On 15 February, 2018 ISA Pharmaceuticals B.V. (‘ISA’), a clinical-stage immunotherapy company, and Scancell Holdings plc, (‘Scancell’ or the ‘Company’), the developer of novel immunotherapies for the treatment of cancer, reported that they have entered into a worldwide licensing and collaboration agreement to use ISA’s AMPLIVANT adjuvant technology for the manufacturing, development and commercialisation of Scancell’s first Moditope development candidate, Modi-1 (Press release, ISA Pharmaceuticals, FEB 15, 2018, https://www.isa-pharma.com/isa-pharmaceuticals-and-scancell-enter-collaboration-agreement-for-the-manufacturing-development-and-commercialisation-of-modi-1-amplivant-combination/ [SID1234612392]). This partnership has the potential to provide a new treatment option for patients with triple negative breast cancer, ovarian cancer, sarcomas, and other solid tumours.

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Under the terms of this agreement, ISA has granted Scancell an exclusive worldwide license to manufacture, develop and commercialise the AMPLIVANT:Modi-1 conjugate therapy and will contribute know-how and expertise related to AMPLIVANT. Clinical studies will be conducted by Scancell and are expected to commence in H1 2019.

In return, ISA will receive an upfront payment from Scancell and is entitled to milestone and royalty fees following achievement of certain criteria as defined in the agreement. Financial details were not disclosed.

Previous pre-clinical data demonstrated that conjugation of the Modi-1 peptides to AMPLIVANT enhances anti-tumour immune responses 10-100 fold and resulted in highly efficient tumour eradication, including protection against tumour re-challenge.

ISA’s AMPLIVANT technology can be applied to any type of targeted immunotherapy, significantly enhancing its efficacy. It is based on a proprietary and synthetic small molecule TLR1/2 ligand with enhanced immunostimulatory activity that can be chemically coupled to the respective immunotherapeutic. AMPLIVANT conjugates allow lower dosing with higher efficacy through better dendritic cell antigen processing and presentation, as well as enhanced T cell priming.

Scancell’s Moditope platform acts by stimulating the production of CD4+ T cells using citrullinated tumour-associated peptide epitopes. This technology overcomes the immune suppression induced by tumours themselves, allowing activated T cells to seek out and kill tumour cells that would otherwise be hidden from the immune system.

"This collaboration is an important step to advance new adjuvant technologies such as AMPLIVANT to clinical-stage programmes and bring patients better treatments," said Ronald Loggers, CEO of ISA Pharmaceuticals. "The partnership will further validate the power of AMPLIVANT conjugates for use in therapeutic cancer vaccines that carry a variety of epitopes, including post-translationally modified epitopes such as Scancell’s Moditope products."

Cliff Holloway, CEO of Scancell, commented: "This collaboration with ISA Pharmaceuticals is an important step in the continued development and commercialisation of our first Moditope immunotherapy, Modi-1, which has the potential to treat patients with triple negative breast cancer, ovarian cancer and sarcoma who are resistant to other immunotherapies. Our pre-clinical studies have demonstrated Modi-1 induces potent anti-tumour responses and significant improvements in survival. We believe that combining Modi-1 with an enabling adjuvant technology such as AMPLIVANT has the potential to significantly enhance its efficacy in patients and we are looking forward to moving this important and novel therapy into the clinic in the first half of 2019."

This announcement contains inside information for the purposes of Article 7 of Regulation (EU) 596/2014 (MAR).

On February 15, 2018 Insmed Incorporated (Nasdaq:INSM), a global biopharmaceutical company focused on the unmet needs of patients with rare diseases, reported that it will release its fourth quarter and year-end financial results on Friday, February 23, 2018 (Press release, Insmed, FEB 15, 2018, View Source [SID1234524006]).

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Insmed management will host a conference call for investors beginning at 8:30 a.m. ET on Friday, February 23, 2018 to discuss the financial results and provide a business update.

