On November 5, 2015 Genocea Biosciences, Inc. (NASDAQ: GNCA), a biopharmaceutical company developing T cell-directed vaccines and immunotherapies, reported a collaboration with Memorial Sloan Kettering Cancer Center to screen the T cell responses of melanoma and non-small cell lung cancer patients treated with checkpoint inhibitors (CPI) against the complete repertoire of patient-specific putative cancer neoantigens (Press release, Genocea Biosciences, NOV 5, 2015, View Source [SID:1234507993]).

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The goals of the collaboration are to identify signatures of T cell response in cancer patients associated with response or non-response to CPI therapy and to discover new T cell cancer vaccine antigens. ATLAS will be used in conjunction with Memorial Sloan Kettering’s patient-specific cancer neoantigen sequences and blood samples from the same cancer patients. This new collaborative work will be led by investigators Timothy A. Chan, M.D., Ph.D., Vice Chair, Department of Radiation Oncology, and Jedd D. Wolchok, M.D., Ph.D., Chief of Melanoma and Immunotherapeutics Service, Department of Medicine and Ludwig Center.

"ATLAS is unique in that it makes no assumptions about which cancer antigens are meaningful and which are not. It instead takes a panoramic view of all the mutations that may yield novel targets and reveals clinically relevant T cell antigens that associate with protective immunity," said Jessica Baker Flechtner, Ph.D., senior vice president of research at Genocea. "We believe that ATLAS is a powerful platform that enables the identification of T cell responses that must be present to see an effective response to therapy. This can ultimately lead to the discovery of T cell antigens that may drive cancer vaccine development."

About ATLAS
ATLAS is a first of its kind proprietary rapid antigen identification screening system that finds targets of protective T cell responses. The technology solves challenges to date associated with finding targets of T cell responses. ATLAS can examine T cell responses from large, diverse human populations, and comprehensively screen every potential antigen from a pathogen or target indication in a rapid, high throughput manner, taking weeks versus years to find relevant antigens. Because targets identified by ATLAS are based on actual human immune responses to all potential antigens, with no guesswork or predictions, by the time these candidates reach clinical trials there may be a greater likelihood of success in clinical development. This approach provides the ability to identify smarter targets for use in developing vaccines and immunotherapies to treat infectious disease, cancer and autoimmunity.

On November 5, 2015 Genocea Biosciences, Inc. (NASDAQ:GNCA), a biopharmaceutical company developing T cell-directed vaccines and immunotherapies, reported recent corporate highlights and financial results for the third quarter ended September 30, 2015 (Press release, Genocea Biosciences, NOV 5, 2015, View Source [SID:1234507992]).

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"In early October, we reported positive six-month durability data for GEN-003 which further support its potential to serve as a cornerstone therapy for genital herpes infections with convenient, long-term disease control. We look forward to reporting 12-month data from this ongoing trial in the first quarter of 2016 and to our end of Phase 2 meeting with the FDA later next year," said Chip Clark, president and chief executive officer of Genocea. "Additionally, we are excited to report several recent milestones as part of the expansion of our ATLAS technology into oncology, following encouraging data from our ongoing collaboration with the Dana-Farber Cancer Institute. Having demonstrated its power in infectious disease, we believe that ATLAS is positioned to enable smarter identification of cancer vaccine antigens and smarter immuno-oncology response profiling to optimize patient care."

Business Highlights and Anticipated Milestones

GEN-003 – Immunotherapy for treatment of genital herpes in Phase 2 development. Greater than $1 billion potential revenue opportunity in the U.S.

Reported positive results six months after dosing from ongoing Phase 2 dose optimization trial
12-month data expected in the first quarter of 2016
End of Phase 2 meeting with U.S. Food and Drug Administration expected in late 2016
On October 7, 2015, Genocea reported positive results from a planned interim analysis of data collected six months after dosing from its ongoing Phase 2 dose optimization trial evaluating GEN-003 for the treatment of genital herpes. At its best performing dose of 60 µg per protein / 75 µg of Matrix-M2TM adjuvant, GEN-003 demonstrated a statistically significant 58 percent reduction from baseline in the viral shedding rate (p < 0.0001), the primary endpoint of the study and a measure of anti-viral activity.

