On January 4, 2018 NanoString Technologies, Inc. (NASDAQ:NSTG), a provider of life science tools for translational research and molecular diagnostic products, and Riken Genesis, a subsidiary of Sysmex Corporation (TOKYO, 6869), reported that they have entered into a partnership to introduce nCounter-based diagnostic assays in Japan (Press release, NanoString Technologies, JAN 4, 2018, View Source [SID1234522864]).

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Under this agreement, NanoString and Riken Genesis will collaborate to register, obtain reimbursement and commercialize companion diagnostic assays in Japan, including NanoString’s Lymphoma Subtyping Test which will be marketed as the nCounter Dx LymphMarkTM assay.

LymphMark is a 20-gene signature that classifies cell-of-origin subtypes of Diffuse Large B-cell Lymphoma (DLBCL) tumors. The initial indication for the LymphMark assay is expected to be a potential companion diagnostic to aid in identifying DLBCL patients for treatment. The LymphMark assay is based on the Lymph2Cx gene signature that was originally developed by the Lymphoma/Leukemia Molecular Profiling Project (LLMPP) and has demonstrated analytical robustness and potential clinical utility.

The LymphMark assay was used to select patients in a Phase III clinical trial. The LymphMark assay is being evaluated in more than 40 research studies that are being conducted with 23 companies.

"Through this collaboration, we will work closely with Riken Genesis to launch novel diagnostic products on the nCounter platform that have the potential to guide decision making in the Japanese oncology community," said Brad Gray, chief executive officer of NanoString.

"We are pleased to partner with NanoString to bring new highly multiplexed molecular assays to clinicians and patients in Japan," said Dr. Naoto Kondo, president and chief executive officer of Riken Genesis. "These innovative assays will be an important addition to our portfolio of diagnostic tests."

On January 4, 2018 Deciphera Pharmaceuticals, Inc. (NASDAQ:DCPH), a clinical-stage biopharmaceutical company focused on addressing key mechanisms of tumor drug resistance, reported that it has initiated a Phase 3 clinical study to evaluate the safety and efficacy of DCC-2618, a pan-KIT and PDGFRα inhibitor, in patients with advanced gastrointestinal stromal tumors (GIST) (Press release, Deciphera Pharmaceuticals, JAN 4, 2018, View Source [SID1234522871]).

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"We are extremely pleased to initiate the INVICTUS study with DCC-2618 in heavily pretreated GIST patients, specifically fourth-line and fourth-line plus patients," said Michael D. Taylor, Ph.D., President and Chief Executive Officer of Deciphera. "We expect to report top-line results in 2019 and, if successful, this pivotal Phase 3 study could serve as the basis for a New Drug Application (NDA), providing a much-needed therapeutic option for these patients for whom there are no approved treatments. We also plan to initiate a second Phase 3 study later this year evaluating DCC-2618 in second-line GIST patients who have progressed or are intolerant to front-line therapy with imitanib."

"While effective treatments are available for patients with early-stage GIST, in 9 out 10 patients the disease will eventually progress due to the development of secondary drug resistance mutations," said Professor Jean-Yves Blay, Medical Oncologist, General Director Centre Léon Bérard, Comprehensive cancer Centre of Lyon, France. "A therapy with the potential to provide broad coverage across the full spectrum of KIT and PDGFRα mutations would represent a much-needed improvement over currently approved treatment options for patients with later-stage GIST."

Initiation of the INVICTUS study follows results from the ongoing Phase 1 clinical trial presented at the European Society for Medical Oncology (ESMO) (Free ESMO Whitepaper) Congress in September 2017, in which durable disease control by DCC-2618 was observed in heavily pretreated patients with GIST.

INVICTUSPhase 3 Study
The INVICTUS Phase 3 clinical study is a randomized, double-blind, placebo-controlled, international, multicenter trial to evaluate the safety, tolerability, and efficacy of DCC-2618 compared to placebo in patients with advanced GIST patients whose previous therapies have included imatinib, sunitinib, and regorafenib. The trial is expected to enroll approximately 120 patients randomized 2:1 to either 150 mg once daily of DCC-2618 or placebo. The primary efficacy endpoint is median progression free survival (PFS) as determined by independent radiologic review using modified Response Evaluation Criteria in Solid Tumors (RECIST). Secondary endpoints as determined by independent radiologic review using modified RECIST include Objective Response Rate (ORR); Time to Tumor Progression (TTP); and Overall Survival (OS). See www.clinicaltrials.gov for further information (NCT03353753).

About DCC-2618
DCC-2618 is a pan-KIT and PDGFRα kinase switch control inhibitor in clinical development for the treatment of KIT and/or PDGFRα-driven cancers, including gastrointestinal stromal tumors, glioblastoma multiforme and systemic mastocytosis. DCC-2618 was specifically designed to improve the treatment of GIST patients by inhibiting the full spectrum of mutations in KIT and PDGFRα. DCC-2618 is a pan-KIT and pan-PDGFRα inhibitor that blocks initiating KIT mutations in exons 9, 11, 13, 14, 17, and 18, known to be present in GIST patients and the D816V exon 17 mutation known to be present in ASM patients. DCC-2618 inhibits PDGFRα mutations in exon 18, including the D842V mutation that drives a subset of GIST.

