On November 28, 2018 Geron Corporation (Nasdaq: GERN) reported that the Company’s analyst and investor event will take place in New York, N.Y., on Monday, December 10, 2018 (Press release, Geron, NOV 28, 2018, View Source [SID1234531717]). Management will be joined by clinical investigators from both IMerge and IMbark who will reprise oral presentations from the 60th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting occurring in early December, as well as discuss the unmet medical need in hematologic myeloid malignancies. The event will begin at 8:00 a.m. ET.

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Azra Raza, M.D., Chan Soon-Shiong Professor of Medicine and Director of the MDS Center in New York, will review data from Part 1 of the ongoing Phase 2/3 IMerge clinical trial of the telomerase inhibitor imetelstat in patients with lower risk myelodysplastic syndromes, including more mature efficacy and safety data from the combined initial and expansion cohorts presented at ASH (Free ASH Whitepaper).

John Mascarenhas, M.D., Associate Professor of Medicine in the Myeloproliferative Disorders Program of the Tisch Cancer Institute, Division of Hematology/Oncology at the Icahn School of Medicine at Mount Sinai, will review data from IMbark, the ongoing Phase 2 clinical trial of imetelstat in patients with Intermediate-2 or High-risk myelofibrosis, including more mature data from the extension phase of IMbark presented at ASH (Free ASH Whitepaper), including median overall survival.

Analysts and investors in attendance will be able to ask questions of the investigators during the question and answer session following the presentations. In addition, the Company will also discuss its development plans for imetelstat, including the start of the Phase 3 portion of IMerge by mid-year 2019.

A live audio webcast of the event will be available on Geron’s website, www.geron.com/investors/events. If you are unable to listen to the live event, an archived webcast of the event will be available on the Company’s website for 30 days

On November 28, 2018 the U.S. Food and Drug Administration approved Truxima (rituximab-abbs) as the first biosimilar to Rituxan (rituximab) for the treatment of adult patients with CD20-positive, B-cell non-Hodgkin’s lymphoma (NHL) to be used as a single agent or in combination with chemotherapy. Truxima is the first biosimiliar to be approved in the U.S. for the treatment of non-Hodgkin’s lymphoma.

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"As part of the FDA’s Biosimilars Action Plan we’re advancing new policies to make the development of biosimilars more efficient and to enable more opportunities for biosimilar manufacturers to make these products commercially successful and competitive. Our goal is to promote competition that can expand patient access to important medicines," said FDA Commissioner Scott Gottlieb, M.D. "The Truxima approval is our third biosimiliar approval in the past month. The growing pipeline of biosimilars is encouraging. We’re seeing more biosimilar drugs gain market share as this industry matures. We’ll continue to make sure biosimilar medications are evaluated efficiently through a process that makes certain that these new medicines meet the FDA’s rigorous standards for approval."

Truxima is indicated for the treatment of adult patients with:

Relapsed or refractory, low grade or follicular, CD20-positive B-cell NHL as a single agent;
Previously untreated follicular, CD20-positive, B-cell NHL in combination with first line chemotherapy and, in patients achieving a complete or partial response to a rituximab product in combination with chemotherapy, as single-agent maintenance therapy; and
Non-progressing (including stable disease), low-grade, CD20­ positive, B-cell NHL as a single agent after first-line cyclophosphamide, vincristine and prednisone (CVP) chemotherapy.

Biological products are generally large, complex molecules and may be produced through biotechnology in a living system, such as a microorganism, plant cell or animal cell. A biosimilar is a biological product that is approved based on data showing that it is highly similar to a biological product already approved by the FDA (reference product) and has no clinically meaningful differences in terms of safety, purity and potency (i.e., safety and effectiveness) from the reference product, in addition to meeting other criteria specified by law.

The FDA’s approval of Truxima is based on a review of evidence that included extensive structural and functional characterization, animal study data, human pharmacokinetic data, clinical immunogenicity data, and other clinical data that demonstrates Truxima is biosimilar to Rituxan. Truxima has been approved as a biosimilar, not as an interchangeable product.

