On December 10, 2019 The Janssen Pharmaceutical Companies of Johnson & Johnson reported that results from the Phase 3 CANDOR study showing that the addition of Darzalex (daratumumab) to carfilzomib (Kyprolis▼) and dexamethasone (DKd), compared to carfilzomib and dexamethasone (Kd) alone, significantly improved progression-free survival (PFS) in patients with relapsed/refractory multiple myeloma, resulting in a 37 percent reduction in the risk of disease progression or death (Hazard Ratio [HR]=0.63; 95 percent confidence interval [CI], 0.46-0.85; p=0.0014) (Press release, Janssen Pharmaceuticals, DEC 10, 2019, View Source [SID1234552206]).1 The study results were reported for the first time and presented as a Late-Breaking Abstract (#LBA-6) at the 2019 American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting.

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"These data from the Phase 3 CANDOR study reinforce the growing body of evidence supporting the use of daratumumab-containing regimens in the treatment of multiple myeloma," said Saad Z. Usmani, M.D., Division Chief of Plasma Cell Disorders, Levine Cancer Institute, and principal investigator. "The results provide important evidence for this combination regimen in the relapsed and refractory setting, where there is still significant unmet need, especially for lenalidomide refractory patients."

Results from the CANDOR study showed that, compared to Kd alone, DKd resulted in significantly longer PFS and response rates.1 The primary endpoint of PFS was met after a median follow-up of 16.9 months and 16.3 months for the DKd and Kd arms, respectively.1 Median PFS was not reached in the DKd arm versus 15.8 months in the Kd arm.1 At 12 months, patients in the DKd arm had a 10 times higher rate of minimal residual disease (MRD)-negativity compared to patients treated with Kd alone (12.5 percent vs. 1.3 percent; p<0.0001).1 Overall response rate (ORR) was 84 percent in the DKd arm, compared to 75 percent in the Kd arm (p=0.0040).1 The rate of complete response (CR) or better was 29 percent (DKd) and 10 percent (Kd).1 Median treatment duration was longer in the DKd arm than in the Kd arm (17.5 vs. 10.1 months).1

"The CANDOR data show that daratumumab in combination with carfilzomib and dexamethasone may be a promising treatment option for patients with multiple myeloma who have relapsed after 1-3 prior regimens, especially in patients with previous lenalidomide and bortezomib treatment," said Craig Tendler, M.D., Vice President, Clinical Development and Global Medical Affairs, Janssen Research & Development, LLC. "This Phase 3 study adds to the body of evidence related to the use of daratumumab in combination with established regimens for the treatment of patients with relapsed multiple myeloma. We are committed to the continued study of daratumumab as a treatment in patients with multiple myeloma."

"These positive data further confirm the versatility of daratumumab as a treatment option for patients with multiple myeloma across a range of settings," said Dr Patrick Laroche, Haematology Therapy Area Lead, Europe, Middle East and Africa (EMEA), Janssen-Cilag. "We’re excited about the potential role that this combination could have as a new therapeutic approach for this patient population."

CANDOR is an Amgen-sponsored study and is co-funded by Janssen Research & Development. The study included patients who had received 1–3 prior lines of therapy for multiple myeloma.1 Of the patients randomised in the study, 42 percent and 90 percent had previous exposure to lenalidomide and bortezomib, respectively; 33 percent were lenalidomide-refractory; and 29 percent were bortezomib-refractory.1

Median overall survival (OS) was not reached in either arm at a median follow-up time of 17 months (HR=0.75; 95 percent CI, 0.49–1.13; p=0.0836).1 In general, the safety profile of DKd was consistent with the known safety profiles of daratumumab and Kd, with the exception of treatment emergent fatal adverse events which were higher in the DKd arm compared to the Kd arm.1 The incidence of grade 3 and above adverse events (AEs) was 82 percent and 74 percent of patients in DKd and Kd, respectively, while serious AEs (SAEs) occurred in 56 percent and 46 percent of patients, respectively.1 The frequency of grade 3 and above cardiac failure was 4 percent (DKd) and 9 percent (Kd); leading to similar discontinuations of carfilzomib observed in both arms (DKd, 4 percent vs Kd, 5 percent).1 The rate of treatment discontinuation due to AEs was similar in both arms (DKd, 22 percent vs. Kd 25 percent).1 Five deaths were reported as being treatment-related in the DKd arm (pneumonia, sepsis, septic shock, Acinetobacter infection, and cardio-respiratory arrest, n=1 each).1

