On December 7, 2017 Jazz Pharmaceuticals plc (Nasdaq: JAZZ) reported that the company will be webcasting its corporate presentation at the BMO Capital Markets Healthcare Conference in New York, NY (Press release, Jazz Pharmaceuticals, DEC 7, 2017, View Source;p=RssLanding&cat=news&id=2321712 [SID1234522443]).

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Matt Young, executive vice president and chief financial officer, will provide an overview of the company and a business and financial update at the conference on Thursday, December 14, 2017 at 10:30 a.m. EST / 3:30 p.m. GMT.

A live audio webcast of the presentation may be accessed from the Investors section of the Jazz Pharmaceuticals website at www.jazzpharmaceuticals.com. Please connect to the website prior to the start of the presentation to ensure adequate time for any software downloads that may be necessary to listen to the webcast.

An archive of the webcast will be available for at least one week following the presentation on the Investors section of the company’s website at www.jazzpharmaceuticals.com.

On December 7, 2017 Syros Pharmaceuticals (NASDAQ: SYRS), a biopharmaceutical company pioneering the discovery and development of medicines to control the expression of disease-driving genes, reported that new preclinical data on SY-1365, its first-in-class selective cyclin-dependent kinase 7 (CDK7) inhibitor currently in a Phase 1 clinical trial in advanced solid tumors, demonstrate anti-tumor activity across a broad panel of breast cancer cell lines and point to potential biomarkers predictive of response (Press release, Syros Pharmaceuticals, DEC 7, 2017, View Source [SID1234522431]). The Company also announced its identification of key genes driving relapse and metastasis in triple negative breast cancer (TNBC), pointing to potential new drug targets. These data were presented at the San Antonio Breast Cancer Symposium (SABCS).

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"These data speak to the power of our gene control platform to provide a new lens for understanding disease with important implications for developing much-needed therapies in defined subsets of patients," Eric R. Olson, Ph.D., Chief Scientific Officer of Syros. "Despite advances in the treatment of certain cancers, two of the biggest challenges in cancer treatment remain the ability to pair the right patients with the right drugs and to prevent the emergence of drug resistance in response to targeted therapies. By analyzing regulatory regions of the genome, we discovered potential biomarkers of response to SY-1365 within heterogeneous patient populations that we can further explore during clinical development. Separately, using our platform, we also identified new potential points of therapeutic intervention in TNBC with the potential to thwart the mechanisms cancer uses to become resistant to therapy and spread to other parts of the body."

New Preclinical Data on SY-1365
Syros scientists analyzed the anti-tumor activity of SY-1365 across a panel of more than 400 cancer cell lines, including 19 TNBC cell lines and 21 ER-positive, PR-positive and HER2-positive cells lines. They then grouped the cell lines according to sensitivity to SY-1365 and looked for markers of response using Syros’ gene control platform to analyze regulatory regions of the genome. The data showed:

SY-1365 induced cell death in 15 out of the 19 TNBC cell lines and 17 of the 21 ER-positive, PR-positive and HER2-positive cells lines.
Sensitivity to SY-1365 in these breast cancer cell lines was associated with a super-enhancer, a highly specialized regulatory region of the genome, that drives increased expression of the known oncogene MYC.
Sensitivity to SY-1365 was also associated with low expression of the mitochondrial apoptosis antagonist BCL2L1 in these cell lines.
Lowered expression of MCL1, a gene in the mitochondrial apoptosis pathway known to inhibit apoptosis, was associated with SY-1365 target engagement and anti-tumor activity in cell lines and a cell-derived xenograft model of TNBC.
The Phase 1 trial of SY-1365 is a multi-center, open-label trial enrolling patients with advanced solid tumors. The primary objective of the trial is to assess the safety and tolerability of escalating doses of SY-1365, with the goal of establishing a maximum tolerated dose and a recommended Phase 2 dose and regimen. The dose-escalation phase is open and expected to enroll approximately 35 solid tumor patients for whom standard curative or palliative measures do not exist or are no longer effective. Following the dose-escalation phase, expansion cohorts are planned to further evaluate the safety and anti-tumor activity of SY-1365 in patients with transcriptionally driven tumors and to enroll patients with tumors of any histology in a cohort focused on analyzing biopsied tumor tissue. Additional details about the trial can be found using the identifier NCT03134638 at www.clinicaltrials.gov. Syros expects to present initial clinical data from this study in 2018.