On January 4, 2018 Intrexon Corporation (NYSE: XON), a leader in the engineering and industrialization of biology to improve the quality of life and health of the planet, reported that Randal J. Kirk, Chairman and Chief Executive Officer will present at the 36th Annual J.P. Morgan Healthcare Conference in San Francisco on Wednesday, January 10th at 9:30 a.m. Pacific Time (Press release, Intrexon, JAN 4, 2018, View Source [SID1234522882]).

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A live webcast of the presentation will be available on the Investors section of Intrexon’s website at View Source Replay of the webcast will be available for 30 days following the event.

On January 4, 2018 ImmunoGen, Inc. (Nasdaq: IMGN), a leader in the expanding field of antibody-drug conjugates (ADCs) for the treatment of cancer, reported that the first patient has been treated with IMGN632 in a Phase 1 clinical trial of patients with CD123-positive hematological malignancies, including acute myeloid leukemia (AML) and blastic plasmacytoid dendritic cell neoplasm (BPDCN) (Press release, ImmunoGen, JAN 4, 2018, View Source [SID1234522879]).

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IMGN632 uses ImmunoGen’s novel indolino-benzodiazepine payload, DGN549, which alkylates DNA without crosslinking, as well as novel linker technology with a CD123-targeting antibody. In preclinical studies with IMGN632, ImmunoGen has reported potent and selective activity against AML cells with lower cytotoxicity to normal myeloid progenitor cells than an ADC designed to crosslink DNA.1 Supporting preclinical data for IMGN632 have also shown compelling activity in AML and acute lymphoblastic leukemia (ALL) models with single and multi-dose regimens.2,3 These data suggest that IMGN632 has the potential to be a highly effective, yet tolerable ADC.

"We continue to rapidly advance our novel IGN portfolio in a number of hematological malignancies and are pleased to be moving our second IGN ADC, IMGN632, into the clinic," said Anna Berkenblit, M.D., VP and Chief Medical Officer of ImmunoGen. "Our IGN payloads were developed to meet the dual challenges of achieving high potency against target cells, while enabling continued patient treatment. We believe IMGN632 has the potential to be a highly effective therapy with favorable tolerability for the treatment of patients with CD123-positive hematologic malignancies, including AML and BPDCN, cancers where new therapies are desperately needed."

The Phase 1 trial in AML and BCPDN will follow a once every three week dosing schedule while in its dose-finding stage. The selected dose will then be used in expansion cohorts assessing IMGN632 in patients with BPDCN, AML, ALL, and other CD123-positive hematologic malignancies.

"We are excited to be leading off the clinical evaluation of IMGN632, a potential new treatment option for patients with CD123-positive hematologic malignancies," said Hagop M. Kantarjian, M.D., professor and chair of the Department of Leukemia at the University of Texas MD Anderson Cancer Center and principal investigator of the trial of IMGN632.

Data presented at the American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting (ASH) (Free ASH Whitepaper) 2017 demonstrated promising activity and safety with IMGN632 in preclinical models of B-cell ALL (B-ALL).4 CD123 expression is prevalent across ALL subtypes, including 90% of B-ALL and nearly half of T-cell acute lymphoblastic leukemia. IMGN632 demonstrated promising activity against B-ALL cell lines and patient samples in vitro, including the elimination of more than 90% of B-ALL blasts in 6 out of 8 patient samples. Normal cells were not affected by IMGN632 at 100-fold higher concentrations.

This is the second clinical trial using IGNs, a new class of cancer-killing agents developed by ImmunoGen for use in ADCs. ImmunoGen recently reported findings from the Company’s ongoing Phase 1 study of IMGN779 in patients with relapsed or refractory adult AML whose tumors express CD33.5 The data demonstrate that IMGN779 is well-tolerated with no dose-limiting toxicities, pharmacokinetic exposures and pharmacodynamic CD33 saturation increasing with dose, and anti-leukemia activity observed in patients with poor prognostic features.

About IMGN632
IMGN632 is a humanized anti-CD123 ADC that is a potential treatment for AML, BPDCN, myelodysplastic syndrome, B-cell ALL and other CD123-positive malignancies. IMGN632 uses a novel IGN payload, linker and antibody technology, and has demonstrated potent and selective activity, with minimal cytotoxic effects, in preclinical models of AML and ALL.6,7

About IGNs
Indolino-benzodiazepine agents, or IGNs, are a new class of cancer-killing agent developed by ImmunoGen for use in ADCs. IGN payloads were designed to meet the dual challenges of achieving high potency against target cells, while having a tolerability profile that can enable continued patient treatment. These ultra-potent, DNA-acting IGNs alkylate DNA without crosslinking, which preclinically has resulted in potent anti-leukemia activity with relative sparing of healthy cells.8,9

About Acute Myeloid Leukemia (AML)
AML is a cancer of the bone marrow cells that produce white blood cells. It causes the marrow to increasingly generate abnormal, immature white blood cells (blasts) that do not mature into effective infection-fighting cells. The blasts quickly fill the bone marrow, impacting the production of normal platelets and red blood cells. The resulting deficiencies in normal blood cells leave the patient vulnerable to infections, bleeding problems and anemia.