#ENDS#

In Europe, daratumumab is indicated:2

in combination with lenalidomide and dexamethasone for the treatment of adult patients with multiple myeloma who are newly diagnosed with multiple myeloma
in combination with lenalidomide and dexamethasone, or bortezomib and dexamethasone, for the treatment of adult patients with multiple myeloma who have received at least one prior therapy
as monotherapy for the treatment of adult patients with relapsed and refractory multiple myeloma, whose prior therapy included a proteasome inhibitor and an immunomodulatory agent and who have demonstrated disease progression on the last therapy
About the CANDOR study

CANDOR is a randomised, open-label Phase 3 study of daratumumab, carfilzomib, and dexamethasone (DKd) compared to carfilzomib and dexamethasone (Kd) alone.1 The study evaluated 466 relapsed or refractory patients with multiple myeloma from 120 global sites who had received 1-3 prior therapies.1 The primary endpoint was progression-free survival, and the key secondary endpoints were overall response rate, minimal residual disease and overall survival.1 PFS was defined as time from randomisation until disease progression or death from any cause.1

Patients were randomised 2:1 to DKd or Kd1 and all patients received carfilzomib twice weekly as a 30-minute intravenous (IV) infusion on days 1, 2, 8, 9, 15, and 16 of each 28-day cycle.3 The administration could be within ± two days for each scheduled dose.3 The dose was 20 mg/m2 on days 1 and 2 during cycle 1 and 56 mg/m2 beginning on day 8 and thereafter.3 All patients received 40 mg dexamethasone oral or IV weekly on days 1 and 2 of cycle 1 (20 mg for patients >75 years).3 In the treatment arm, daratumumab was administered intravenously at 8 mg/kg on days 1 and 2 of cycle 1, and at 16 mg/kg once weekly for the remaining doses of the first 2 cycles, then every 2 weeks for 4 cycles (cycles 3 to 6), and every 4 weeks for the remaining cycles or until disease progression.3

For more information about this trial, please visit www.clinicaltrials.gov under trial identification number NCT03158688.

About daratumumab

Daratumumab is a first-in-class biologic targeting CD38, a surface protein that is highly expressed across multiple myeloma cells, regardless of disease stage.4 Daratumumab is believed to induce tumour cell death through multiple immune-mediated mechanisms of action, including complement-dependent cytotoxicity (CDC), antibody-dependent cell-mediated cytotoxicity (ADCC) and antibody-dependent cellular phagocytosis (ADCP), as well as through apoptosis, in which a series of molecular steps in a cell lead to its death.2 A subset of myeloid derived suppressor cells (CD38+ MDSCs), CD38+ regulatory T cells (Tregs) and CD38+ B cells (Bregs) were decreased by daratumumab.7 Since launch, daratumumab has been used to treat more than 100,000 patients worldwide.5 Daratumumab is being evaluated in a comprehensive clinical development programme across a range of treatment settings in multiple myeloma, such as in frontline and relapsed settings.6,7,8,9,10,11,12,13 Additional studies are ongoing or planned to assess its potential in other malignant and pre-malignant haematologic diseases in which CD38 is expressed, such as smouldering myeloma.14,15 For more information, please see www.clinicaltrials.gov.

For further information on daratumumab, please see the Summary of Product Characteristics on the European Medicines Agency (EMA) website at: View Source

In August 2012, Janssen Biotech, Inc. and Genmab A/S entered a worldwide agreement, which granted Janssen an exclusive licence to develop, manufacture and commercialise daratumumab.16

About Multiple Myeloma

Multiple myeloma (MM) is an incurable blood cancer that starts in the bone marrow and is characterised by an excessive proliferation of plasma cells.17 In Europe, more than 48,200 people were diagnosed with MM in 2018, and more than 30,800 patients died.18 Almost 60 percent of patients with MM do not survive more than five years after diagnosis.19

Although treatment may result in remission, unfortunately, patients will most likely relapse as there is currently no cure.20 Refractory multiple myeloma is when a patient’s disease progresses within 60 days of their last therapy.21,22 Relapsed cancer is when the disease has returned after a period of initial, partial or complete remission.23 While some patients with MM have no symptoms at all, most patients are diagnosed due to symptoms that can include bone problems, low blood counts, calcium elevation, kidney problems or infections.24 Patients who relapse after treatment with standard therapies, including PIs and immunomodulatory agents, have poor prognoses and few treatment options available.25

On December 10, 2019 PharmaCyte Biotech, Inc. (OTCQB: PMCB), a biotechnology company focused on developing cellular therapies for cancer and diabetes using its signature live-cell encapsulation technology, Cell-in-a-Box, reported that its quarterly shareholder update will be held on December 20, 2019 at 4 P.M. EST (Press release, PharmaCyte Biotech, DEC 10, 2019, View Source [SID1234552205]). The update will include the latest information available on preparing to submit an Investigational New Drug application (IND) to the U.S. Food and Drug Administration, a review of the company’s activities during the quarter, and a Q&A period to answer any questions that shareholders may have.