Shareholders and other interested parties may participate in the conference call by dialing (844) 707-0669 (domestic) or (703) 639-1223 (international) and referencing conference ID number 9066979. The call will also be webcast live on the internet on the company’s website at www.insmed.com.

A replay of the conference call will be accessible approximately two hours after its completion through March 2, 2018 by dialing (855) 859-2056 (domestic) or (404) 537-3406 (international) and referencing conference ID number 9066979. A webcast of the call will also be archived for 90 days under the Investor Relations section of the company’s website at www.insmed.com.

On February 15, 2018 Moleculin Biotech, Inc., (NASDAQ: MBRX) ("Moleculin" or the "Company"), a clinical stage pharmaceutical company focused on the development of anti-cancer drug candidates, some of which are based on license agreements with The University of Texas System on behalf of the MD Anderson Cancer Center ("MD Anderson"), reported that, pursuant to its continued collaboration with MD Anderson it has developed and licensed what it believes, based on preclinical testing, is a major breakthrough in its effort to develop a new cancer treatment that selectively kills highly resistant tumors (Press release, Moleculin, FEB 15, 2018, View Source [SID1234524009]).

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"We believe our unique approach to develop immuno-stimulating STAT3 inhibitors just took a major step forward," commented Walter Klemp, Chairman and CEO of Moleculin. "Our WP1066 portfolio has already resulted in multiple collaborations with some of the most prestigious cancer centers in the world and now this new discovery could dramatically improve our ability to treat a broader range of the most difficult cancers, and especially pancreatic cancer."

Dr. Don Picker, Moleculin’s Chief Science Officer, explained, "The scientific community recognizes the potential for small molecule immuno-stimulating STAT3 inhibitors to become a game-changer for treating cancer patients. We believe this discovery may not only dramatically improve our ability to develop and deliver such therapies, it may also help support a new mechanistic understanding of oncogenic transcriptional activity. Specifically, we now have preclinical evidence to suggest we are capable of controlling a process known as ‘ubiquitination’ to block the activated form of STAT3, an important oncogenic transcription factor. The study of the role of ubiquitination in cancer is cutting edge science and appears to hold great promise. And, given the desperate lack of treatment options for indications like pancreatic cancer, we believe clinical researchers across the country have been eagerly awaiting a breakthrough like this."

"In developing our current lead STAT3 inhibitor, WP1066, for brain tumors, we have focused on its oral bioavailability and brain uptake," continued Dr. Picker, "but at the same time we have continued our quest to expand this portfolio by the creating alternative inhibitors with increased bioavailability and altered tissue and organ distribution that are not affected by first-pass metabolism. The lead molecule resulting from this new discovery is called WP1732 and it not only appears to share the same key mechanistic properties with WP1066, it has markedly different organ distribution and its dramatically increased solubility makes it ideal for administration via standard IV injection. Importantly, preclinical testing has also shown that WP1732’s properties make it a promising candidate for treating pancreatic cancer, one of the most resistant and deadly forms of cancer."

"So much has happened in the past few months, it’s important to recap where we are," added Mr. Klemp. "Moleculin has three potential breakthrough disruptive technologies – (1) Annamycin, an anticancer agent that is active against multidrug resistant tumor cells and has been designed to be non-cardio toxic (unlike currently approved drugs in this class), (2) immuno-stimulating STAT3 inhibitors like WP1066 and, now, WP1732, and (3) WP1122, a metabolic inhibitor that has been shown in preclinical testing to effectively block the energy supply required by cancer cells to function and proliferate. Since our IPO in June 2016, we have accelerated to the point of having two drugs, Annamycin and WP1066, beginning clinical trials in the near term."

