On April 25, 2018 Conatus Pharmaceuticals Inc. (Nasdaq:CNAT) reported that it will report financial results for the first quarter ended March 31, 2018, after the market close on Wednesday, May 2, 2018 (Press release, Conatus Pharmaceuticals, APR 25, 2018, View Source [SID1234525687]). Conatus will host a conference call and audio webcast at 4:30 p.m. Eastern Time on Wednesday, May 2, 2018, to discuss the financial results and provide a corporate update.

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To access the conference call, please dial 877-312-5857 (domestic) or 970-315-0455 (international) at least five minutes prior to the start time and refer to conference ID 5286754. A live and archived audio webcast of the call will also be available in the Investors section of the Conatus website at www.conatuspharma.com.

On April 25, 2018 Syndax Pharmaceuticals, Inc. ("Syndax," the Company" or "we") (Nasdaq: SNDX), a clinical stage biopharmaceutical company developing an innovative pipeline of cancer therapies, reported five poster presentations at the upcoming American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting being held June 1-5, 2018 in Chicago, Illinois (Press release, Syndax, APR 25, 2018, View Source [SID1234525705]).

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Presentation Details
Title: ADVL1513: Results of a phase 1 trial of entinostat, an oral histone deacetylase inhibitor, in pediatric patients with recurrent or refractory solid tumors
First Author: Suman Malempati, MD, Oregon Health and Science University
Abstract Number: 10556
Poster Session: Pediatric Oncology
Poster Board: 229
Date and Time: Saturday, June 2, 2018, 8:00-11:30 AM CT, Hall A

Title: ENCORE 601: A phase 2 study of entinostat in combination with pembrolizumab in patients with microsatellite stable metastatic colorectal cancer
First Author: Nilofer Saba Azad, MD, Sidney Kimmel Cancer Center at Johns Hopkins University
Abstract Number: 3557
Poster Session: Gastrointestinal (Colorectal) Cancer
Poster Board: 50
Date and Time: Sunday, June 3, 2018, 8:00-11:30 AM CT, Hall A

Title: Efficacy and safety of entinostat (ENT) and pembrolizumab (PEMBRO) in patients with nonsmall cell lung cancer (NSCLC) previously treated with anti-PD-(L)1 therapy
First Author: Leena Gandhi, MD, PhD, NYU Perlmutter Cancer Center
Abstract Number: 9036
Poster Session: Lung Cancer—Non-Small Cell Metastatic
Poster Board: 359
Date and Time: Sunday, June 3, 2018, 8:00-11:30 AM CT, Hall A

Title: Entinostat in combination with nivolumab for patients with advanced cholangiocarcinoma and pancreatic adenocarcinoma
First Author: Marina Baretti, MD, Sidney Kimmel Cancer Center at Johns Hopkins University
Abstract Number: TPS4151
Poster Session: Gastrointestinal (Noncolorectal) Cancer
Poster Board: 330a
Date and Time: Sunday, June 3, 2018, 8:00-11:30 AM CT, Hall A

Title: Efficacy and safety of entinostat (ENT) and pembrolizumab (PEMBRO) in patients with melanoma progressing on or after a PD-1/L1 blocking antibody
First Author: Sanjiv S. Agarwala, MD, St. Luke’s Hospital
Abstract Number: 9530
Poster Session: Melanoma/Skin Cancers
Poster Board: 357
Date and Time: Monday, June 4, 2018, 1:15-4:45 PM CT, Hall A

On April 25, 2018 Deciphera Pharmaceuticals, Inc. (NASDAQ:DCPH), a clinical-stage biopharmaceutical company focused on addressing key mechanisms of tumor drug resistance, reported that an abstract highlighting DCC-2618, the Company’s KIT and PDGFRα inhibitor, has been selected for poster presentation and discussion at the 2018 American Society for Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting, taking place June 1-5, 2018 in Chicago, IL (Press release, Deciphera Pharmaceuticals, APR 25, 2018, View Source [SID1234525689]).

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Details of the presentation on DCC-2618 are as follows:

Poster Title: Mutation profile of drug resistant gastrointestinal stromal tumor (GIST) patients (pts) enrolled in the phase 1 study of DCC-2618.

