conclusion: Intratumoral CMP-001 was well-tolerated and provided both local and distant responses in patients with advanced melanoma with disease progression on prior PD-1 blockade. CMP-001 monotherapy induced systemic tumor regression in some patients, but duration of response was substantially increased by the addition of pembrolizumab.

Title: Phase II Trial of Neoadjuvant Nivolumab (Nivo) and Intra-Tumoral (IT) CMP-001 in High-Risk Resectable Melanoma (Neo-C-Nivo) Presenting Author: Diwakar Davar

Abstract #: 612

Location: Virtual Oral Presentation November 11, 5:30 – 6:30pm ET

Full Abstract:

Background: Neoadjuvant PD-1 blockade produces major pathological responses (MPR) in ~30% of patients (pts) with high-risk resectable melanoma

(MEL) with durable relapse-free benefit, and increased circulating activated CD8+ T cells [1,2]. CMP-001 is a type A CpG packaged within a virus-like particle that activates tumor-associated plasmacytoid dendritic cells (pDC) via TLR9 inducing type I interferons and anti-tumor CD8+ T cells. CMP-001/pembrolizumab produces durable anti-tumor responses in PD-1 refractory melanoma [3]. We previously reported preliminary evidence of efficacy of neoadjuvant IT CMP/Nivo in high-risk resectable MEL; and herein present final results on 30 evaluable patients.

Methods: 30 pts with stage III B/C/D MEL were enrolled. Pre-operatively, CMP-001 was dosed at 5mg subcutaneous (SC, 1st), then 10mg IT (2nd-7th) weekly; and Nivo was dosed 240mg q2weeks for 3 doses – both over a 7-week period. Post-operatively, Nivo was dosed 480mg q4weeks with CMP-001 5mg q4 weeks SC for 48 weeks. Primary endpoints included major pathologic response (MPR) rate, and incidence of dose-limiting toxicities (DLT). Secondary endpoints were radiographic response, relapse-free survival (RFS) and overall survival (OS). Pathological response was scored by blinded pathologist based on residual volume of tumor (RVT) using prior cutoffs [4-6]: 0% (complete response, pCR); 0%50% (non-response, pNR). Radiographic response was assessed using RECIST v1.1. Sequential blood draws and tumor biopsies were collected and analyzed for CD8+ T cell infiltrate (TIL), multiparameter flow cytometry (MFC) and multiplex immunofluorescence (mIF).

Results: 30 pts with advanced MEL were enrolled, and staged as: IIIB (57%), IIIC (37%), IIID (7%). 29/30 (97%) of pts completed 7 weeks of neoadjuvant Nivo/CMP; while 1 pt had a delay in surgery related to a pre-operative infection unrelated to therapy. No DLTs were reported; although grade 3/4 irAE were reported in 3 pts (11%) leading to CMP-001 discontinuation in 2 pts (7%). Radiographic responses seen in 13 pts (43%), while 9 pts (30%) had stable disease and 8 pts (27%) had progressive disease. Pathological responses (RVT <50%) were seen in 70% of pts: pCR 15 (50%), pMR 3 (10%), 3 pPR (10%); while 9 (30%) had pNR. Pathological responders (pCR/pMR) had increased CD8+ TIL and CD303+ pDC intra-tumorally by mIF; and activated PD1+/Ki67+ CD8+ T cells by MFC peripherally.

Conclusions: Neoadjuvant CMP/Nivo has an acceptable toxicity profile and promising efficacy. MPR rate is 60% in 30 pts. 1-year RFS was 82% (all pts) and 89% (pCR/pMR); and median RFS is 9 months (pNR/pPR) and unreached (pCR/pMR). Response is associated with evidence of immune activation intra-tumorally and peripherally. IT CMP001 together increases clinical efficacy of PD-1 blockade alone with minimal additional toxicity in neoadjuvant MEL.

