On June 6, 2019 Magenta Therapeutics (NASDAQ: MGTA), a clinical-stage biotechnology company developing novel medicines to bring the curative power of stem cell transplant to more patients, reported that the Company is scheduled to present at the Goldman Sachs Global Healthcare Conference on June 11, 2019 at 2:40 p.m. PT/5:40 p.m. ET at the Terranea Resort in Rancho Palos Verdes, Calif (Press release, Magenta Therapeutics, JUN 6, 2019, View Source [SID1234536941]).

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A live webcast of the presentation can be accessed under "Events & Presentations" in the Investors and Media section of the Company’s website at www.magentatx.com. A replay of the webcast will be archived on the Magenta website for 60 days following each presentation.

On June 6, 2019 Insmed Incorporated (Nasdaq:INSM), a global biopharmaceutical company on a mission to transform the lives of patients with serious and rare diseases, reported that Will Lewis, Chairman and Chief Executive Officer of Insmed, will present at the Goldman Sachs 40th Annual Global Healthcare Conference in Rancho Palos Verdes on Thursday, June 13, 2019 at 8:00 a.m. PDT (Press release, Insmed, JUN 6, 2019, View Source [SID1234536938]).

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The presentation will be webcast live and can be accessed by visiting the investor relations section of the company’s website at www.insmed.com. The webcast will be archived for a period of 30 days following the conclusion of the live event.

On June 6, 2019 SillaJen, Inc., (KOSDAQ:215600), a clinical-stage, biotherapeutics company focused on the development of oncolytic immunotherapy products for cancer, reported the first patient has been enrolled in Part 2 of JX594-REN026, a Phase 1b clinical trial of Pexa-Vec (pexastimogene devacirepvec) in combination with Libtayo(cemiplimab-rwlc), for the treatment of renal cell cancer (RCC) (Press release, SillaJen, JUN 6, 2019, View Source [SID1234536937]). Enrollment of Part 1 (dose-escalation phase) of the trial was completed in March 2019 without significant safety concerns, and the first seven patients in Part 2 were enrolled in South Korea, with expansion to sites in the United States and Australia anticipated over the coming weeks.

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SillaJen is collaborating with Regeneron to evaluate Pexa-Vec, SillaJen’s lead clinical candidate, in combination with Regeneron’s Libtayo, an anti-PD1 monoclonal antibody Regeneron is developing in collaboration with Sanofi. The aim of the trial is to assess the safety and efficacy of the combination in patients with unresectable or metastatic renal cell carcinoma. The study will also investigate the immune modulating potential of Pexa-Vec given concurrently with checkpoint inhibitor therapy by evaluating multiple blood and tissue biomarkers.

"We are encouraged to see positive safety data from the dose escalation phase of the REN026 study. Part 2 of this study is designed to reinforce the rationale of Pexa-Vec in combination with Libtayo," stated Francis Hyukchan Kwon, M.D, Ph.D., chief medical officer at Sillajen.

About Pexa-Vec and the SOLVE Platform
Pexa-Vec is the most advanced product candidate from SillaJen’s proprietary SOLVE (Selective Oncolytic Vaccinia Engineering) platform. The vaccinia strain backbone of Pexa-Vec has been used safely in millions of people as part of a worldwide vaccination program, and over 300 cancer patients have been treated with Pexa-Vec to date. Pexa-Vec was engineered to target common genetic defects in cancer cells by deleting their thymidine kinase (TK) gene, thus making Pexa-Vec dependent on the cellular TK expressed at persistently high levels in cancer cells. Pexa-Vec is also engineered to express granulocyte-macrophage colony stimulating factor (GM-CSF) protein. GM-CSF complements the cancer cell lysis of the product candidate, leading to a cascade of events resulting in tumor necrosis, tumor vasculature shutdown and sustained anti-tumoral immune attack. Pexa-Vec has been shown to be effective when delivered both intratumorally and systemically by intravenous administration. Pexastimogene devacirepvec (Pexa-Vec) is currently being evaluated in a worldwide Phase 3 clinical trial for advanced primary liver cancer, and more information can be found at: View Source

On June 6, 2019 Boston Biomedical, Inc. reported the continuation of the CanStem303C study evaluating the safety and efficacy of investigational agent napabucasin when given in combination with FOLFIRI with or without bevacizumab in patients with advanced colorectal cancer (Press release, Boston Biomedical, JUN 6, 2019, View Source [SID1234536936]). This decision is based on a recommendation by the independent Data and Safety Monitoring Board (DSMB) to continue the study without modification following a pre-specified interim analysis of 50 percent of the total planned events. Boston Biomedical, Inc. has accepted this recommendation.

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About Napabucasin
Napabucasin is an orally-administered investigational agent that is bioactivated by NQO1, which generates reactive oxygen species (ROS) to affect multiple oncogenic cellular pathways, including the STAT3 pathway, which is expected to result in cancer cell death.1

Napabucasin is currently being investigated in CanStem303C, a phase 3 trial for metastatic colorectal cancer (NCT02753127) and CanStem111P, a phase 3 trial for metastatic pancreatic cancer (NCT02993731). It is also being investigated in earlier phase trials in multiple solid malignancies. In 2016, the U.S. Food and Drug Administration granted Orphan Drug Designation for napabucasin in pancreatic cancer.