Mechanisms of Relapse and Metastasis in TNBC
Using its gene control platform, Syros scientists, in collaboration with the lab of Robert Weinberg, Ph.D. at the Whitehead Institute, analyzed regulatory regions of the genome in cancer-stem cell enriched TNBC cell lines. Cancer stem cells (CSCs) are known to be involved in resistance to chemotherapies, relapse of disease and development of metastasis. The analysis revealed key genes that may be involved in driving disease relapse and metastasis, with implications for the discovery and development of novel therapies for TNBC. Notably, TP73 was found to be a core driver of transcriptional circuitry in CSCs, controlling super-enhancer associated genes involved in cell migration, signal transduction and developmental processes. TP73 is a gene that encodes a DNA-binding transcription factor called p73. The set of TP73-controlled genes provide new leads for drug discovery and development with potential to yield much-needed new therapies for TNBC patients.

On December 7, 2017 NanoString Technologies, Inc. (NASDAQ:NSTG), a provider of life science tools for translational research and molecular diagnostic products, reported the commercial availability of new Vantage 3D Hematology assays as well as the highlights of more than 45 nCounter-based research abstracts that will be presented at the 59th Annual Meeting of the America Society of Hematology being held December 9-12, in Atlanta (Press release, NanoString Technologies, DEC 7, 2017, View Source [SID1234522444]).

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The company announced the launch of new Vantage 3D hematology assays. Three of the studies presented at ASH (Free ASH Whitepaper) (Abstracts 1758, 2481 and 3945) include data from early access versions of NanoString’s Vantage 3D DNA:RNA:Protein Heme Assays, which are launching commercially at ASH (Free ASH Whitepaper). These assays enable simultaneous, multi-analyte analysis of single nucleotide variants (SNVs), RNA, protein, and phospho-protein. The assay includes curated content that covers clinically actionable SNVs and Indels, and provide comprehensive expression profiling of RNA, protein, and phospho-protein in key pathways including PI3K, JAK-STAT, BCR, and TCR signaling.

One of the presentations will be made by Dr. Sergio Rutella, M.D. Ph.D. FRCPath., Professor of Cancer Immunotherapy at the John van Geest Cancer Research Centre at Nottingham Trent University. Dr. Rutella stated, "AML is a rare disease and we need to maximize the amount of information we collect. We are using NanoString’s Vantage 3D DNA:RNA:Protein Heme Assay to capture information about single nucleotide variants, mutations, and new antigens that could be compiled into a ‘super signature’ to better characterize the disease and stratify the treatment of patients."

"Our customers and collaborators are presenting a record body of nCounter-based research at the 59th annual ASH (Free ASH Whitepaper) conference," said Brad Gray, president and chief executive officer of NanoString Technologies. "This research demonstrates the advances that are being enabled with the nCounter platform in subtyping lymphomas and optimizing regimens to achieve better clinical outcomes."

The ASH (Free ASH Whitepaper) Annual Meeting will include at least four oral presentations and forty-one posters in various leukemia, lymphoma, and myeloma malignancies that demonstrate the utility of the nCounter platform across the heme-oncology spectrum. In particular, NanoString’s collaborators in Diffuse Large B-Cell Lymphoma (DLBCL) are presenting 11 abstracts highlighting the potential clinical relevance of NanoString’s Lymphoma Subtyping Test (LST) and its potential for directing treatment decisions, including:

Results from the frontline prospective Phase III BIO-DLBCL04 study conducted by the Fondazione Italiana Linfomi (FIL). The results show that ABC subtype determined by the NanoString LST assay is associated with a worse outcome in untreated, poor-risk, young DLBCL (Abstract #4010).

Researchers from the European Institute of Oncology found that the NanoString LST robustly identifies DLBCL subgroups according to the Cell-of-Origin (COO). The molecular definition of the COO can be used to identify patients at high risk of poor outcome when treated with R-CHOP and who may benefit by intensified high dose chemotherapy or experimental new treatments (Abstract #3998).

Results from an exploratory biomarker analysis of the Phase 3 GOYA Trial comparing the efficacy and safety of obinutuzumab plus CHOP (G-CHOP) with R-CHOP in patients with previously untreated DLBCL. Using the NanoString LST assay and a new cutoff on the Linear Predictor Score (LPS), a new distinct molecular subgroup of GCB DLBCL, referred to as "strong-GCB", was identified. Results from the exploratory analysis show that treatment with G-CHOP confers substantial clinical benefit over R-CHOP in this new subgroup of DLBCL (Abstract #1543).
The table below includes a selection of 2017 ASH (Free ASH Whitepaper) abstracts that best illustrate the potential clinical utility of nCounter across multiple tumor types. You can learn more about the capabilities of the nCounter platform by visiting NanoString at booth #2465 at ASH (Free ASH Whitepaper).