Title: Intravenous CMP-001, a CpG-A Toll-like receptor 9 (TLR9) agonist delivered via a virus-like particle, causes tumor regression in syngeneic Hepa1-6 mouse models of hepatocellular carcinoma

Presenting Author: Arthur M. Krieg

Abstract #: 418

Location: Virtual Poster Hall November 11-14, 9:00am – 5:00pm ET

Full Abstract:

Background: Therapeutic options are limited for patients with liver metastases and hepatocellular carcinoma (HCC). Intratumoral and subcutaneous injections of CMP-001, a CpG-A TLR9 agonist packaged within a virus-like particle, have shown evidence of antitumor activity in patients with melanoma refractory to PD-1 blockade. In mice, CMP-001 intravenous distributes primarily to the liver, while CMP-001 subcutaneous is found mostly in local tissues and draining lymph nodes. The antitumor activity of CMP-001 intravenous and subcutaneous were compared with PD-1 blockade or sorafenib in two Hepa1-6 orthotopic mouse models of HCC.

Methods: Groups of 10-15 C57BL/6J mice were orthotopically implanted with syngeneic murine hepatoma cells using two different models. Model 1 used 1.5 x 106 Hepa1-6 cells injected into the spleen following a partial hepatectomy; Model 2 used 1 x 106 Hepa1-6-Luc cells injected into the upper left lobe of intact liver. Treatment was initiated 3-7 days later with either CMP-001 intravenous or subcutaneous Q4-5Dx3-4 doses, PD-1 blocking antibody intraperitoneal Q3-4Dx2 (Bio X Cell clone RPM1-14), or sorafenib QD oral. Antitumor activity was assessed by tumor imaging, liver weight, and/or survival.

Results: CMP-001 was compared with PD-1 blocking antibody therapy in Model 1, the more aggressive model. All animals were sacrificed at day 15 due to institutional welfare requirements. Tumor growth inhibition (TGI) was assessed by comparison of liver weight to body weight ratios, which relative to untreated control mice showed that CMP-001 intravenous achieved 85% mean TGI compared with 63% mean TGI for CMP-001 subcutaneous and 15% mean TGI for PD-1 blocking antibody intraperitoneal (Table 1). CMP-001 intravenous was compared to sorafenib oral in Model 2, which utilized an engineered Hepa1-6 cell line that expresses luciferase to enable noninvasive monitoring of liver tumor growth. CMP-001 intravenous was active, with a 67% mean TGI, and survival that was comparable to sorafenib (Table 2; Figure 1).

Conclusion: In orthotopic mouse models of HCC, the antitumor activity of CMP-001 intravenous was greater than PD-1 blockade and comparable to sorafenib. CMP-001 intravenous was more active than CMP-001 subcutaneous in this model, which we hypothesize is due to increased liver exposure with intravenous infusion. Antitumor activity of CMP-001 monotherapy may be increased by combining it with standard of care or other therapies, as observed relative to historical benchmarks in ongoing CMP-001 clinical trials in patients with melanoma. CMP-001 intravenous may be a promising treatment option for patients with primary or metastatic liver cancers.

About CMP-001

CMP-001 comprises a virus-like particle utilizing a CpG-A oligonucleotide. It is designed to trigger the body’s innate immune system via TLR9 and infiltrate the tumor microenvironment by the subsequent induction of both innate and adaptive anti-tumor immune responses. Checkmate believes CMP-001 is the only compound utilizing a CpG-A class TLR9 agonist in clinical development. For information on CMP-001 trials that are currently recruiting patients, please visit www.clinicaltrials.gov.

On October 15, 2020 The Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC – James) and the Ohio State College of Pharmacy reported that have been awarded a five-year, $7 million competitive Program Project Grant (PPG) renewal from the National Cancer Institute (NCI) (Press release, The Ohio State University, OCT 15, 2020, View Source [SID1234568604]).

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This multidisciplinary project grant represents the only PPG funded by the NCI in the nation led by a pharmacy investigator and will allow teams at Ohio State, the University of Illinois – Chicago and University of North Carolina – Greensboro to continue investigating potential anticancer drug leads based on compounds from tropical plants, coastal lichens, cultured cyanobacteria and filamentous fungi.

The grant renewal extends through 2025 and is led by principal investigator A. Douglas Kinghorn, PhD, DSc, professor and Jack L. Beal Chair of the Division of Medicinal Chemistry and Pharmacognosy at the College of Pharmacy. He is also a member of the OSUCCC – James Molecular Carcinogenesis and Chemoprevention Program.