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PharmaCyte requests that shareholders submit their questions for the quarterly shareholder update to the company using the email address [email protected]. Shareholders can submit questions to be addressed during the quarterly shareholder update until the close of business on December 13, 2019.

To learn more about PharmaCyte’s pancreatic cancer treatment and how it works inside the body to treat locally advanced inoperable pancreatic cancer, we encourage you to watch the company’s documentary video complete with medical animations at: View Source

On December 10, 2019 Solasia Pharma K.K. (TSE: 4597, Headquarters: Tokyo, Japan, President & CEO: Yoshihiro Arai, hereinafter "Solasia") reported that it has entered into an exclusive license agreement with Maruho Co., Ltd. (Headquarters: Osaka, Japan, President & CEO: Koichi Takagi, hereinafter "Maruho") for commercialization of Solasia’s product SP-04 (PledOx, hereinafter "product"), a therapeutic agent for chemotherapy induced peripheral neuropathy (currently undergoing Phase III clinical trials; active ingredient name: calmangafodipir) in Japan (Press release, Solasia, DEC 10, 2019, View Source [SID1234552204]).

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Under the license agreement, Maruho will commercialize the product exclusively in Japan after Solasia completes development of the product. Based on the license agreement, Solasia will supply the product exclusively to Maruho, and Maruho will pay Solasia an upfront payment of 1.0 billion yen and milestone payments based on progress in development and marketing up to a total of 18.0 billion yen.

In addition to the above license agreement, Solasia and Maruho have entered into a capital alliance agreement whereby Maruho acquires Solasia shares by a third-party allotment with a view to maintain a close business relationship going forward.

Capital alliance format:

Acquisition of newly issued Solasia shares by Maruho in third-party allotment

Pay-in date:

December 26, 2019

Number of shares issued:

11,324,000 Solasia common stock

Issue price per share:

151 yen (closing price on December 9, 2019)

Total issue amount:

1,709,924,000 yen

Shareholding ratio after issue:

Maruho will hold 9.70% of outstanding shares in Solasia

Lock-up agreement:

Maruho must obtain prior consent from Solasia if transferring its shareholding before the day following the date of the initial announcement of the clinical trial results and others by Solasia after completion of the two Phase III trials of the product currently under way.

Solasia’s top shareholder, ITOCHU Corporation must obtain prior consent from Solasia if transferring its shareholding within one year of the pay-in date stated above.

Use of proceeds:

For in-licensing and development of new pipeline product SP-05.

Maruho specializes in dermatology and has contributed to improving the quality of life (QOL) of patients suffering from skin disorders caused by cancer treatment. This time, in order to further contribute to cancer patients and their families, Maruho decided to obtain the rights to commercialize the product. Solasia specializes in oncology in Asia, and 3 of their 4 existing and development products include drugs that treat the side effects of anticancer drugs. Solasia is yet to establish an in-house sales force in Japan. Therefore, in light of the steady progress of the phase III clinical trial for the product, Solasia decided to derive the commercialization rights to Maruho who share the common philosophy of the importance of improving patient QOL.

Koichi Takagi, President and CEO of Maruho, commented as follows:
"Solasia is a specialty pharmaceutical company in oncology. The company supports patients undergoing cancer treatment and their families by developing not only anticancer drugs, but also cancer supportive care products to improve patient QOL. In collaboration with Solasia, we will continue to do our best to help cancer patients and their families further by combining Solasia’s extensive knowledge in oncology with the experience we have gained in improving patient QOL."

Yoshihiro Arai, President and CEO of Solasia, commented as follows:
"Maruho is a leading company in Japan in the dermatology area that has gained from many years’ experience with cancer and other patients the insight that improving patient QOL is as important as treating the underlying disease. We are confident that Maruho, with its wealth of knowledge and experience in patient QOL, is the best partner for Solasia, as we can broadly share the expectations and importance of our development product SP-04 in the treatment of chemotherapy-induced peripheral neuropathy and work together to improve patient QOL.".