On December 7, 2017 Cascadian Therapeutics, Inc. (NASDAQ:CASC), a clinical-stage biopharmaceutical company, reported that tucatinib in combination with standard of care agents demonstrated prolonged progression-free survival (PFS) in a subgroup of patients participating in two ongoing Phase 1b studies (Press release, Cascadian Therapeutics, DEC 7, 2017, View Source [SID1234522438]). Results from a subgroup analysis from these tucatinib combination studies showed 22 percent of patients with HER2-positive (HER2+) metastatic breast cancer with and without brain metastases achieved prolonged PFS defined as twice the median PFS seen in these studies or else defined as survival greater than 17 months. Patients received a median of two prior HER2-based regimens and the median duration of the last prior treatment in this subgroup was 9.03 months. Patients with prolonged PFS on tucatinib combination therapy included those with characteristics that historically predict poor outcome such as hormone receptor status, presence of visceral disease, burden of systemic or brain disease and age. Results from this analysis will be presented in a poster session at the 2017 San Antonio Breast Cancer Symposium (SABCS) on Friday, December 8, 2017 beginning at 5:00 p.m. CST.

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"One of the challenges in the treatment of HER2+ breast cancer is the frequent development of brain metastases, which occur in up to 50 percent of patients with advanced disease," said Erika Hamilton, M.D., Director of Breast and Gynecology Cancer Research and Principal Investigator at Sarah Cannon Research Institute. "Tucatinib in combination has shown early signs of activity in HER2+ brain metastases. An active agent showing prolonged activity systemically as well as in the brain, with a tolerable safety profile, would represent a meaningful advancement in treating metastatic breast cancer."

Dr. Hamilton continued, "The more mature dataset from these Phase 1b combination studies show tucatinib may be combined with other standard targeted therapies to achieve disease control in patients who have received multiple prior lines of therapy."

Prolonged Progression-Free Survival in Advanced HER2+ Metastatic Breast Cancer with or without Brain Metastases: A Pooled Analysis of Tucatinib Phase 1b Studies

In this poster, data from two Phase 1b combination studies of tucatinib were pooled to analyze the subgroup of patients with prolonged PFS, which was identified as patients achieving at least twice the observed median PFS in the overall group. Baseline characteristics and radiology findings were compared between the subgroup of patients with or without prolonged PFS from two studies: tucatinib in combination with trastuzumab (Herceptin) and capecitabine (Xeloda) in heavily pre-treated patients with advanced HER2+ breast cancer with or without brain metastases (ONT-380-005/Triplet study; n=27), and tucatinib in combination with T-DM1 (ONT-380-004; n=50). Of the 77 patients in the pooled analysis, 47 percent (n=36) of patients are without brain metastases and 53 percent (n=41) are with brain metastases, including patients with untreated or progressive brain metastases after radiation therapy. Twenty-two percent (17/77) of patients demonstrated prolonged PFS; 20 percent (n=10/50) from Study 004 and 26 percent (n=7/27) from Study 005/Triplet. Data from pooled tucatinib studies suggest a similar proportion of patients with brain metastases in the subgroup of patients with prolonged PFS compared to the overall patient population.

In addition, the following investigator-initiated trial in progress poster was presented at SABCS.

Phase 1b/2 Open-Label Single Arm Study to Evaluate Safety and Efficacy of Tucatinib in Combination with Letrozole and Palbociclib in Subjects with Hormone Receptor Positive and HER2 Positive Metastatic Breast Cancer (TULiP Trial)

The University of Colorado Cancer Center presented a trials in progress poster summarizing the study design for the ongoing TULiP trial in patients with hormone receptor positive and HER2-positive (HR+/HER2+) metastatic breast cancer. In this study, tucatinib, a highly selective inhibitor of HER2 tyrosine kinase, is combined with an aromatase inhibitor letrozole and CDK4/6 inhibitor palbociclib. The TULiP study is expecting to enroll 40 patients. It is currently opened for enrollment at the University of Colorado Denver, and soon will be opened at five additional academic institutions (members of Academic Breast Cancer Research Consortium): North Western University, Chicago, IL; University of Texas Health and Science Center at San Antonio, TX; Stony Brook University, NY; University of Arizona, Tucson, AZ, and University of New Mexico, Albuquerque, NM. The Phase 1b part of the trial is expected to enroll 20 patients and will evaluate the tolerability of tucatinib given at maximum tolerated dose (300mg by mouth twice a day) with the standard doses of palbociclib and letrozole. The Phase 2 part of the trial is expected to enroll 20 additional patients to enable analysis of efficacy by overall response rate and progression-free survival. Because of documented activity of tucatinib in the CNS disease, the TULiP trial will include patients with brain metastases. For more information, visit ClinicalTrials.gov, Identifier: NCT03054363.

