PVS-RIPO, more commonly referred to as the re-engineered poliovirus, is the Sabin type 1 polio vaccine, genetically modified so it cannot harm or kill normal cells (Company Web Page, Istari Oncology, NOV 19, 2017, View Source [SID1234522139]).
We believe there are several important advantages of PVS-RIPO as an immunotherapy for cancer treatment:
The poliovirus receptor CD155 is expressed in virtually all solid cancers, as well as dendritic cells, macrophages and other immune cells.
PVS-RIPO infects and kills tumor cells that express CD155.
PVS-RIPO infection of immune cells facilitates induction of an antitumor immune response.
PVS-RIPO is the only oncolytic virus that is not destroyed by the Type 1 interferon response caused by these viruses.
Other oncolytic viruses kill or limit dendritic cells. PVS-RIPO stimulates dendritic cell activity and immune function.
Cancer patients who are immune to polio and have been boosted with the Salk vaccine experience a recall immune response upon intratumoral PVS-RIPO infusion.
For targeting glioblastoma, the vaccine is delivered by direct intratumoral delivery via convection-enhanced delivery (CED), which by-passes the blood-brain barrier and reduces systemic toxicity. CED is commonly used, and we believe it is reproducible in multiple centers. Less than 5% of the tumor volume needs to be injected to achieve high drug concentrations throughout the tumor. BrainLAB and Therataxis software allow highly accurate and reproducible drug distribution and injection accuracy.
The FDA granted PVS-RIPO Breakthrough Therapy Designation on May 10, 2016. Breakthrough Therapy Designation conveys all fast track program features, more intensive FDA guidance on an efficient drug development program, an organizational commitment involving senior FDA managers, and eligibility for rolling review and priority review.
The FDA also granted PVS-RIPO Orphan Drug designation for glioblastoma on May 26, 2016. Benefits of this designation include tax credits of 50% of the clinical drug testing cost awarded upon approval, waiver of NDA/BLA application fee, and seven years of data exclusivity upon approval (that is, it bars the FDA from approving any other application for the same drug for the same orphan disease or condition for seven years).

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On November 17, 2017 ZIOPHARM Oncology, Inc. (Nasdaq:ZIOP), a biopharmaceutical company developing new gene and cell-based immunotherapies for cancer, reported that it will host a conference call and webcast slide presentation on Monday, November 20, 2017 at 10:15 a.m. ET to discuss updated clinical data from the Company’s controlled human interleukin-12 (hIL-12) gene therapy candidate for brain cancer to be presented at the 22nd Annual Meeting and Education Day of the Society for Neuro-Oncology (SNO), held Nov. 16 – 19 in San Francisco (Press release, Ziopharm, NOV 17, 2017, View Source [SID1234522132]).

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In addition to members of the ZIOPHARM management team, joining the conference call will be key thought leaders and study investigators Antonio Chiocca, M.D., Ph.D., Professor of Neurosurgery at Harvard Medical School, Surgical Director, Center for Neuro-oncology at Dana-Farber Cancer Institute, and Chairman of Neurosurgery and Co-Director of the Institute for the Neurosciences at Brigham and Women’s Hospital, and Stewart Goldman, M.D., Division Head Hematology-Oncology, Neuro-Oncology & Stem Cell Transplantation at Ann & Robert H. Lurie Children’s Hospital in Chicago.

The call can be accessed by dialing 1-844-309-0618 (U.S. and Canada) or 1-661-378-9465 (international). The conference ID number is 8089664. To access the accompanying slides and live webcast, or the subsequent archived recording, visit the "Investors & Media" section of the ZIOPHARM website at www.ziopharm.com. The webcast will be recorded and available for replay on the Company’s website for two weeks.

On November 16, 2017 Genmab A/S (Nasdaq Copenhagen: GEN) reported that it has achieved a USD 50 million sales volume milestone in its DARZALEX (daratumumab) collaboration with Janssen Biotech, Inc (Press release, Genmab, NOV 17, 2017, View Source [SID1234522123]). The milestone was triggered by confirmation by Janssen that sales of DARZALEX reached USD 1 billion in a calendar year. In August 2012, Genmab granted Janssen an exclusive worldwide license to develop, manufacture and commercialize DARZALEX.