"We are so appreciative of this renewed funding. It will enable us to continue our momentum of discovery in the lab, including further investigation of natural products identified as having potential for anticancer activity," says Kinghorn, noting that, since the grant’s initial funding in 2007, more than 180 peer-reviewed research and review articles have been published based on findings from the three collaborating institutions.

The grant is organized around three projects and three cores:

Project 1 – Isolation Chemistry of Tropical Plants and Biological Evaluation

(Ohio State; Project Leader, Dr. A. Douglas Kinghorn)

Project 1 involves the isolation chemistry of bioactive tropical plants to be collected by Project 2 (see below), inclusive of extraction, dereplication, compound purification, structure elucidation and scale-up isolation stages. More recently, work has begun in screening U.S. coastal lichens and their fungal mycobionts (Dr. H. Liva Rakotondraibe). Biological screening is offered for Projects 1-3 using a selection of secondary cell-based and mechanism-based assays (Drs. Esperanza J. Carcache de Blanco and Jack C. Yalowich)

Project 2 – Isolation Chemistry of Cultured Cyanobacteria and Plant Acquisition

(UIC; Project Leader, Dr. Jimmy Orjala)

Project 2 entails cyanobacterial collection, culturing, genomic evaluation (Dr. Alessandra Eustaquio), extraction and dereplication, as well as plant collections from tropical rainforests (Dr. Djaja D. Soejarto). Extracts from the plants are further investigated in Project 1.

Project 3 – Isolation Chemistry of Filamentous Fungi and Biological Evaluation

(UNCG; Project Leader, Dr. Nicholas H. Oberlies)

Project 3 works on new lead compounds from fungi obtained from Mycosynthetix, Inc. (Hillsborough, NC; CEO/CSO Dr. Cedric J. Pearce), and comprises culturing, extraction, dereplication, compound purification, structure elucidation, scale-up isolation/yield optimization and biosynthetic manipulation. Some biological testing is carried out at Columbia University as part of Project 3 (Dr. Brent R. Stockwell).

Core A – Administrative and Biostatistics Core

(Ohio State; Core Director, Dr. A. Douglas Kinghorn)

Core A carries out overall administrative functions (aided by Dr. Amanda S. MacFarlane) and offers biostatistics support (directed by Dr. Xiaoli Zhang) to Projects 1-3 and Cores A, 1 and 2.

Core 1 – Biological Correlation and Analysis Core

(UIC; Core Director, Dr. Joanna E. Burdette, assisted by Dr. Leslie Aldrich)

Core 1 provides in vitro testing (screening assays using a small cancer cell line panel; HDAC and proteasome inhibition assays) for samples submitted by Projects 1-3. Promising compounds are evaluated mechanistically and evaluated in mouse hollow fiber and xenograft bioassays

Core 2 – Medicinal Chemistry and Pharmacokinetics Core

(Ohio State; Core Director, Dr. James R. Fuchs)

Core 2 conducts medicinal chemistry (synthesis/analogue development, SAR evaluation) and pharmacokinetic-related functions (e.g., solubility, stability, formulation, metabolism, protein binding; supervised by Dr. Mitch A. Phelps and aided by Dr. Chris Coss) for selected compounds of promise from Projects 1-3.

"Our faculty are working tirelessly to advance drug discovery for some of the most pressing medical problems. The work that Dr. Kinghorn and his team have done for the past 13 years is representative of this," says Henry Mann, PharmD, FCCP, FCCM, FASHP, dean and professor of the College of Pharmacy.

"In addition, this grant provides a tremendous continued opportunity to train a future generation of scientists," says Cynthia Carnes, PharmD, PhD, senior associate dean of research and graduate studies at the College of Pharmacy.

Co-investigators from the Ohio State College of Pharmacy include: Esperanza Carcache de Blanco, PhD; Christopher Coss, PhD; James Fuchs, PhD; Mitch Phelps, PhD; H. Liva Rakotondraibe, PhD; and Jack Yalowich, PhD.