"Finding novel treatments for HR+/HER2+ breast cancers remains an area of unmet clinical need, because of intrinsic resistance of these tumors to both anti-hormonal treatments and HER2-targeted agents," said Elena Shagisultanova, MD, PhD, Assistant Professor at the University of Colorado Denver Cancer Center and Lead Principal Investigator of TULiP trial. "We are very excited about the TULiP trial. There is significant preclinical evidence on synergistic anti-tumor activity of CDK4/6 inhibitors and HER2-targeted agents. Tucatinib, palbociclib and letrozole have largely non-overlapping toxicity profiles and metabolic pathways. We believe that this triple combination of targeted agents will be well tolerated and highly patient centered, as an effective non-chemotherapy based regimen for treatment of patients with HR+/HER2+ metastatic breast cancer. We are grateful for the support we received from both Cascadian Therapeutics and Pfizer while working on this trial."

To access these poster presentations, please visit www.cascadianrx.com.

About Tucatinib

Tucatinib is an investigational, orally bioavailable, potent tyrosine kinase inhibitor that is highly selective for HER2 without inhibition of EGFR. Inhibition of EGFR has been associated with clinical toxicities, including skin rash and diarrhea. Tucatinib has shown activity as a single agent and in combination with both chemotherapy and other HER2 directed agents such as trastuzumab.1,2 Studies of tucatinib in these combinations have shown activity both systemically and in brain metastases. HER2 is a growth factor receptor that is overexpressed in multiple cancers, including breast, ovarian and gastric cancers. HER2 mediates cell growth, differentiation and survival. Tumors that overexpress HER2 (HER2+) are more aggressive and historically have been associated with poor overall survival, compared with HER2-negative cancers.

About HER2CLIMB Pivotal Trial

HER2CLIMB is a randomized (2:1), double-blind, placebo-controlled pivotal clinical trial comparing tucatinib vs. placebo, each in combination with capecitabine and trastuzumab and without loperamide or budesonide prophylaxis, in patients with locally advanced or metastatic HER2+ breast cancer who have had prior treatment with trastuzumab, pertuzumab and ado-trastuzumab emtansine, also known as T-DM1. The primary endpoint is progression-free survival (PFS) based upon independent radiologic review. Key objectives related to assessing activity in brain metastases include a key secondary endpoint of PFS in a subset of patients with brain metastases. All patients will be followed for overall survival. HER2CLIMB is currently enrolling patients in the United States, Canada, Western Europe and Australia. Additional information is available at www.HER2CLIMB.com.

About HER2+ Metastatic Breast Cancer

Patients with HER2+ breast cancer have tumors with high levels of a protein called human epidermal growth factor receptor 2 (HER2), which promotes the aggressive spread of cancer cells. The American Cancer Society estimates that 20-25 percent of the approximately 246,660 annual new cases of breast cancer diagnoses in the U.S. are HER2+. Historically, HER2 disease has been associated with shorter survival times as well as a higher risk of recurrence and CNS disease (brain metastases). Up to 50 percent of patients with HER2+ metastatic breast cancer experience brain metastases over time.3 Over the past two decades, the approvals of four targeted treatments (trastuzumab, pertuzumab, lapatinib, and T-DM1) have led to improved time to progression and survival rates of patients with HER2+ breast cancer. Despite these advances, there is still a significant need for new therapies that can impact metastatic disease, including brain metastases, and be tolerated for longer periods of time.

On December 7, 2017 Neurocrine Biosciences, Inc. (NASDAQ: NBIX) reported that it will present at the BMO Capital Markets 2017 Prescriptions for Success Healthcare Conference at 11:00 a.m. ET on Thursday, Dec. 14, 2017, in New York City (Press release, Neurocrine Biosciences, DEC 7, 2017, View Source;p=RssLanding&cat=news&id=2321693 [SID1234522445]). Timothy P. Coughlin, Vice President Finance of Neurocrine Biosciences, will present at the conference.

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The live presentation will be webcast and may be accessed on the Company’s website at View Source A replay of the presentation will be available on the website approximately one hour after the conclusion of the event and will be archived for one month.