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"We continue to be pleased with the rapid uptake seen with DARZALEX since its initial launch and approval and are excited to have reached the USD 1 billion sales milestone," said Jan van de Winkel, Ph.D., Chief Executive Officer of Genmab.

The milestone was included in Genmab’s 2017 financial guidance published on November 14, 2017.

On November 17, 2017 PledPharma AB ("PledPharma") (STO: PLED) and Solasia Pharma K.K. ("Solasia") (TSE: 4597) reported that they have entered a license agreement pertaining to the clinical development and commercialization of PledOx in Japan, China, Hong Kong, Macau, South Korea and Taiwan (Press release, Solasia, NOV 17, 2017, View Source [SID1234532512]).

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Under the terms of this agreement, PledPharma grants exclusive development and commercialization rights to PledOx in the territories mentioned and Solasia will pay upfront, development, regulatory and sales milestones of up to ~USD 83 million (SEK 700 million)*. In addition, Solasia will pay industry standard royalty rates on sales applicable for a deal pertaining to an in-licensed asset in Phase III development. Solasia will also fully finance an expansion of the Phase III program to include Asian patients subject to regulatory consultations.

The license agreement is initially focused on the use of PledOx as prevention of chemotherapy induced peripheral neuropathy in colorectal cancer patients. The agreement with Solasia facilitates an expansion of the recently announced global Phase III-program for PledOx with Asian patients, subject to regulatory consultations, aiming to gain sufficient documentation for regulatory approvals in the major Asian markets. In addition, a Phase I study in Japanese and Caucasian Healthy Volunteers with focus on safety, tolerability and pharmacokinetics will be conducted. Following potential regulatory approvals, Solasia will be responsible for the commercialization of PledOx in Japan, China, Hong Kong, Macau, South Korea, and Taiwan.

"We are very excited to announce our partnership with Solasia – an ideal partner during the development, regulatory process and commercialization of PledOx in this very important region. The collaboration will ensure an optimized expansion of the Phase III program to include Asian patients, aiming at further realising the global commercial potential of our drug candidate," said Nicklas Westerholm, Chief Executive Officer and President, PledPharma.

"We are convinced that PledOx, as a novel first in class therapy, will play an important role in fulfilling the significant unmet medical need of preventing chemotherapy induced peripheral neuropathy. Solasia is ideally equipped to support PledPharma during the remaining clinical development and local regulatory processes in Japan, and to effectively launch the product in key Asian markets," said Yoshihiro Arai, President and Chief Executive Officer, Solasia.

As PledPharma announced earlier in November, following interactions with the regulatory authorities, EMA and FDA, the company has finalized the design of the global Phase III program for the drug candidate PledOx. The Phase III studies are anticipated to be initiated at the end of 2017 with top line results expected during 2020.

* The total value of upfront and milestone payments is up to JPY 9.3 billion. The amount given in USD and SEK is subject to exchange rate.

Invitation to corporate presentation
PledPharma will attend the Redeye Life Science Seminar on November 24 at 11:00 CET where PledPharma will provide a company update and an overview of the license agreement with Solasia. The event will be live streamed from Redeyes website www.redeye.se. After the event, the presentation will be available on PledPharma’s website.

On November 17, 2017 Agios Pharmaceuticals, Inc. (Nasdaq:AGIO), a leader in the field of cellular metabolism to treat cancer and rare genetic diseases, reported updated data from the dose expansion cohort of the Phase 1 study evaluating single agent ivosidenib in patients with progressive low grade isocitrate dehydrogenase-1 mutant (IDH1m) glioma (Press release, Agios Pharmaceuticals, NOV 17, 2017, View Source [SID1234522137]). The data were presented today in an oral presentation at the Society for Neuro-Oncology (SNO) Annual Meeting in San Francisco.

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"Glioma is a difficult-to-treat disease with many patients diagnosed at a young age and exposed to surgery, radiation and chemotherapy and their associated side effects," said Ingo Mellinghoff, M.D., Memorial Sloan Kettering Cancer Center, an investigator for the study. "The median treatment duration of 16 months and reduction in tumor growth rates compared to a pre-treatment interval is a signal of ivosidenib’s clinical activity in this population. I look forward to working with Agios and the neuro-oncology community to further refine imaging methodology and to assess the biological effects of IDH inhibitors in a perioperative study planned for the first half of 2018."