The most common side effects of Truxima are infusion reactions, fever, abnormally low level of lymphocytes in the blood (lymphopenia), chills, infection and weakness (asthenia). Health care providers are advised to monitor patients for tumor lysis syndrome (a complication of treatment where tumor cells are killed off at the same time and released into the bloodstream), cardiac adverse reactions, damage to kidneys (renal toxicity), and bowel obstruction and perforation. Patients should not receive vaccinations while in treatment. Women who are pregnant or breastfeeding should not take Truxima because it may cause harm to a developing fetus or newborn baby.

Like Rituxan, the labeling for Truxima contains a Boxed Warning to alert health care professionals and patients about increased risks of the following: fatal infusion reactions, severe skin and mouth reactions, some with fatal outcomes; Hepatitis B virus reactivation, that may cause serious liver problems including liver failure and death; and Progressive Multifocal Leukoencephalopathy, a rare, serious brain infection that can result in severe disability or death. This product must be dispensed with a patient Medication Guide that provides important information about the drug’s uses and risks.

The FDA granted approval of Truxima to Celltrion. Rituxan was approved in November 1997 and is manufactured by Genentech.

With the Truxima approval, the FDA has approved 15 biosimiliars. On Oct. 30, 2018, the FDA approved Hyrimoz (adalimumab-adaz), from Sandoz, as a biosimilar to Humira (adalimumab) and on Nov. 2, 2018, the FDA approved Udenyca (pegfilgrastim-cbqv) from Coherus, as a biosimilar to Neulasta (pegfilgrastim).

The FDA, an agency within the U.S. Department of Health and Human Services, protects the public health by assuring the safety, effectiveness, and security of human and veterinary drugs, vaccines and other biological products for human use, and medical devices. The agency also is responsible for the safety and security of our nation’s food supply, cosmetics, dietary supplements, products that give off electronic radiation, and for regulating tobacco products.

On November 28, 2018 SELLAS Life Sciences Group, Inc. (Nasdaq: SLS) ("SELLAS" or the "Company"), a clinical-stage biopharmaceutical company focused on the development of novel cancer immunotherapies for a broad range of cancer indications, reported an update on its late-stage clinical development program for the Company’s proprietary galinpepimut-S (GPS) in patients with acute myeloid leukemia (AML) (Press release, Sellas Life Sciences, NOV 28, 2018, View Source [SID1234531677]).

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Following a clinical and regulatory strategy defining Type C dialogue with the U.S. Food and Drug Administration (FDA), the Company plans to proceed with a clinical study design and biostatistical plan to support a Phase 3 registrational study for maintenance therapy for AML patients who have achieved complete remission after second line (salvage) antileukemic therapy, or CR2. This study will be used as the basis for a Biologics License Application (BLA) submission, subject to results that are both statistically significant and reflective of an effect of sufficient magnitude to be clinically meaningful.

"Following discussion with the FDA, we are embarking upon a revised Phase 3 study for GPS in the monotherapy maintenance setting for AML patients who have achieved CR2. The new design is expected to streamline sample size, time to accrual completion, primary endpoint readout and potential time to market, as well as costs. We believe this new study design provides SELLAS with a quicker path to approval, provided the study is positive," said Dr. Angelos M. Stergiou, MD, ScD h.c., President and Chief Executive Officer of SELLAS. "In addition to a statistical analysis plan which we believe accords a viable pathway for meeting the primary endpoint, we have built in an adaptive design, thus further enhancing the probability of a positive study."

GPS was previously given fast track and orphan drug designations in AML by the FDA.

The planned Phase 3 registrational study will be a 1:1 randomized, open-label study comparing GPS monotherapy in the maintenance setting to investigators’ choice best available treatment (BAT) in AML patients who have achieved hematologic complete remission, with or without thrombocytopenia (CR2/CR2p), after second-line antileukemic therapy and who are deemed ineligible for or unable to undergo allogeneic stem-cell transplantation.

