On April 17, 2018 Deciphera Pharmaceuticals, Inc. (NASDAQ:DCPH), a clinical-stage biopharmaceutical company focused on addressing key mechanisms of tumor drug resistance, reported pre-clinical data for DCC-2618 confirming a broad spectrum of potent inhibition across primary and secondary KIT mutations and primary PDGFRα mutations (Press release, Deciphera Pharmaceuticals, APR 17, 2018, View Source [SID1234525437]). Compared to the FDA approved and investigational compounds tested in this pre-clinical study, DCC-2618 demonstrated the broadest profile of inhibition of primary and secondary KIT mutations and primary PDGFRα mutations. The data will be presented today at the 2018 American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting in Chicago, IL in a poster titled "Inhibition of oncogenic and drug-resistant PDGFRA and KIT alterations by DCC-2618".

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Deciphera is currently evaluating DCC-2618 in multiple clinical studies including INVICTUS, a Phase 3 pivotal study in 4th line and 4th line plus GIST patients, and in a Phase 1 study in other KIT and/or PDGFRα-driven diseases, including 2nd line to 4th line plus GIST, SM, glioblastoma multiforme and other cancers. Deciphera expects to initiate a Phase 3 registration study in 2nd line GIST patients in the second half of 2018 and to report top-line data from the ongoing INVICTUS study in 2019.

"In GIST patients receiving FDA approved therapies, secondary drug resistance KIT mutations frequently result in disease progression. Our pre-clinical results confirm that among the kinase inhibitors tested, both approved and investigational, DCC-2618 exhibits the broadest profile of inhibition against these heterogenous, difficult to treat mutations," said Michael D. Taylor, Ph.D., Deciphera’s President and Chief Executive Officer. "A significant need exists for therapies with the potential to address both activating mutations and other genetic alterations in KIT and PDGFRα, which have been identified in >85% of patients with GIST and >90% of patients with systemic mastocytosis."

These data describe the breadth of inhibition achieved with DCC-2618 and its active metabolite, DP-5439, across both primary and secondary KIT mutations and primary PDGFRα mutations compared to the in vitro profiles of the FDA-approved kinase inhibitors, imatinib, sunitinib, regorafenib, midostaurin and the investigational agent, avapritinib (BLU-285). Highlights from the poster include:

DCC-2618, a Type II switch control kinase inhibitor of KIT and PDGFRα, broadly inhibits KIT mutants in exons 9, 11, 13, 14 17, and 18 and PDGFRα mutants in exons 12, 14, and 18, forcing even aggressively activated kinase mutants into a Type II inactive conformation.

Compared to the approved and investigational compounds tested, DCC-2618 and its active metabolite, DP-5439, exhibit the broadest profile of inhibition across primary and secondary drug-resistant KIT mutations, and primary PDGFRα mutations.

Other Type II inhibitors, such as imatinib, sunitinib and regorafenib, do not broadly inhibit KIT exon-17 mutations or mutations in PDGRFα while Type I inhibitors, such as avapritinib (BLU-285), have weaker activity against KIT mutations in exons 13 and 14.

DCC-2618 also exhibited a superior exon 9 KIT mutation profile compared to imatinib, sunitinib, and avapritinib (BLU-285), including complex KIT mutations involving exon 9 coupled with secondary KIT mutations in exons 13, 14, and 17.

In enzyme assays at relevant cellular levels of adenosine triphosphate (ATP), DCC-2618 broadly inhibited primary and drug-resistant KIT mutants and primary PDGFRα mutants. DCC-2618 also broadly inhibited KIT and PDGFRα mutations in a panel of GIST, mastocytosis, leukemia, lung cancer, and transfected cell assays, as well as in various in vivo xenograft models.

As previously reported, translational liquid biopsy data from the Phase 1 clinical trial has shown that in heavily pre-treated GIST patients, many of whom had received all three of the FDA approved drugs for GIST, DCC-2618 decreased mutant KIT circulating tumor DNA (ctDNA) across the spectrum of KIT exons 9, 11, 13, 14, 17, and 18.

About DCC-2618
DCC-2618 is a KIT and PDGFRα kinase switch control inhibitor in clinical development for the treatment of KIT and/or PDGFRα-driven cancers, including gastrointestinal stromal tumors, systemic mastocytosis and glioblastoma multiforme. DCC-2618 was specifically designed to improve the treatment of GIST patients by inhibiting a broad spectrum of mutations in KIT and PDGFRα. DCC-2618 is a KIT and PDGFRα inhibitor that blocks initiating KIT mutations in exons 9, 11, 13, 14, 17, and 18, involved in GIST as well as the primary D816V exon 17 mutation involved in SM. DCC-2618 also inhibits primary PDGFRα mutations in exons 12, 14,and 18, including the exon 18 D842V mutation, involved in a subset of GIST.