On December 10, 2019 ImmunOs Therapeutics AG, a Swiss bio-technology company and leading developer of a next generation innate immunity focused immunotherapy platform for cancer, reported the closing of a Series A financing of CHF 15 million (Press release, ImmunOs Therapeutics, DEC 10, 2019, View Source [SID1234552203]). The round was co-led by the Basel life sciences venture capital firm BioMedPartners and Pfizer Ventures, the venture capital arm of Pfizer Inc. (NYSE: PFE), with the participation of Redalpine, Schroder Adveq, Wille Finance AG, BERNINA BioInvest Ltd alongside new private and existing investors. The financing will be used to complete the first-in-human trials with the company’s lead agent, iosH2, a potential new cancer treatment for both solid and liquid tumors. The funding will also be used to broaden the company’s novel immunotherapy iosH platform by advancing additional preclinical programs focusing on both cancer and auto-immunity.

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"Recent advances in the understanding of the innate immune system’s role in cancer provide a unique opportunity for ImmunOs Therapeutics and our partners. We value the ongoing support of all the current investors and welcome all the Series A round participants, specifically Pfizer Ventures and BioMedPartners, both of whom have demonstrated a strong commitment to the oncology field," said Sean R. Smith, CEO of ImmunOs Therapeutics AG.

Dr. Osiris Marroquin Belaunzaran, CSO and co-founder, added: "It is with great pleasure to see that our early research based on HLA open conformer modulation of immune cells is advancing toward a clinical drug candidate for human studies. Targeting the innate immune system to modulate the tumor microenvironment has been a key strategy for ImmunOs, and together with foundational approaches targeting the adaptive immune system such as PD-1 antibodies, we aim to produce a strong therapeutic benefit in difficult-to-treat cancer indications."

In conjunction with the financing, ImmunOs Therapeutics has expanded its Board of Directors to include four new members: Dr. Markus Hosang of BioMedPartners; Dr. Michael Baran of Pfizer Inc.; Dr. Reinhard Ambros, former head Novartis Venture Fund; and Dr. Daniel Vasella, former Chairman and CEO Novartis.

Dr. Markus Hosang noted: "At BioMedPartners, we have over the last 15 years very successfully invested in and brought forward several innovative early-stage cancer companies. We got particularly attracted by ImmunOs and its novel approach that also adds to existing treatment modalities and thus has the potential to provide novel medicines to cancer patients who do not obtain a long-term benefit from current therapies."

Dr. Michael Baran added: "Advances in understanding the role of the innate immune system is opening up opportunities to expand the potential of cancer immunotherapy. Pfizer Ventures is enthusiastic to support this emerging area through our investment in ImmunOs."

On December 10, 2019 Vedanta Biosciences, Inc. (Vedanta Biosciences, Vedanta or the Company), a clinical-stage biopharmaceutical company developing a new category of therapies for immune-mediated diseases based on defined bacterial consortia, reported the initiation of a first-in-patient clinical study of VE800 in combination with Bristol-Myers Squibb’s programmed death-1 (PD-1) immune checkpoint inhibitor Opdivo (nivolumab) in patients with select types of advanced or metastatic cancer (Press release, Vedanta Biosciences, DEC 10, 2019, View Source [SID1234552202]). Vedanta also announced the formation of its Immuno-Oncology Scientific Advisory Board (SAB), which is comprised of experts in immunology, immuno-oncology and the microbiome, to support the planned clinical development of VE800.

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The study, which is being conducted at clinical centers in the United States, will evaluate the safety and tolerability and clinical activity of VE800 in combination with Opdivo, as measured by the confirmed overall response rate, in addition to other parameters. The open-label, non-randomized study will target enrollment of over 100 patients diagnosed with advanced or metastatic melanoma, gastric/gastroesophageal junction adenocarcinoma, or microsatellite-stable colorectal cancer. Eligible patients will receive daily VE800 dosing in combination with Opdivo. Topline results are anticipated in 2021.

"Despite unprecedented global investment in checkpoint inhibitors, there is still a major need for differentiated approaches to further enhance and expand responses in cancer," said Bernat Olle, Ph.D., co-founder and chief executive officer of Vedanta Biosciences. "The role the gut microbiota plays in influencing responses to immunotherapies has been ignored by previous approaches, so we are excited about the potential of microbiome modulation to open up an entirely new approach to cancer therapy."

VE800 is made up of 11 commensal bacterial strains that act in concert to activate cytotoxic CD8+ T cells, which are the vanguard of the immune system’s response to tumors and thus a key driver of effective immunotherapies. In preclinical studies, VE800 has been shown to enhance the ability of these T cells to infiltrate tumors, thereby promoting suppression of tumor growth and potentially enhancing survival. Preclinical data also suggest that VE800 may enhance the effects of checkpoint inhibitors.