Mr. Klemp concluded, "We are now demonstrating the breadth of our drug pipeline and the benefits of collaborating with world-class cancer research centers. In the AML space, we expect patient dosing either in the United States or Poland to begin with Annamycin yet this quarter and we have begun to work with researchers at MD Anderson on using our immuno-stimulating STAT3 inhibitors to target AML as well. A second clinical trial targeting brain tumors with WP1066 should begin dosing within the first half of the year. In Poland, we are about to request a clinical trial authorization for WP1220 for the topical treatment of Cutaneous T-Cell Lymphoma (CTCL), which we expect will become our third clinical trial this year. WP1220 is our patented STAT3 inhibitor designed to be compatible with topical formulations and was selected based on its preclinical activity in CTCL cell lines and based on the need for better topical treatments for CTCL. Additionally, we just announced positive data for WP1122, our glycolysis inhibitor, in a pancreatic cancer mouse model. Along with the newly licensed discovery of WP1732, this sets the course for establishing the base for two more Investigational New Drug (IND) applications over the coming year and positions us as a leader in developing new approaches for pancreatic cancer. Our highly experienced leadership and expanding team is looking forward to sharing more progress on all of this activity as we move forward into 2018."

On February 15, 2018 GT Biopharma, Inc. (OTCQB: GTBP) (GTBP.PA) ("GT" or the "Company"), a clinical-stage biopharmaceutical company focused on the development and commercialization of novel cancer immunotherapy products as well as central nervous system treatments, reported that Shawn M. Cross will become Chairman and Chief Executive Officer effective February 15, 2018 (Press release, GT Biopharma , FEB 15, 2018, View Source [SID1234539533]).

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Mr. Cross has held the position of President and Chief Operating Officer of GTBP since November 16, 2017. The plan to add The Chairman of the Board and CEO positions to Mr. Cross’ duties as President/COO was initiated by the Company’s board of directors to prepare the company for its next phase of growth. Mr. Cross will lead GTBP through NASDAQ capital markets listing process, attract institutional investment and analyst coverage to the company, and guide development of its neurology portfolio and its first TriKE into human clinical testing in 2018.

Dr. Kathleen Clarence-Smith will become Vice Chairwoman of the Board of Directors and President of the Neurology Division to focus her efforts on creating value in GTBP’s central nervous system portfolio and drive the company’s intellectual property developments.

Anthony J. Cataldo will remain as a member of the Board of Directors and become a consultant to the company.

Mr. Cross is an internationally recognized healthcare investment banker specializing in the biopharmaceutical sector with over 20 years of experience and has completed dozens of capital markets and strategic transactions for growth-oriented biopharmaceutical companies. He joined GTBP as President and Chief Operating Officer of the Company. Previously he was Managing Director, Head of Biotechnology Investment Banking at Deutsche Bank Securities Inc. and Managing Director and Head of Biopharmaceutical Investment Banking at Wells Fargo Securities, LLC where he completed dozens of capital markets and strategic transactions for growth-oriented biopharmaceutical companies.

GT Biopharma Executive Chairman Anthony J. Cataldo said, "It is now time to move GT Biopharma to an institutional quality biotech company. I created GTBP using the same model I used when creating, what is now known as, Iovance Biotherapeutics, Inc. (IOVA); an approximately $1.5 billion market cap company. The leadership provided by Shawn Cross, Dr. Kathleen Clarence-Smith and Dr. Ray Urbanski, our Chief Medical Officer will be invaluable to moving these assets towards clinical and commercial success. I am excited for our shareholders and look forward to helping the board and management progress GT Biopharma to becoming a significant biotech company."

GT Biopharma Chief Executive Officer Dr. Kathleen Clarence-Smith said, "Having known Shawn for over a decade, I’m confident that Shawn will be a very effective CEO for GTBP while I focus on maximizing the value of our neurology portfolio. I look forward to moving the company to the next level."

GT Biopharma President and COO Shawn M. Cross said, "I continue to see a great deal of promise in GT Biopharma’s pipeline of immuno-oncology and neurology therapeutics and am honored to become Chairman and Chief Executive Officer of such a dynamic company. I look forward to announcing additional experienced members to our management team and board in the coming weeks. I also am excited to work closely with Dr. Urbanski as we prepare to enter our first TriKE into human clinical testing as well as with Dr. Clarence-Smith in creating value from our neurology portfolio."