In a planned secondary analysis to assess the impact on genital lesion rates, GEN-003 demonstrated sustained and statistically significant reductions from baseline in five of six dose groups ranging from 43 to 69 percent. In addition, the proportion of patients receiving GEN-003 who were lesion-free at six months after dosing ranged from approximately 30 to 50 percent, similar to results reported in Phase 3 clinical trials with oral antiviral therapies. A further secondary analysis measuring the time to first recurrence after completion of dosing showed a range of 152 days to greater than 180 days among dose groups. The Phase 2 trial continues to show that GEN-003 is safe and well tolerated by patients, with no serious adverse events related to the vaccine.

GEN-004 – Vaccine for the prevention of infections by all serotypes of pneumococcus.

Reported top-line results from Phase 2a clinical trial in October
Development suspended pending review of potential paths forward
On October 19, 2015, Genocea reported that top-line results from a Phase 2a clinical trial for GEN-004 showed consistent reductions versus placebo in the pre-specified endpoints of the rate and density of colonization, but neither of the endpoints achieved statistical significance. GEN-004 was safe and well tolerated by patients. Genocea has suspended development in GEN-004 pending further review of the data and expert consultation.

ATLAS technology platform – Expansion into immuno-oncology

Results from Dana-Farber collaboration to be presented at SITC (Free SITC Whitepaper) on November 6; collaboration ongoing
New collaboration with Memorial Sloan Kettering Cancer Center announced today
ATLAS’s ability to identify T cell antigens may unlock new cancer vaccines
Immunotherapy program initiated targeting Epstein-Barr Virus
Genocea was founded to create T cell-directed immunotherapies and vaccines using ATLAS, a unique platform for profiling large and diverse patient populations to find the T cell antigens driving protective responses. The Company believes that data reported to date for GEN-003 represents the first evidence of efficacy by an immunotherapy built around new T cell targets for an infectious disease. Building on the success of ATLAS in genital herpes, Genocea initiated a research collaboration with Dana-Farber in 2014 to apply ATLAS in immuno-oncology. This collaboration centered on the potential of ATLAS to identify patterns of T cell response in cancer patients receiving checkpoint inhibitor therapy.

ATLAS makes no assumptions about which cancer antigens are meaningful and which are not. It instead takes a panoramic view of a large, diverse population of human subjects and reveals clinically relevant T cell antigens of protective responses. In contrast to other high-throughput predictive tools currently being applied in oncology drug discovery, Genocea believes that ATLAS has a number of critical benefits, including that it potentially:

Can find antigens to which patients are actually responding;
Can distinguish between clinically relevant and immuno-dominant responses;
Can identify separately targets of CD4+ and CD8+ T cells;
Is not HLA-limited.

These benefits may enable smarter identification of cancer antigens for cancer vaccines and smarter identification of patients best suited to immuno-oncology therapy or therapy combinations.

Dana-Farber Collaboration

In this pilot study, funded by the Ludwig Trust, Genocea partnered with Darren Higgins, Ph.D., professor of microbiology and immunobiology at Harvard Medical School and F. Stephen Hodi, Jr., M.D., director of the Melanoma Center at Dana-Farber Cancer Institute, to conduct a retrospective analysis of 10 checkpoint inhibitor (CPI) treated patients’ T cell responses to 23 known tumor-associated antigens. By analyzing the immune responses of both responders and non-responders to CPI therapy, ATLAS successfully identified the cancer antigens to which either (or both) CD4+ or CD8+ T cells became activated. Although this research was not powered to draw firm conclusions, the analysis of T cell responses in patients receiving CPI therapy revealed a pattern indicating a greater breadth of T cell activation for responders than non-responders. The study also revealed preliminary evidence that different characteristics of T cell responses emerge when comparing patients who respond and those who do not. Some T cell responses did not correspond with improved patient outcomes, and may be classified as "decoys," further validating the ability of ATLAS to distinguish clinically relevant targets of T cell responses. This analysis will be presented as a late-breaker at the Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper)’s (SITC) (Free SITC Whitepaper) 30th Anniversary Annual Meeting & Associated Programs in National Harbor, Maryland. The poster, #342, entitled Immunoprofiling of T cell responses in melanoma patients undergoing CPI therapy, will be presented on Saturday, November 7, 2015 between 12.30 – 2:00p.m. ET.