Author: Suzanne George, Dana-Farber Cancer Institute
Session: Sarcoma, Poster and Discussion Session
Abstract #: 11511
Poster Board #: 256
Date & Time: Saturday June 2, 20183:00 PM – 4:15 PM CT
Location: Hall A, S404, McCormick Place, Chicago, IL

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, or GIST, systemic mastocytosis, or SM, 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 and secondary 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 25, 2018 Provectus Biopharmaceuticals, Inc. (OTCQB: PVCT, www.provectusbio.com), ("Provectus" or the "Company"), a clinical-stage biotechnology company developing PV-10 as the first small molecule oncolytic immunotherapy for solid tumor cancers, and the Pediatric Oncology Experimental Therapeutics Investigators’ Consortium ("POETIC"), a group of North American academic medical centers developing new pediatric cancer therapies, reported that preclinical data from ongoing pediatric cancer research into PV-10 will be presented in a poster presentation at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) ("ASCO") Annual Meeting held in Chicago, IL from June 1-5, 2018 (Press release, Provectus Pharmaceuticals, APR 25, 2018, View Source [SID1234525706]). The presentation is entitled "In vitro and xenograft anti-tumor activity, target modulation and drug synergy studies of PV-10 against refractory pediatric solid tumors."

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The session title is Pediatric Oncology (Saturday, June 2, 8:00-11:30 AM), the topic is Pediatric Solid Tumors, the poster board number is 230, and the abstract number is 10557.

The preclinical pediatric cancer research was led by Aru Narendran, MD, PhD and researchers at the POETIC Laboratory for Pre-Clinical and Drug Discovery Studies at the University of Calgary (Canada), together with Tanya Trippett, MD, Director of POETIC, and researchers at Memorial Sloan Kettering Cancer Center. Further details regarding the presentation will be announced closer to the ASCO (Free ASCO Whitepaper) conference.

About PV-10

Provectus’ lead investigational cancer drug product, PV-10, the first small molecule oncolytic immunotherapy, can induce immunogenic cell death. PV-10 is undergoing clinical study for adult solid tumor cancers, like melanoma and cancers of the liver, and preclinical study for pediatric cancers.

About the Pediatric Oncology Experimental Therapeutics Investigators’ Consortium

The Pediatric Oncology Experimental Therapeutics Investigators’ Consortium (POETIC) was founded in February 2003 by Dr. Tanya Trippett at Memorial Sloan Kettering Cancer Center and Dr. Lia Gore at the University of Colorado Cancer Center. POETIC is composed of ten large academic medical centers in North America with a major emphasis on comprehensive cancer care and research that provide the collaborative and research strength needed to complete intensive phase I and II studies. Each of the institutions is uniquely suited to complete early studies in the pediatric and adolescent populations. POETIC’s assets include membership in NCI-designated Comprehensive Cancer Centers, on-site NIH-funded pediatric and/or general clinical translational research centers (CTRCs/CTSAs), and active collaborations with developmental therapeutics programs for adults at a majority of its member institutions. The availability of strong basic science and translational research programs at the institutions allows focus on the development and evaluation of new therapeutic strategies for patients with cancer and related disorders. POETIC’s pediatric oncology studies focus on the biologic basis for anti-cancer therapy, and in particular, attempt to explore and evaluate novel agents and/or combinations of therapies early in clinical development as well as new approaches to targeted delivery. For additional information about POETIC, please visit the Consortium’s website at www.poeticphase1.org.

On April 25, 2018 Asterias Biotherapeutics, Inc. (NYSE American:AST), a biotechnology company dedicated to developing cell-based therapeutics to treat neurological conditions associated with demyelination and cellular immunotherapies to treat cancer, reported that Cancer Research UK has released the first cGMP (current Good Manufacturing Practice) clinical grade lot of AST-VAC2 to be used to dose subjects enrolling into the first clinical study evaluating AST-VAC2 in non-small cell lung cancer (Press release, Asterias Biotherapeutics, APR 25, 2018, View Source;date=April+25%2C+2018&title=Asterias+Announces+Clinical+Grade+Lot+Released+to+Support+Dosing+of+First+Subjects+in+First+Clinical+Study+of+AST-VAC2 [SID1234525669]).

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"With the release of the first clinical grade lot of AST-VAC2 the first-in-human clinical trial of AST-VAC2 is expected to be initiated soon," stated Mr. Michael Mulroy, President and Chief Executive Officer. "With its potential as a ready-to-administer, off-the-shelf cancer immunotherapy, AST-VAC2 represents an exciting opportunity for Asterias to be more fully recognized as a participant in the rapidly evolving immuno-oncology sector."