The study is expected to enroll approximately 116 patients at around 50 clinical sites in the United States and Europe. It is powered at 90% to show a statistically significant difference in the primary endpoint of overall survival (OS) from the time of study entry. Secondary endpoints to be measured include leukemia-free survival, antigen-specific T-cell immune response dynamics, measurable residual disease by multigene array, and assessments of AML clonal evolution and inflammasome molecular signatures in the tumor microenvironment in bone marrow biopsy samples. The study will have a planned interim analysis for safety and futility after 80 events.

This streamlined CR2 study design, as compared to the previously planned study in AML patients who achieved complete remission following first-line antileukemic therapy (CR1), substantially reduces the study size (116 patients in CR2 vs. 390 patients in CR1) and time until topline data (up to 2.5 years in CR2 vs. 4.5 years in CR1) which will result in corresponding significant cost savings. A Phase 2a study of GPS in the AML CR2 setting conducted at the Moffitt Cancer Center previously demonstrated a clinically meaningful and statistically significant three-fold OS prolongation in patients receiving GPS when compared to a comparable group of contemporaneously assessed unvaccinated patients with a median OS of 16.3 months vs 5.4 months and a p-value of 0.0175, respectively, with treatment-related adverse events primarily comprised of grade 1 or 2 local injection site reactions and only one grade 3 (transient leukopenia) adverse event. A prior Phase 2 study of GPS in AML patients who achieved CR1 also met its primary endpoint with an OS rate at 3 years from first vaccination of 47%.

"We are excited to begin this late-stage Phase 3 program with GPS in AML. Earlier studies have positioned this agent to be a potentially effective approach in prolonging survival by delaying or preventing recurrence in patients in complete remission, most of whom harbor measurable residual disease and have a poor prognosis if they are unable to undergo allotransplant. We are hopeful that this new immunotherapeutic vaccine approach will improve outcomes in this patient population, which is at a very high risk of leukemic relapse," said Hagop M. Kantarjian, MD, Professor and Chair of the Department of Leukemia at the University of Texas MD Anderson Cancer Center, and principal investigator of the upcoming Phase 3 AML clinical development program.

On November 28, 2018 TRACON Pharmaceuticals (NASDAQ:TCON), a clinical stage biopharmaceutical company focused on the development and commercialization of novel targeted therapeutics for cancer, and I-Mab Biopharma ("I-Mab"), a China-based clinical stage biopharmaceutical company exclusively focused on the development of innovative biologics in immuno-oncology and autoimmune diseases, reported the establishment of a series of strategic collaborative partnerships for developing multiple immuno-oncology programs, including I-Mab’s proprietary CD73 antibody TJD5, a novel immuno-oncology asset with best-in-class potential from I-Mab’s broad immuno-oncology portfolio, as well as several proprietary bispecific antibodies ("BsAbs") under development by I-Mab (Press release, Tracon Pharmaceuticals, NOV 28, 2018, View Source [SID1234531718]).

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TRACON and I-Mab entered into a cost-sharing product development collaboration whereby TRACON will be responsible for the regulatory and clinical development of TJD5 and up to five of the BsAbs in North America, with the majority of the development effort expected to occur in the U.S. TRACON will bear the costs of early phases of clinical trials and I-Mab will share the costs for more advanced development stages and commercialization. TRACON will also share the North America rights of any selected BsAbs with I-Mab for each collaborative program, with opt-in rights to in-license the BsAbs from I-Mab in certain territories.

"There is a great strategic fit between the two companies. We have complementary development capabilities and share a passion for science. We are pleased to work with TRACON to facilitate clinical development of TJD5 and any selected BsAbs in North America through a capital efficient partnership," said Jingwu Zang, M.D., Ph.D., CEO of I-Mab. "This partnership recognizes and values the potential of our innovative assets and strong drug discovery and development capabilities." "Partnering with TRACON is an important part of our global development strategy to bring innovative biologics to patients worldwide. It further strengthens our presence in North America following the establishment of our US office and is the latest addition to our growing global partnerships spanning from drug candidates to clinical assets," Zang added.