On April 17, 2018 Cellectar Biosciences (Nasdaq: CLRB), a clinical-stage biopharmaceutical company focused on the discovery, development and commercialization of drugs for the treatment of cancer, reported the presentation of a poster entitled "Efficacy of fractionated injections of CLR 131 in an OPM-2 mouse model" at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting underway in Chicago (Press release, Cellectar Biosciences, APR 17, 2018, View Source [SID1234525436]). Jarrod Longcor, chief business officer at Cellectar Biosciences, will conduct the presentation today, from 1:00 pm – 5:00 pm (CT), poster section 43.

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The purpose of the study described in the poster was to evaluate the efficacy of fractionated CLR 131 in an OPM-2 multiple myeloma (MM) mouse model. A statistically significant reduction in tumor volume and an increase in overall survival was observed when mice were given 50uCi of CLR 131 once weekly for 2 weeks compared to all three active comparators in the study; a bortezomib arm dosed 0.6mg/kg twice weekly for two weeks and two single dose cohorts of CLR 131 (50 and 100uCi). The bortezomib dose has been previously shown to be efficacious in this MM model. Additionally, the time it took for tumors to double in size was markedly increased using fractionated dosing in comparison to the other treatments. Moreover, this dosing regimen showed improved tolerability as measured by body weight changes versus a single equivalent bolus dose further supporting the company’s plans to explore fractionated injections of CLR 131 in human clinical trials.

"The results seen in this study are promising because they demonstrate improved outcomes with fractionated injections vs single administration of CLR 131 in an established multiple myeloma animal model," said James Caruso, chief executive officer of Cellectar Biosciences. "We continue to see promise in CLR 131’s ability to demonstrate selective uptake and retention by malignant cells, while minimizing impact on healthy cells."

About CLR 131
CLR 131 is Cellectar’s investigational radioiodinated PDC therapy that exploits the tumor-targeting properties of the company’s proprietary phospholipid ether (PLE) and PLE analogs to selectively deliver radiation to malignant tumor cells, thus minimizing radiation exposure to normal tissues. CLR 131, is in a Phase 2 clinical study in relapsed or refractory (R/R) MM and a range of B-cell malignancies and a Phase 1 clinical study in patients with (R/R) MM exploring fractionated dosing. In 2018 the company plans to initiate a Phase 1 study with CLR 131 in pediatric solid tumors and lymphoma, and a second Phase 1 study in combination with external beam radiation for head and neck cancer.

The following is a roundup of presentations and findings from multiple companies participating in the 2018 American Association for Cancer Research (AACR) (Free AACR Whitepaper) in Chicago (Press release, BioSpace, APR 17, 2018, View Source [SID1234525435]).

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H3 Biomedicine Inc. – Working with Foundation Medicine, H3 Biomedicine unveiled novel findings from a comprehensive genomic analysis of 6,235 patients across 15 hematologic malignancies at AACR (Free AACR Whitepaper). The results include the first-ever observance of recurrent RNA splicing factor mutations in non-Hodgkin’s lymphoma and multiple myeloma, the company said. In its announcement, H3 said the findings demonstrate the "continued emergence of splicing factor mutations as a hallmark of dozens of hematologic and solid tumor cancers, their potential role in tumor formation and growth, and, thus, the opportunity to advance a new class of therapies."
Checkmate Pharmaceuticals – Data from an ongoing Phase Ib trial shows that Checkmate’s Toll-like receptor 9 CMP-001 combined with Merck’s Keytruda demonstrated "deep and durable clinical responses" in patients with advanced melanoma who are resistant to prior anti-PD-1 checkpoint inhibition. Data shows that the combination therapy brought about the systemic regression of "non-injected cutaneous, nodal, hepatic, and splenic metastases in patients who had progressed on a median of two prior therapies."

Deciphera Pharmaceuticals – Cambridge, Mass.-based Deciphera unveiled preclinical data that showed DCC-2618, a KIT and PDGFRα kinase switch control inhibitor, inhibited primary and secondary KIT mutations and primary PDGFRα mutations in gastrointestinal stromal tumors (GIST) and systemic mastocytosis. Deciphera said in comparison to other approved compounds, DCC-2618 demonstrated the "broadest profile of inhibition" in the preclinical study.
NewLink Genetics – In a poster presentation at AACR (Free AACR Whitepaper) NewLink showed that indoximod has a unique method of action in modulating AhR-driven transcription of genes. The company said the different mechanism of action may contribute to antitumor immune responses in the IDO pathway, as well as independent of that IDO pathway. The company said indoximod regulates the "differentiation of helper T cells toward an immuno-stimulatory helper function and downregulates genes that control the differentiation of T cells into immuno-suppressive regulatory T cells in an AhR dependent manner."