The collaboration with Dana-Farber is ongoing as Genocea continues to analyze more blood samples to characterize T cell response profiles that may be prognostic of CPI efficacy, and to identify T cell antigens that may be included in novel immunotherapies.

Memorial Sloan Kettering Cancer Center Collaboration

The Company reported a collaboration with Memorial Sloan Kettering Cancer Center to screen the T cell responses of melanoma and non-small cell lung cancer patients treated with checkpoint inhibitors against the complete repertoire of patient-specific putative cancer neoantigens.

The goals of the collaboration are to identify signatures of T cell response in cancer patients associated with response or non-response to CPI therapy and to discover new T cell cancer vaccine antigens. ATLAS will be used in conjunction with Memorial Sloan Kettering’s patient-specific cancer neoantigen sequences and blood samples from the same cancer patients. This new collaborative work will be led by investigators Timothy A. Chan, M.D., Ph.D., Vice Chair, Department of Radiation Oncology, and Jedd D. Wolchok, M.D., Ph.D., Chief of Melanoma and Immunotherapeutics Service, Department of Medicine and Ludwig Center.

Epstein-Barr Virus Immunotherapy Program Initiated

Genocea has commenced a new program focused on Epstein-Barr Virus (EBV). EBV infection has been linked to cancers with high unmet needs such as non-Hodgkin’s lymphoma, nasopharyngeal carcinoma and gastric carcinoma. We believe the ATLAS platform is highly suited to the creation of a new immunotherapy for EBV given that T cell responses are understood to be crucial for protection against EBV. Furthermore, EBV is part of the herpesvirus family, in which Genocea has deep experience through its development of GEN-003.

Completed $50 million public offering in August 2015.

Funding expected to be sufficient to complete GEN-003 Phase 2 program
Strengthened balance sheet provides foundation for ongoing business development activities
In August 2015, Genocea closed a public offering of 3,850,000 shares of common stock. Gross and net proceeds to Genocea from this offering were approximately $50 million and $47 million, respectively.

Third Quarter 2015 Financial Results & Financial Guidance

Cash Position: Cash, cash equivalents and investments as of September 30, 2015 were $112.5 million, compared to $74.6 million as of June 30, 2015. Genocea expects that these funds will be sufficient to fund its operating expenses and capital expenditure requirements into the second half of 2017.

Research and Development (R&D) Expenses: R&D expenses for the quarter ended September 30, 2015 were unchanged at $6.1 million compared to the same period in 2014, reflecting higher personnel costs and increased lab-related costs offset by reductions in manufacturing and licensing fees related to the commencement of GEN-003 and GEN-004 clinical trials. We continue to make investments in Genocea’s preclinical pipeline, which offset lower R&D expense for our GEN-003 and GEN-004 programs on a quarter over quarter basis.

General and Administrative (G&A) Expenses: G&A expenses for the quarter ended September 30, 2015 were $3.6 million, compared to $2.8 million for the same period in 2014. The increase reflects higher personnel costs and depreciation expense, both of which support Genocea’s expanding R&D operations and the demands of operating as a public company.

Net Loss: Net loss was $9.8 million for the third quarter of 2015, compared to a net loss of $9.2 million for the same period in 2014.

On November 5, 2015 Curis, Inc. (NASDAQ:CRIS), a biotechnology company focused on the development and commercialization of innovative drug candidates for the treatment of cancers, reported that Phase 1 data for CUDC-907, Curis’ proprietary dual histone deacetylase (HDAC) and phosphoinositide 3-kinase (PI3K) inhibitor will be presented at the 57th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting to be held from Dec. 5-8, 2015 in Orlando, FL (Press release, Curis, NOV 5, 2015, View Source [SID:1234507991]).