On February 15, 2018 The Janssen Pharmaceutical Companies of Johnson & Johnson reported Health Canada’s approval of ZYTIGA (abiraterone acetate) in combination with prednisone and androgen deprivation therapy (ADT) for the treatment of patients with newly diagnosed, high-risk metastatic hormone-sensitive prostate cancer (mHSPC) who may have received up to three months of prior ADT (Press release, Johnson & Johnson, FEB 15, 2018, View Source [SID1234524007]).

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This latest approval is based on Phase 3 data from the pivotal LATITUDE clinical trial, a multinational, multicenter, randomized, double-blind, placebo-controlled trial (N=1,199) that examined the use of ZYTIGA 1,000 mg once daily in combination with prednisone 5 mg once daily and ADT, compared to placebos plus ADT in patients with newly diagnosed mHSPC.3 The study showed ZYTIGA, in combination with prednisone and ADT reduced the risk of death by 38 per cent compared to placebo plus ADT (median OS not reached vs. 34.7 months, respectively; HR=0.62; 95% confidence interval [CI], 0.51 to 0.76; P < 0.001) in patients with mHSPC.4

"Previously men with newly diagnosed metastatic prostate cancer have had limited options for first-line treatments," Dr. Fred Saad, Chief of Urology, Centre Hospitalier de l’Université de Montréal, Université de Montreal and LATITUDE clinical investigator.** "This latest approval for ZYTIGA is an exciting milestone for men, their caregivers and treating clinicians as it provides a new first-line treatment option for high-risk metastatic hormone-sensitive prostate cancer that improves overall survival and quality of life."

About the LATITUDE Study
The LATITUDE study, published in the New England Journal of Medicine,5 enrolled 1,199 newly diagnosed patients with high-risk mHSPC and was conducted at 235 sites in 34 countries, including sites in 10 Canadian cities and with 33 Canadian patients.6,7 A total of 597 patients were randomized within three months of diagnosis to receive ADT plus ZYTIGA and prednisone, while 602 patients were randomized to receive ADT and placebo.8 Patients were high-risk mHSPC as defined as having at least two of the three following factors associated with poor prognosis: Gleason score ≥8, ≥3 bone lesions and/or presence of measurable visceral metastases.9

Overall, the safety profile of ZYTIGA in combination with prednisone and ADT was similar to prior studies in patients with metastatic castration-resistant prostate cancer (mCRPC).10 In the LATITUDE study, patients received a lower dose of prednisone at 5 mg/day with the usual dose of ZYTIGA at 1,000 mg/day plus ADT. The most common all grade adverse reactions (≥10%) observed with ZYTIGA compared to placebo were hypertension (36.7% versus 22.1%), hypokalemia (20.4% versus 3.7%) and hot flushes (15.4% versus 12.5%).

About Prostate Cancer in Canada
Prostate cancer is a disease where prostate cells lose control of growth and division, and are no longer able to function as healthy cells.11,12 It can be slow-growing and go undetected for years.13

Prostate cancer is the most common cancer among Canadian men, with approximately 21,300 men diagnosed each year.14 Roughly 10 to 20 per cent of those living with prostate cancer will present with metastatic disease,15 in which the tumour has spread beyond the prostate to other parts of the body. There is no cure for metastatic prostate cancer.16

Metastatic hormone-sensitive prostate cancer refers to prostate cancer that still responds to testosterone suppression therapy.17 Patients with newly diagnosed metastatic disease and high-risk disease characteristics tend to have a poorer prognosis.18

About ZYTIGA
ZYTIGA blocks CYP17-mediated androgen production at three sources: in the testes, adrenals and the prostate tumour tissue.19 Androgen production left unchecked fuels the growth of prostate cancer.20

Health Canada first approved ZYTIGA in 2011 to be used in combination with prednisone for the treatment of mCRPC in patients who have received prior chemotherapy containing docetaxel after failure of ADT. In 2013, it was approved for mCRPC in patients who are asymptomatic or mildly symptomatic after failure of ADT.21