Torque – Preclinical data presented by Torque at AACR (Free AACR Whitepaper) shows the company’s Deep-Primed IL-15 and Deep-Primed IL-12 cellular therapy programs demonstrated superior activity compared to systemically administered IL-15 and IL-12. Torque’s Deep-Primed therapeutics use material engineering to anchor immune-stimulatory drugs directly to the surface of multi-targeted, antigen-primed T cells. This allows the activation of the adaptive and innate immune system with pharmacologic control in the tumor microenvironment, according to the company.
Laboratory for Advanced Medicine – With a push to advance early cancer diagnostics California-based Laboratory for Advanced Medicine revealed data that demonstrates the utility of circulating tumor DNA (ctDNA) methylation markers in the diagnosis, surveillance and prognosis of Hepatocellular Carcinoma. In an AACR (Free AACR Whitepaper) presentation, the company said the findings support that "ctDNA carrying cancer-specific genetic and epigenetic aberrations may enable a non-invasive liquid biopsy for the diagnosis and monitoring of cancer."
PharmaMar – New data presented by PharmaMar at AACR (Free AACR Whitepaper) showed that plitidepsin interacts with and inhibits PKR on the eEF1A2 enzyme. Plitidepsin inhibits this interaction obtaining the induction of cell death, the company announced. PharmaMar said through the bonding to eEF1A2, plitidepsin annuls the oncogenic properties of its target.

On April 17, 2018 Paris-based Sanofi has reported that agreed to sell its generics division, Zentiva, to Advent International (Press release, BioSpace, APR 17, 2018, View Source [SID1234525434]).

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The deal is expected to wrap by the end of this year. Advent, a private equity firm, will acquire the company for 1.9 billion euros, or about $2.4 billion (U.S.).

Reuters notes, "Sanofi has been reshaping its business in recent months, spending more than $16 billion to buy biotech company Ablynx and U.S. hemophilia specialist Bioverativ, but also selling off some assets. This week, it sold some brands to Charterhouse Capital Partners’ Cooper-Vemedia drugs manufacturing arm for 158 million euros."
"Zentiva is a robust business with a highly talented workforce and we believe it has demonstrated its potential for growth," said Olivier Brandicourt, Sanofi’s chief executive officer, in a statement. "Following a comprehensive review of strategic options for our generics unit in Europe, we have determined that transferring this business to Advent is the best option to ensure its long-term success."

This specific sale planning began in October 2017. However, it has been up for grabs for some time, including plans made in November 2015. Sanofi had spent much of the year prior to restructuring Zentiva as a stand-alone company in order to be sold. In February, Reuters reported that the short list of potential buyers included Carlyle, BC Partners and a consortium of Blackstone and Nordic Capital. Two pharma companies were also on the list, Brazilian company EMS and India’s Torrent Pharma.

Since at least 2015, Sanofi has been restructuring as part of a new strategy. This included spinning off its animal health unit, Merial, and the European generics business. In mid-December 2015, Sanofi and Germany-based Boehringer Ingelheim GmbH announced plans to exchange business units. The intention was for Sanofi to swap Merial with Boehringer Ingelheim’s consumer healthcare business. Boehringer Ingelheim’s consumer healthcare business in China was not part of that deal.

The sale of Zentiva was delayed partly to decide which parts of the division to sell. Some of the rationale behind the sale is related to distributor consolidation. Distributors buy generic versions to sell to patients, and once merged, they have more leverage to negotiate lower prices. For the last three years, there has been significant consolidation of generics distributors worldwide.

Zentiva does business in 50 markets, particularly in Eastern Europe—the Czech Republic, Slovakia and Romania. Its portfolio of generic drugs includes products for cardiovascular indications and gastrointestinal drugs, in addition to versions of ibuprofen and leflunomide.
Jerome Schupp, fund manager at Geneva-based Prime Partners, which currently does not hold Sanofi shares, told Reuters, "The sale price is decent, but nothing that extraordinary. Sanofi will probably re-invest the proceeds in looking to make pharma or biotech acquisitions. They are looking to strengthen their pipeline, which is a bit weak at the moment."