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The Principal Investigator of the study, Dr. Anas Younes, Chief of the Lymphoma Service of the Memorial Sloan Kettering Cancer Center in New York City, will present the data in an oral presentation at the meeting.

Additional information on the presentation can be found below and abstracts can be accessed at www.hematology.org.

Oral Presentation

Date/Session Time: Sunday, Dec. 6, 2015, 12:00 PM – 1:30 PM
Session Name: Lymphoma: Chemotherapy, excluding Pre-Clinical Models: NHL – New Drugs
Presentation Title: Phase 1 Trial Testing Single Agent CUDC-907, a Novel, Oral Dual Inhibitor of Histone Deacetylase (HDAC) and PI3K: Initial Assessment of Patients with Relapsed or Refractory (RR) Diffuse Large B-Cell Lymphoma (DLBCL), Including Double Expressor (DE) Lymphoma
Presentation Time: 1:00 PM
Location: Orange County Convention Center, W311

On November 5, 2015 Cellectis (Alternext: ALCLS – Nasdaq: CLLS) reported that Great Ormond Street Hospital (GOSH) and University College London (UCL) will present encouraging data from a first in man clinical use of UCART19, at the 57th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting in Orlando during the poster session (Press release, Cellectis, NOV 5, 2015, View Source [SID:1234507990]).

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GOSH has treated in June 2015 a young leukemia patient under a special license from the Medicines & Healthcare products Regulatory Agency(MHRA) with Cellectis’ TALEN gene edited allogeneic UCART19 product candidate because no other therapies were available for refractory relapsed Acute Lymphoblastic Leukemia (ALL) following mismatched allogeneic stem cell transplantation.

In response to an unsolicited request from Professor Waseem Qasim, Consultant Immunologist at GOSH and Professor of Cell and Gene Therapy at University College London (UCL) Institute of Child Health, Cellectis gave its approval for the use of its UCART19 product candidate and technologies under GOSH’s "Specials" license and responsibility, for the particular clinical needs of that individual patient.

Professor Qasim says: "The successful treatment of a patient with UCART19 cells represents a landmark in the use of new gene engineering technology. If replicated in other patients, it could represent a huge step forward in treating leukaemia and other cancers."

"We are very glad for this young patient to have benefited from our highly innovative TALEN gene edited allogeneic CAR T therapy UCART19. We expect to accelerate our clinical development of TALEN gene-edited allogeneic CAR-T therapies to further confirm this encouraging clinical proof of concept," said Doctor Mathieu Simon, MD, Executive Vice President, Chief Operating Officer at Cellectis.

"Our team aims to provide to patients, with unmet medical needs, access to the first allogeneic CAR-T therapy, UCART19 made with Cellectis’ TALEN gene-editing technologies," said Doctor André Choulika, Founder, Chairman and Chief Executive Officer of Cellectis. "Cellectis had, is and will invest significant amounts of energy and creativity to provide cancer patients with an accessible, cost-effective, off-the-shelf allogeneic CAR-T therapies across all geographies. UCART19 has been provided for to a patientwho could not undergo an autologousCAR-T therapy. Our goal is to make our product candidates accessible to anyone."

About UCART19
UCART19 is a potential best-in-class allogeneic engineered T-cell product for treatment of CD19 expressing hematologic malignancies, initially developed in Chronic lymphocytic leukemia (CLL) and Acute lymphoblastic leukemia (ALL). Servier has an option under the collaboration agreement to acquire the exclusive rights to further develop and commercialize UCART19. Engineered allogeneic CD19 T-cells currently stand out as a real therapeutic innovation for treating various types of leukemia and lymphoma. Cellectis’ approach with UCART19 is based on the preliminary positive results from clinical trials using products based on the CAR technology and has the potential to overcome the limitation of the autologous current approach by providing an allogeneic frozen, "off the shelf" T-cell based medicinal product.