Foundational work demonstrating VE800’s novel anti-tumor activity and cooperatively potentiated responses to checkpoint inhibitor therapies and various immune challenges was published in Nature by Vedanta and its scientific co-founder Kenya Honda, M.D., Ph.D., of Keio University School of Medicine. The research also showed that mice colonized with VE800 demonstrated enhanced therapeutic efficacy in a range of tumor models when VE800 was administered in conjunction with PD-1 or CTLA4 immune checkpoint inhibitors.

"The ability of bacterial consortia to mediate immune activity, including potential anti-cancer activity, is an exciting area for investigation in indications with some of the highest unmet medical need," said Hassane M. Zarour, M.D., co-leader of the Cancer Immunology and Immunotherapy Program of the Hillman Cancer Center, University of Pittsburgh, and a member of Vedanta’s newly formed Immuno-Oncology SAB. "We see enormous potential for this class of drugs to improve cancer patients’ outcomes."

Vedanta’s newly announced Immuno-Oncology SAB will work closely with the Company’s scientific co-founders and leadership to further support the clinical development of VE800. The SAB includes:

Antoni Ribas, M.D., Ph.D.is a leading translational and clinical researcher in immuno-oncology with a focus on malignant melanoma. He is a professor of medicine, surgery and molecular and medical pharmacology at the University of California Los Angeles (UCLA), director of the tumor immunology program at the Jonsson Comprehensive Cancer Center, director of the Parker Institute for Cancer Immunotherapy Center at UCLA, chair of the Melanoma Committee at SWOG and president-elect 2019-2020 of the American Association for Cancer Research (AACR) (Free AACR Whitepaper).
Josep Tabernero, M.D., Ph.D. is a researcher focused on gastrointestinal cancers and cancer genetics. At Vall D’Hebron Institute of Oncology (VHIO), he is director of clinical research, co-director of the research unit for molecular therapy of cancer, head of the gastrointestinal and endocrine tumors group, and head of the medical oncology department of Vall d’Hebron University Hospital. He is also president of the European Society for Medical Oncology (ESMO) (Free ESMO Whitepaper).
Hassane Zarour, M.D. is a researcher with expertise in melanoma and skin lesions, immunotherapy and cancer vaccines. At the University of Pittsburgh Medical Center, he is a professor of medicine, immunology and dermatology, co-leader of the melanoma program and the James W. and Frances G. McGlothlin chair in melanoma immunotherapy research.
Diwakar Davar, MBBS, M.Sc. is a leader in microbiome science and using the microbiome to treat melanoma. He is an assistant professor of medicine at the University of Pittsburgh Medical Center.
Bertrand Routy, M.D., Ph.D. is recognized as one of the first researchers to demonstrate the negative impact of antibiotics and the microbiome on the efficacy of checkpoint inhibitor therapy. He is an assistant professor of hematology-oncology and director of the laboratory of immunotherapy / oncomicrobiome at the Centre hospitalier de l’Université de Montréal (CHUM).
Dan Littman, M.D., Ph.D. is a scientific co-founder of Vedanta and a leader in T cell biology, including differentiation and lineage specification. He is the Helen L. and Martin S. Kimmel professor of molecular immunology and pathology and professor in the department of microbiology at the Skirball Institute of Biomolecular Medicine at New York University Langone School of Medicine.
Sasha Rudensky, Ph.D. is a scientific co-founder of Vedanta and a leader in molecular mechanisms of CD4 T cell differentiation, particularly regulatory T cells. He is chair of the immunology program at Sloan Kettering Institute (SKI) and director of the Ludwig Center at Memorial Sloan Kettering (MSK).
About VE800

VE800 is Vedanta Biosciences’ proprietary, orally administered immuno-oncology product candidate. It is produced from pure, non-pathogenic clonal bacterial cell banks, which yield a standardized drug product in powdered form. VE800 consists of a rationally-defined bacterial consortium of 11 commensal strains that, acting in concert, activate cytotoxic CD8+ T cells, a type of white blood cell that is the predominant effector in cancer immunotherapy. In preclinical studies, VE800 has been shown to enhance the ability of these T cells to infiltrate tumors, thereby promoting suppression of tumor growth and enhancing survival. Preclinical data also suggest that VE800 may enhance the effects of checkpoint inhibitors. Vedanta is evaluating VE800 as a potential treatment for patients with advanced or metastatic cancers.