Ivosidenib is being evaluated in an ongoing Phase 1 dose escalation and expansion trial in advanced IDH1 mutant positive solid tumors, including glioma. Enrollment was completed in January 2016 and data from the glioma dose escalation and expansion cohorts were presented in November 2016. An update on patients with non-enhancing glioma is reported below.

As of the May 12, 2017 data cut off, 35 patients (11 from escalation, 24 from expansion) with non-enhancing disease have been treated with single agent ivosidenib. Eighteen patients (51%) remain on treatment.

Twenty-four patients had World Health Organization (WHO) classified Grade 2 tumors, eight had Grade 3 tumors, one had a Grade 4 tumor and two were unknown.
Patients received daily doses of ivosidenib ranging from 300 mg to 900 mg. Twenty-eight patients received a daily dose of 500 mg, which was selected as the expansion dose.
The median age of these patients is 38 (ranging from 21-71).
The median treatment duration was 16 months (ranging from 1.4 – 27.1 months).
The median number of prior therapies was 2 (ranging from one to five). The median duration of last systemic therapy was 9.6 months.
○ Sixty-three percent of patients had previously received temozolomide and 57% percent had previously received radiotherapy.
A safety analysis conducted for all 35 treated non-enhancing glioma patients as of the data cut-off demonstrated that ivosidenib was well-tolerated with a favorable safety profile in glioma patients.

No dose limiting toxicities were observed.
The majority of adverse events reported by investigators were mild to moderate, with the most common being headache, diarrhea, nausea and vomiting.
There were 5 patients with serious adverse events (SAE) and all were deemed unrelated to study treatment.
Efficacy data from all 35 non-enhancing glioma patients as of the data cut-off showed:

Two patients had a minor response by investigator assessment according to the Response Assessment in Neuro-Oncology for low grade glioma (RANO-LGG).
Twenty-nine (83%) patients had stable disease.
The median progression free survival (PFS) for all non-enhancing patients was 13 months, the median PFS for Grade 2 patients (n=24) has not been reached.
For patients in the expansion arm (n=24), the average six-month tumor growth was 24% prior to treatment and 11% following treatment with ivosidenib.
In addition, preclinical data for ivosidenib and AG-881, a brain-penetrant pan-IDH inhibitor, in an orthotopic mouse xenograft model of human mIDH1-R132H glioma are also being presented as posters.

Preliminary data suggest that both molecules suppress the oncometabolite D-2-hydroxyglutarate (2-HG) in an orthotopic brain tumor model.
○ At the doses explored, treatment with ivosidenib resulted in 85% maximal 2-HG inhibition and treatment with AG-881 resulted in >98% inhibition of 2-HG levels.
○ Neither molecule impeded the therapeutic effect of concomitant or sequenced radiation therapy.
"We are encouraged by both the ivosidenib clinical data demonstrating prolonged stable disease in patients with progressive, low grade glioma and the preclinical data with ivosidenib and AG-881 demonstrating reductions in the oncometabolite 2-HG," said Chris Bowden, M.D., chief medical officer of Agios. "We look forward to quantitatively assessing 2-HG and other biomarker effects with both molecules in our planned perioperative study."

Next Steps in Glioma

On November 1st, 2017, Agios announced plans to initiate a perioperative ‘window’ study in the first half of 2018 with ivosidenib and AG-881 in approximately 45 low grade glioma patients with progressive disease to further investigate their effects on brain tumor tissue. Patients will be randomized to either ivosidenib or AG-881 and treated for four weeks prior to previously scheduled surgery. An additional five patients will serve as a control arm. The study is designed with the following objectives:

To determine the amount of drug penetration in the brain
To confirm the magnitude of IDH target engagement as measured by 2HG levels in brain tumor tissue
To assess the impact of IDH inhibition on differentiation and epigenetic profiles in tumor tissue and
To assess the safety of both molecules.