Investigational therapies intended for human clinical applications must be manufactured in accordance with cGMP standards designed to help assure the safety and potency of drug products. To achieve cGMP standards, a product must be manufactured and released according to rigorous systems designed to ensure appropriate control of manufacturing facilities, equipment, raw materials, processes and testing procedures. Under the company’s agreement with Cancer Research UK, Asterias has transferred its innovative laboratory scale AST-VAC2 manufacturing process to Cancer Research UK’s Biotherapeutics Development Unit, which has developed, optimized and validated the process for cGMP manufacture and is responsible for producing cGMP AST-VAC2 for use in the upcoming Phase 1 clinical study in non-small cell lung cancer.

With the release of the clinical lot of AST-VAC2, the Company anticipates three sites opening for this study shortly and the first subjects to be dosed in the first half of 2018. As currently designed, the study will enroll up to 24 subjects into one of two cohorts, depending on the stage of each subject’s non-small cell lung cancer.

AST-VAC2 is a "first-in-class" allogeneic cancer immunotherapy that is composed of mature dendritic cells which are designed to kill tumor cells by stimulating immune responses to telomerase, a tumor antigen expressed by over 85% of malignant tumor cells. AST-VAC2 is intended to be available for "on demand" patient use because it is produced from allogeneic pluripotent stem cells that can be manufactured in scale and then cryopreserved.

AST-VAC2 is a platform cancer immunotherapy that could be investigated as a potential therapeutic for many cancer indications and for targeting of many antigens. The results from the Phase 1 clinical trial sponsored by Cancer Research UK could be used to support advanced clinical studies in one or more of the following areas:

Non-small cell lung cancer
Other indications showing high levels of telomerase activity and susceptibility to immunotherapy
In combination with check point or immune pathway inhibitors
In combination with additional antigens, including those arising from the exciting new field of tumor neoantigens
About AST-VAC2

AST-VAC2 is an innovative immunotherapy product that contains mature dendritic cells derived from pluripotent stem cells. These non-patient specific (allogeneic) AST-VAC2 cells are engineered to express a modified form of telomerase, a protein widely expressed in tumor cells, but rarely found in normal cells. The modified form of telomerase invokes enhanced stimulation of immune responses to the protein. Similar to an earlier, Asterias-sponsored, hematological cancer program which provided proof-of-concept data, the AST-VAC2 dendritic cells instruct the immune system to generate responses against telomerase and, through this mechanism, target tumor cells. AST-VAC2 is based on a specific mode of action that is complementary to and potentially synergistic with other immune therapies such as checkpoint inhibitors or other immune pathway inhibitors.

About Non-Small Cell Lung Cancer and the AST-VAC2 Trial

Lung cancer (both small cell and non-small cell) is the leading cause of cancer-related death, accounting for about one-quarter of all cancer deaths and more than colorectal, breast, and prostate cancers combined. Non-small cell lung cancer (NSCLC) accounts for about 80% to 85% of lung cancers, according to the American Cancer Society. The three main types of NSCLC are adenocarcinoma, squamous cell carcinoma, and large cell carcinoma. The American Cancer Society’s estimates for lung cancer in the United States for 2017 are: about 222,500 new cases of lung cancer, and about 155,870 deaths from lung cancer. Despite the large number of people afflicted by non-small cell lung cancer, patients remain vastly underserved due to a scarcity of effective treatments. According to statistics published by Cancer Research UK, the five year survival rate for lung cancer patients in England and Wales is less than 10%.

As currently designed, the AST-VAC2 Phase 1 clinical trial will enroll up to twenty-four subjects into one of two cohorts, depending on the stage of their non-small cell lung cancer. The first cohort will evaluate AST-VAC2 in up to 12 subjects with advanced non-small cell lung cancer. Subjects in this cohort, who carry the major histocompatibility gene, HLA-A2, will receive six weekly injections of AST-VAC2 and will be followed for safety, immune responses to telomerase and overall clinical survival. These survival results will be compared directly to a control group who meet all of the other inclusion/exclusion criteria but do not possess the HLA-A2 gene. Assuming safety is demonstrated in the first cohort, enrollment will advance to a second cohort. In the second cohort, early stage subjects who have had successful resection of their tumor with no evidence of metastasis will be enrolled. Up to 12 subjects in this second cohort who carry the major histocompatibility allele HLA-A2 will receive six, weekly injections of AST-VAC2 and will be followed for safety, immune responses to telomerase, overall clinical survival and time to relapse. These survival results will again be compared directly to a control group who meet all of the inclusion/exclusion criteria of cohort 2 but are not HLA-A2+. Subjects will be followed for one year for immune response to telomerase and for 2 years for the survival endpoints. Asterias and Cancer Research UK are exploring the combination of AST-VAC2 with an immune pathway inhibitor.