The news follows yesterday’s announcement that Shire was selling its oncology business to France’s Servier for $2.4 billion. And Japan’s Takeda Pharmaceuticals announced several weeks ago its interest in buying Shire. Under UK acquisition laws, Takeda has until April 25 to announce an official bid. Shire’s market value is about $47 billion.
Pfizer has also been trying to unload its consumer healthcare business. Most recently, GlaxoSmithKline walked away from the deal, as had Reckitt Benckiser Group. The Pfizer business unit is valued at about $15 to $20 billion.

Now in its fourth day, the American Association of Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2018 held in Chicago, has had plenty of news, much of it preclinical or early-clinical data (Press release, BioSpace, APR 17, 2018, View Source [SID1234525433]). Here’s a roundup of some of the top stories.

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Compugen and Bayer AG presented efficacy data of BAY 1905254 in cancer immunotherapy. The compound is a first-in-class antibody candidate that targets ILDR2, a novel immune checkpoint discovered by Israeli company Compugen. Bayer expects to move it into human trials sometime this year.

"ILDR2 is a completely new immune checkpoint that we discovered through our computational discovery capabilities," said Anat Cohen-Dayag, Compugen’s president and chief executive officer, in a statement. "This immune checkpoint, together with the discovery of TIGIT and PVRIG, clearly demonstrate the power and value of Compugen’s predictive discovery capabilities in the discovery of new drug targets and pathways, enabling the development of first-in-class product opportunities."
Sierra Oncology, based in Vancouver, presented data for its Checkpoint kinase 1 (Chk1) inhibitor SRA737, as a monotherapy and in combination with a poly ADP-ribose polymerase inhibitor (PARPi) like Tesaro’s Zejula (niraparib). It is being evaluated in an ongoing Phase I/II trial in replication stress-driven cancer. It also plans to initiate a Phase Ib/II trial in metastatic castration-resistant prostate cancer in the fourth quarter.

Tarveda Therapeutics, headquartered in Watertown, Massachusetts, presented preclinical data related to PEN-866. PEN-866 is a miniature drug conjugate to treat patients with solid tumor types that are sensitive to topoisomerase 1 inhibitors like SN-38, which is PEN-866’s payload. It is being evaluated in models of ovarian cancer, lung cancer and colorectal cancer. PEN-866 utilizes the activation of Heat Shock Protein 90 (HSP90) in tumors in order to accumulate and release its payload.

Lycera Corp., located in New York and Ann Arbor, Michigan, released clinical findings from the Phase I part of its Phase I/IIa ARGON trial of the company’s novel immuno-oncology candidate, LYC-55716. LYC-55716 is a first-in-class oral, selective retinoic acid-related orphan receptor-gamma (RORgamma) agonist that reprograms the immune system in solid tumor patients. In the 32 patients enrolled in six dosing cohorts, the drug was well tolerated and no dose-limiting toxicities were seen.
"The promising safety results and early signals of efficacy with LYC-55716 as a monotherapy are very encouraging," said Judy Wang, associate director of Drug Development, Florida Cancer Specialists and Sarah Cannon Research Institute, in a statement. "We are very pleased to be participating in the development of this novel immunotherapeutic, and are actively enrolling patients with advanced solid tumor cancers in the Phase IIa portion of the study."

Lund, Sweden’s Alligator Bioscience presented preclinical data on its immune activating antibody ATOR-1015. ATOR-1015 is a first-in-class bispecific tumor-directed antibody that targets CTLA-4 and OX40. The data shows the compound localizes to the tumor and activates the immune system in the surrounding area, which confirms the drug’s mechanism of action. It is designed mostly for a combo-therapy with PD-1 blocking antibody.
"The results presented in Chicago confirm that our CTLA-4 bispecific antibody ATOR-1015 selectively activates the immune system in the tumor area," said Per Norlen, Alligator’s chief executive officer, in a statement. "This offers great potential for an improved benefit/risk profile for cancer patients. We are more and more excited about the significant prospects for this unique compound, particularly in combination with PD-1 blockers, and are looking forward to initiate clinical development later in the year."
CBT Pharmaceuticals, based in Pleasonton, California, a U.S. and China-based biopharmaceutical company, presented preclinical in-vivo data and animal safety pharmacology studies of CBT-102. This compound is a multi-targeted kinase inhibitor that targets VEGFR, PDGFR, MAPK, B-RAF, C-RAF, C-KIT and CSF1R. It showed tumor regression in 52 patient-derived xenograft models, including non-small cell lung, colorectal, gastric, and hepatocellular carcinoma.
"We are highly encouraged by the preclinical safety and efficacy data of CBT-102," said Sanjeef Redkar, president and chief executive officer of CBT Pharma, in a statement. "Based on this data set, we plan to advance CBT-102 into GLP toxicology studies in 2018 with an aim to enter the clinic in early 2019 in combination with other agents in our portfolio."