It is estimated that, in the U.S. alone, 21,380 patients will be diagnosed with AML this year and 10,590 patients will die from the disease.10

About Blastic Plasmacytoid Dendritic Cell Neoplasm (BPDCN)

BPDCN is a disease of the bone marrow and blood that affects multiple organs, including the lymph nodes and the skin. It often presents as leukemia or lymphoma. There are little data about BPDCN and there is no established treatment. The average age at diagnosis is 60 to 70 years. There are more men than women who are diagnosed with BPDCN.11,12

On January 4, 2018 PellePharm, a clinical-stage biopharmaceutical company committed to targeting rare genetic dermatological conditions at the source, reported the appointment of Sanuj K. Ravindran, M.D., to the position of president and chief executive officer (Press release, PellePharm, JAN 4, 2018, View Source [SID1234576282]). In parallel, Dr. Ravindran will join BridgeBio Pharma, PellePharm’s lead investor, as CEO-in-Residence, to advance its broader orphan dermatology portfolio.

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"Dr. Ravindran’s biopharma industry experience and rare disease expertise will offer enormous strategic benefit to PellePharm as we move into our next stage of development," said Ervin Epstein, M.D., chief medical officer and co-founder of PellePharm. "Having been successful with the management and growth of multiple biopharma companies, Dr. Ravindran brings the right experience to PellePharm so that we may offer topical patidegib to patients as swiftly as possible."

Dr. Ravindran brings more than 15 years of strategic and operational biopharma experience to PellePharm. Most recently, he was chief business officer at aTyr Pharma ("LIFE"), a clinical stage rare disease-focused biotechnology company, where he led corporate and financial strategy, business development, and investor relations. Prior to that, Dr. Ravindran was senior vice president of corporate development for The Medicines Company ("MDCO"), where he worked to execute multiple transactions totaling more than $2 billion in potential aggregate value. Previously a practicing physician, Dr. Ravindran began his industry career as a venture capitalist for 10 years with Burrill & Company, Radius Ventures, and Asian Healthcare Fund. Dr. Ravindran is trained in Internal Medicine and completed his residency training at Thomas Jefferson University Hospital. Dr. Ravindran received his B.A. from Northwestern University, his M.D. from Jefferson Medical College and his MBA from the Kellogg School of Management.

"I am thrilled to join PellePharm at such an important juncture, as the Company prepares to advance topical patidegib one step closer to patients with Gorlin Syndrome. With PellePharm’s scientific premise, clinical progress, and recently strengthened leadership team, the company is well on its way to meeting its mission of delivering therapies for rare genetic dermatological conditions," said Dr. Ravindran.

PellePharm today also announced that it has expanded its executive team to enhance regulatory and operational capabilities. Alix Alderman is now vice president of regulatory affairs at PellePharm, and Gerd Kochendoerfer, Ph.D., is vice president of technical operations and program management. Both Ms. Alderman and Dr. Kochendoerfer bring many years of experience in drug development, quality management and global regulatory affairs.

"We are pleased to welcome Dr. Ravindran, Dr. Kochendoerfer and Ms. Alderman," said Neil Kumar, CEO and co-founder of BridgeBio Pharma. "At this inflection point, having the right team in place, with the collective experience this group brings, enables PellePharm to more ably achieve its goal of helping patients with serious unmet dermatologic conditions."

About Patidegib

Topical patidegib gel has shown early promise in a Phase 2 clinical study in Gorlin Syndrome by blocking the disease at its source within the hedgehog signaling pathway. Topical patidegib was developed to provide the efficacy previously demonstrated by oral patidegib in Phase 1 trials, but without the adverse systemic side effects of oral hedgehog inhibitors. Patidegib’s gel formulation is stable at room temperature for at least two years, making it a viable potential therapy for ongoing, at-home management of Gorlin Syndrome. Topical patidegib currently is being studied in a United States-based Phase 2 clinical trial for the treatment of sporadic basal cell carcinomas (BCCs).

About Gorlin Syndrome

Gorlin Syndrome is a rare, genetic disease characterized by mutations in the tumor suppressor gene encoding Patched1 (PTCH1), which acts as the primary inhibitor of the hedgehog signaling pathway. This leads to hundreds of basal cell carcinomas, especially on the face and sun-exposed areas.

With no FDA-approved drugs available for Gorlin Syndrome, also known as Basal Cell Carcinoma Nevus Syndrome (BCCNS), the standard of care is surgery. People with severe Gorlin Syndrome may have as many as 30 surgeries per year, which can be repetitive and scarring. Approximately 10,000 people in the United States, or one in 31,000, are believed to be affected by Gorlin Syndrome. Gorlin Syndrome is known by several names, including BCCNS, Gorlin-Goltz Syndrome, Basal Cell Nevus Syndrome, or Nevoid Basal Cell Carcinoma Syndrome.