"We are excited to enter into this broad strategic transaction with I-Mab, an innovative biologics company with a broad pipeline of immuno-oncology assets with great potential to impact the treatment of cancer patients. We are particularly impressed with the similarities in corporate cultures between I-Mab and TRACON," said Charles Theuer, M.D., Ph.D., President and CEO of TRACON. "This agreement expands TRACON’s portfolio of potential first-in-class and best-in-class immuno-oncology therapies and further validates TRACON’s product development solution for companies looking to develop innovative products in the U.S. In particular, we believe our existing in-house drug development expertise can reduce both the cost and time of clinical development for our partners and, when combined with our willingness to cost share, this can be an attractive development option. Given TRACON’s ability to expand our development capacity for additional products, we expect to continue leveraging our platform."

About TJD5

TJD5 is a novel, humanized antibody against CD73, an ecto-enzyme expressed on stromal cells and tumors that converts extracellular adenosine monophosphate (AMP) to adenosine, which is highly immunosuppressive. TJD5 is currently completing IND-enabling studies and is expected to begin clinical testing in the U.S. in the first half of 2019 in a trial to assess safety and preliminary efficacy as a single agent and when combined with PD-1/PD-L1 checkpoint inhibitors in patients with advanced solid tumors.

On November 28, 2018 Vor Biopharma, an immuno-oncology company pioneering hematopoietic stem cell (HSC) therapies for the treatment of hematological malignancies and affiliate of PureTech Health plc (LSE: PRTC), reported that the United States Patent and Trademark Office (USPTO) issued U.S. Patent No. 10,137,155 related to the Company’s technology platform (Press release, Vor BioPharma, NOV 28, 2018, View Source [SID1234531678]). This foundational patent is the first of its kind in the immuno-oncology field and broadly covers compositions and therapeutic methods related to using novel modified HSCs to enable targeted immunotherapies. The platform technology underlies Vor’s pipeline of immuno-oncology candidates, including lead candidate VOR33.

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The now patented technology is designed to address the fundamental limitations of traditional targeted therapies, including antibody-drug conjugates, bispecific antibodies, and chimeric antigen receptor (CAR) T cells, for the treatment of hematologic malignancies. These existing therapies target antigens on malignant cells that also appear on healthy cells, which can result in mass depletion of critical life-sustaining cells. Vor’s approach employs the use of antigen-modified hematopoietic stem cells (amHSCs), which are designed to repopulate a patient’s blood with cells that have a benign genetic modification to a specific surface antigen that escapes targeting and protects the cells from depletion by targeted immunotherapies. By sparing healthy blood cells, this approach may potentially improve patient safety, enable maximal dosing of cancer-targeted therapies, increase the number of potential patient populations that could benefit from these therapies, and expand the reach of targeted immunotherapies beyond B-cell cancers to a broad range of hematological malignancies, including acute myeloid leukemia (AML).

"The USPTO’s allowance of these broad claims provides validation that our approach and intellectual property are novel and first-in-class," said Aleks Radovic-Moreno, Ph.D., PureTech Health Vice President and Vor program lead. "The compositions and methods covered in the patent protect our lead product candidate as we continue development of our technology towards the clinic. This technology has the potential to provide a novel therapeutic approach for patients with aggressive blood cancers that otherwise have very few treatment options and poor prognoses."

The relevant intellectual property is exclusively licensed to Vor Biopharma and is based on technology developed by Siddhartha Mukherjee, M.D., D. Phil, Associate Professor of Medicine at Columbia University and a Staff Physician at Columbia University Medical Center, and his colleagues.

"This approach has the potential to broaden the use of targeted immunotherapies beyond B-cell cancers, and to help patients who have very limited treatment options," said Dr. Mukherjee.

About VOR33
Vor’s lead product candidate, VOR33, is designed to enable maximal CD33-targeted immunotherapy. CD33, a target that is present in the vast majority of acute myeloid leukemia (AML) patients, is also expressed in normal myeloid progenitor cells. Depletion of normal myeloid progenitor cells prevents the beneficial use of several CD33-targeted therapies at important stages throughout the treatment process, at higher doses, and for longer periods of time. By enabling new CD33-targeted therapies, VOR33 has the potential to overcome these challenges and improve treatment for AML. Vor anticipates initiating IND-enabling studies for VOR33 in early 2019.