About Great Ormond Street Hospital (GOSH)
Great Ormond Street Hospital for Children NHS Trust is the country’s leading centre for treating sick children, with the widest range of specialists under one roof. With the UCL Institute of Child Health, they are the largest centre for paediatric research outside the US and play a key role in training children’s health specialists for the future.

About the UCL department of hematology
The UCL department of hematology is the major tertiary referral center in the UK for all types of hematological malignancies. They have assumed a global leadership position in stem cell transplantation and adoptive cell therapy for leukemia patients.

On November 5, 2015 BioLineRx Ltd. (NASDAQ, TASE: BLRX), a clinical-stage biopharmaceutical company dedicated to identifying, in-licensing and developing promising therapeutic candidates, reported positive results from the dose escalation part of BL-8040’s Phase 2 clinical trial in relapsed or refractory acute myeloid leukemia (r/r AML) (Press release, BioLineRx, NOV 5, 2015, View Source;p=RssLanding&cat=news&id=2107352 [SID:1234507989]). The results will be presented at the 57th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting, to be held December 5-8, 2015 in Orlando, Florida.

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Results showed that BL-8040, as a single agent and in combination with Cytarabine (Ara-C), was safe and well tolerated at all doses tested up to and including the highest dose level of 1.5 mg/kg, with no major adverse events. The composite complete remission rate, including both complete remission (CR) and complete remission with incomplete blood count recovery (CRi), was 38% in subjects receiving only one cycle of BL-8040 treatment at doses of 1 mg/kg and higher (n=16). Patients included in this part of the study were patients that had undergone a significant number of prior treatment cycles or that were refractory to induction treatment.

Treatment with BL-8040 had a triple effect on the leukemic cells. First, following only two days of monotherapy, BL-8040 triggered an average 40-fold mobilization of immature AML progenitor cells from the bone marrow to the peripheral blood, thereby sensitizing these cells to the Ara-C chemotherapy and improving its efficacy. Second, BL-8040 showed a direct and significant apoptotic effect on the immature leukemia progenitor cells in the bone marrow following the two days of monotherapy. Last, BL-8040 induced leukemia progenitor cells towards differentiation, as evidenced by a 58% median decrease in the number of bone marrow leukemia progenitor cells, along with a three-fold increase in differentiated granulocytes, in the bone marrow biopsy conducted on Day 3 of the treatment cycle prior to the Ara-C treatment, as compared to the biopsy performed at baseline.

Dr. Jorge Cortes, Chief of the AML and CML Sections at the MD Anderson Cancer Center in Houston, stated, "The clinical results from the dose escalation stage of the Phase 2 study for BL-8040 in r/r AML are very encouraging and fully support continued development of the compound in the AML space."

Dr. Kinneret Savitsky, CEO of BioLineRx, commented, "We are very pleased and encouraged by the positive results from the first part of this Phase 2 trial with BL-8040 for the treatment of r/r AML, especially in light of the severity of the patient population recruited and the short treatment regimen of one cycle. The results continue to demonstrate that BL-8040 not only significantly induces mobilization of leukemic cells from the protective microenvironment of the bone marrow into the peripheral blood, but also directly leads to apoptosis of leukemic progenitor cells and triggers terminal differentiation of the cells into granulocytes. Combined with the reported 38% remission rate from subjects receiving BL-8040 doses of at least 1 mg/kg, the results strongly suggest that BL-8040 has potent anti-leukemic activity and, in combination with Ara-C, may improve the response typically achieved in this advanced AML population." Dr. Savitsky continued, "In light of the encouraging results, we look forward to discussions with the regulatory authorities regarding the future development plan for AML. We currently anticipate reporting topline results from the full study by early next year."

"In order to further expand and enhance the potential of this unique oncology platform, we are continuing to perform and plan multiple additional clinical studies for BL-8040. These include a Phase 2b study which we recently initiated for BL-8040 as an AML consolidation treatment; a Phase 2 study in the planning stages as a novel stem cell mobilization treatment, based on input that we received from the FDA last month; and two additional studies in certain bone marrow failure indications and for the treatment of AML patients with the FLT3-ITD mutation," concluded Dr. Savitsky.