On June 6, 2019 Astex Pharmaceuticals, Inc. a member of the Otsuka group of companies, and Otsuka Pharmaceutical Co. Ltd., reported top-line results from the ASCERTAIN phase 3 study evaluating cedazuridine and decitabine fixed-dose combination (ASTX727) vs decitabine IV in adults with intermediate and high-risk MDS or CMML (Press release, Astex Pharmaceuticals, JUN 6, 2019, View Source [SID1234536935]).

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The study met its primary endpoint of decitabine exposure equivalence of 5-day dosing between orally administered ASTX727 and IV decitabine as per the protocol analysis plan. Safety and clinical activity were similar to that observed in a previous phase 1/2 study. The full data will be presented at an upcoming scientific meeting.

Astex plans to file an NDA with the US FDA by the end of 2019.

"We are delighted with the outcome of the ASCERTAIN trial, and the demonstration that the fixed dose combination of cedazuridine with decitabine enables successful oral delivery of decitabine, alleviating the significant burden of five days of monthly IV infusions for patients who may continue to benefit from the drug for several months or even years," said Mohammad Azab, Astex Pharmaceuticals’ president and chief medical officer. "Subject to regulatory review and approvals, ASTX727 could bring a new treatment option to patients with these deadly diseases. We are extremely grateful to all the patients, caregivers, partner research and manufacturing organizations, as well as the healthcare professionals who contributed to this effort."

About Cedazuridine and Decitabine Fixed-Dose Combination (ASTX727)

ASTX727 is a novel, orally administered fixed dose combination of cedazuridine, an inhibitor of cytidine deaminase, with the anti-cancer DNA hypomethylating agent, decitabine.1 By inhibiting cytidine deaminase in the gut and the liver, ASTX727 allows for oral delivery of the approved DNA hypomethylating agent, decitabine at exposures which are equivalent to the approved intravenous form of decitabine administered over 5 days.

ASTX727 has been evaluated in a phase 1/2 pharmacokinetics-guided dose escalation and dose confirmation study in patients with MDS and CMML to define appropriate doses of the individual components of ASTX727 (cedazuridine and decitabine) so that decitabine exposure after oral administration of ASTX727 is similar to exposure after IV decitabine at the approved daily dose of a 1-hour infusion at 20 mg/m2 (see View Source NCT02103478). This study demonstrated that ASTX727 allowed decitabine to be delivered orally at a dose that emulates parenteral pharmacokinetics, as measured by 5-day area-under-the-curve (AUC).3 The drug’s safety profile was similar to that of IV decitabine. Of particular note was the low level of gastrointestinal adverse events.3

The concept of using cedazuridine to block the action of cytidine deaminase is also being evaluated in a low dose formulation of cedazuridine and decitabine for the treatment of lower risk MDS (see View Source NCT03502668). ASTX727 may also have potential in all-oral combination regimes for the treatment of a range of different tumor types.

Astex is also expanding the evaluation of cedazuridine – decitabine combinations through a program of investigator-sponsored trials.

ASTX727 is an investigational compound and is not currently approved in any country.

About the ASCERTAIN Study

The ASCERTAIN study was designed to demonstrate that the cedazuridine and decitabine fixed-dose combination (ASTX727) could deliver orally a pharmacokinetically equivalent exposure of decitabine compared to IV decitabine in adults with previously untreated or treated MDS, including all French-American-British subtypes (refractory anemia, refractory anemia with ringed sideroblasts, refractory anemia with excess blasts, refractory anemia with excess blasts in transformation, and CMML), and subjects with MDS International Prognostic Scoring System (IPSS) int-1, int-2, or high-risk MDS. (see View Source NCT03306264). The study was designed as a randomized, open-label cross-over study in which patients were randomized in a 1:1 ratio to receive ASTX727 daily x 5 in the first 28-day cycle followed by IV decitabine daily x 5 in the second 28-day cycle, or the converse order. Following completion of the first two cycles, patients continued to receive treatment with ASTX727 in 28-day cycles until disease progression, unacceptable toxicity, or the subject decided to discontinue treatment or withdrew from the study. The primary endpoint of the study was total 5-day AUC exposures of decitabine after treatment with ASTX727 versus IV decitabine as measured across the first two cycles. Secondary endpoints included safety assessments, pharmacodynamic measurements, secondary PK parameters, clinical responses, red blood cell transfusion independence, leukemia-free survival, and overall survival. The study was conducted in 138 patients at 46 sites in the US and Canada.

About Myelodysplastic Syndromes (MDS) and Chronic Myelomonocytic Leukemia (CMML)

Myelodysplastic syndromes are a heterogeneous group of hematopoietic stem cell disorders characterized by dysplastic changes in myeloid, erythroid, and megakaryocytic progenitor cells, and associated with cytopenias affecting one or more of the three lineages. US incidence of MDS is estimated to be 10,000 cases per year, although the condition is thought to be under-diagnosed.4,5 The prevalence has been estimated to be from 60,000 to 170,000 in the US.6 MDS may evolve into acute myeloid leukemia (AML) in one-third of patients.7 The prognosis for MDS patients is poor; patients die from complications associated with cytopenias (infections and bleeding) or from transformation to AML. CMML is a clonal hematopoietic malignancy characterized by accumulation of abnormal monocytes in the bone marrow and in blood. The incidence of CMML in the US is approximately 1,100 new cases per year,8 and CMML may transform into AML in 15% to 30% of patients.9 The hypomethylating agents decitabine and azacitidine are effective treatment modalities for hematologic cancers and are FDA-approved for the treatment of higher risk MDS and CMML. These agents are administered by IV infusion, or by large-volume subcutaneous injections.