About the r/r AML Phase 2 study

The Phase 2 trial is a multicenter, open-label study under an IND, conducted at ten clinical sites in the U.S. and Israel, and is designed to assess the safety, efficacy pharmacodynamics and pharmacokinetic parameters of BL-8040 in combination with Cytarabine (Ara-C) for the treatment of adult relapsed or refractory AML patients. Twenty-two patients with r/r AML were enrolled in the dose escalation stage of the study (16 of which received a dose of 1 mg/kg and higher), which includes a dose escalation stage followed by an expansion stage. In the dose escalation stage, each patient received a once daily dose of BL-8040 monotherapy (from 0.5 to 1.5 mg/kg) on days 1-2 followed by the same dose of BL-8040 plus Ara-C on days 3-7. Extensive pharmacodynamic parameters, such as mobilization of leukemic cells and induction of apoptosis, were assessed after monotherapy with BL-8040 using peripheral blood sampling and bone marrow aspirates at baseline and on Day 3 prior to Ara-C administration. Clinical response to treatment was evaluated by bone marrow biopsy on Day 30.

About BL-8040

BL-8040 is a clinical-stage drug candidate for the treatment of acute myeloid leukemia, as well as other hematological indications. It is a short peptide that functions as a high-affinity antagonist for CXCR4, a chemokine receptor that is directly involved in tumor progression, angiogenesis (growth of new blood vessels in the tumor), metastasis (spread of the disease to other organs or organ parts) and cell survival. CXCR4 is over-expressed in more than 70% of human cancers and its expression often correlates with disease severity. In a Phase 1/2, open-label, dose escalation, safety and efficacy clinical trial in 18 multiple myeloma patients, BL-8040, when combined with G-CSF, demonstrated an excellent safety profile at all doses tested and was highly effective in the mobilization of hematopoietic stem cells and white blood cells from the bone marrow to the peripheral blood. Additionally, in a Phase 1 stem-cell mobilization study in healthy volunteers, BL-8040 as a single agent was safe and well tolerated at all doses tested and resulted in efficient stem-cell mobilization and collection in all study participants. Importantly, the results of this study support the use of BL-8040 as one-day, single-dose collection regimen, which is a significant improvement upon the current standard of care.

BL-8040 also mobilizes cancer cells from the bone marrow and may therefore sensitize these cells to chemo- and bio-based anti-cancer therapy. Importantly, BL-8040 has also demonstrated a direct anti-cancer effect by inducing apoptosis. Pre-clinical studies show that BL-8040 inhibits the growth of various tumor types including multiple myeloma, non-Hodgkin’s lymphoma, leukemia, non-small cell lung carcinoma, neuroblastoma and melanoma. BL-8040 also significantly and preferentially stimulated apoptotic cell death of malignant cells (multiple myeloma, non-Hodgkin’s lymphoma and leukemia). Significant synergistic and/or additive tumor cell killing activity has been observed in-vitro and in-vivo when tumor cells were treated with BL-8040 together with Rituximab, Bortezomib, Imatinib, Cytarabine and the FLT-3 inhibitor AC-220 (in NHL, MM, CML, AML, and AML-FLT3-ITD models, respectively). In addition, the current Phase 2 clinical trial in AML patients has demonstrated robust mobilization and apoptosis of cancer cells. BL-8040 was licensed by BioLineRx from Biokine Therapeutics and was previously developed under the name BKT-140.

About Acute Myeloid Leukemia (AML)

Acute myeloid leukemia (AML) is a cancer of the blood and bone marrow and is the most common type of acute leukemia in adults. According to the American Cancer Society, approximately 19,000 new cases of AML were diagnosed in the United States in 2014, and the median age of AML patients was 67 years old. The first treatment line for patients with AML includes a combination of chemotherapy drugs and is called induction treatment. The median survival for AML patients receiving induction chemotherapy is less than two years, with shorter survival for patients over the age of 60 or for those with certain gene or chromosome aberrations. Due to relapsed or refractory disease (where the disease is not responsive to standard treatments), the overall five-year survival rate for AML is between 10 and 40 percent.