On April 16, 2018 Taiho Pharmaceutical Co., Ltd., a Japanese R&D-driven specialty pharma focused on oncology and Helsinn, a Swiss pharmaceutical group focused on building quality cancer care products, reproted that they are collaborating on the development of an investigational highly-selective RET inhibitor TAS0286/HM05, being evaluated in non-small cell lung cancer and other carcinomas (Press release, Helsinn, APR 16, 2018, View Source [SID1234561171]). Preliminary data regarding TAS0286/HM05 is being presented at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) meeting in Chicago, Illinois, U.S.A. Abstracts of the presentations are available at: View Source!/4562/presentation/6785

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In in-vitro preclinical studies, TAS0286/HM05 inhibited the proliferation of various RET fusions and RET-activating mutations positive cells as well as in in-vivo preclinical studies, TAS0286/HM05 was shown to significantly inhibit the growth of tumors harboring various RET fusions and activating mutations at a range of 20 to 100 mg/kg/day without any body weight loss. The antitumor efficacy of TAS0286/HM05 was more potent than pre-existing multikinase inhibitors at their maximum tolerated dose. Primary data in mice studies has shown an effect in tumor growth, providing an induced tumor regression of 40% within 15 days. This study is being presented as a poster on Tuesday, April 17 from 1:00 PM to 5:00 PM CST in Poster Section 36, Poster Board Number 13 (Abstract No. 4784).

"Preliminary data for TAS0286/HM05 suggests it may be a potential agent for future clinical development in patients with RET gene abnormalities," Sergio Cantoreggi, Helsinn Group Chief Scientific Officer commented. "Helsinn and Taiho Pharmaceutical have collaborated over many years on a number of programs and we are delighted to be able to present this promising preclinical data, and we look forward to further collaboration."

"Over the years, Taiho Pharmaceutical has collaborated with Helsinn as an excellent partner in the development and marketing of new drugs. I am excited about the new collaboration with Helsinn on the selective RET inhibitor that was discovered by the Taiho Tsukuba Research Center. I look forward to the success of the program and the strengthening of our partnership." Teruhiro Utsugi, Taiho Managing Director commented.

TAS0286/HM05 was discovered by Taiho Pharmaceutical and it will now be jointly developed by Helsinn and Taiho Pharmaceutical. TAS0286/HM05 is an investigational agent and is not approved for commercial use in any country.

On April 16, 2018 Oncoceutics, Inc. reported that the first patient has been treated in a Phase I/II clinical trial of ONC201 in combination with ixazomib and dexamethasone in relapsed and/or refractory multiple myeloma (Press release, Oncoceutics, APR 16, 2018, View Source [SID1234558369]). The trial, led by Ajai Chari, MD, Associate Professor at the Icahn School of Medicine at Mount Sinai, is entitled "A Phase I/II Study of the Addition of Ixazomib to ONC201 and Dexamethasone in Relapsed and/or Refractory Multiple Myeloma" (NCT03492138) and seeks to combine two oral medications that have shown synergy against multiple myeloma in preclinical models. The study will enroll up to 36 adult patients and will evaluate the safety and tolerability of ONC201 in combination with ixazomib and dexamethasone in Phase I and determine the two-month disease control rate as the primary endpoint of Phase II.

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While Oncoceutics is currently focused on clinical trials of ONC201 in high-grade gliomas as its lead indication, the company continues to advance a number of clinical programs in B cell malignancies because they have shown some of the highest sensitivity against ONC201 in pre-clinical models. Oncoceutics currently has two programs in multiple myeloma: "Oral ONC201 in Relapsed/Refractory Multiple Myeloma" (NCT02863991) and the combination trial with ixazomib described above.

Multiple myeloma is highly sensitive to proteasome inhibitors that activate the integrated stress response, the same pathway activated by ONC201 treatment through unique triggers. ONC201 synergizes with proteasome inhibitors since they converge on some of the same downstream effects as ONC201 even though they use distinct triggers in tumor cells. Based on this rationale, which is supported by published preclinical studies (Prabhu et al, Cell Cycle 2018; Tu et al, Neoplasia 2017), this clinical trial will test the combination of ONC201 with ixazomib and dexamethasone. Ixazomib, which goes by brand name NINLARO, is an oral proteasome inhibitor developed by Takeda Pharmaceutical Company. It is FDA approved in combination with lenalidomide and dexamethasone for the treatment of patients with multiple myeloma who have received at least one prior therapy. In addition to the U.S., NINLARO is approved in more than 50 countries.

"We are excited to have the opportunity to test these two oral agents that have demonstrated efficacy against multiple myeloma in pre-clinical settings to provide therapies to patients with refractory/relapsed multiple myeloma that are in need of novel therapies," said Ajai Chari, Associate Professor, Medicine, Hematology and Medical Oncology, at the Icahn School of Medicine at Mt. Sinai.

On April 16, 2018 Nordic Nanovector ASA (OSE: NANO) reported that a poster reporting the anti-tumour effect of Humalutin (177Lu-conjugated humanized anti-CD37 antibody, 177Lu-NNV003) in preclinical models of non-Hodgkin’s lymphoma (NHL) was presented yesterday at the American Association of Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2018 in Chicago, USA (Press release, Nordic Nanovector, APR 16, 2018, View Source [SID1234553507]). The company previously announced the publication of the poster abstract (abstract 848) on 15 March 2018.

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The poster was entitled "In vitro and in vivo evaluation of the beta-emitting lutetium-177 labeled anti-CD37 antibody radionuclide conjugate 177Lu-NNV003 in DLBCL, CLL and MCL models," and showed that:

In tumour cell lines:

• The unlabelled anti-CD37 antibody (NNV003) kills tumour cells mainly through an immunological process called antibody dependent cellular cytotoxicity

• Humalutin (177Lu-NNV003) was found to inhibit tumour cell growth.

In preclinical lymphoma models:

• Humalutin has shown significant tumour uptake and demonstrated an anti-tumour effect in all three NHL models (mantle cell lymphoma, diffuse large B-cell lymphoma and chronic lymphocytic leukaemia).

On April 16, 2019 Phoenix Molecular Designs (PhoenixMD), a privately-held biotechnology company designing precise cancer therapeutics by targeting essential kinases, reported that it has entered into a collaboration with STA Pharmaceutical Co., Ltd (STA), a WuXi AppTec group company, to manufacture the PMD-026 needed for IND-enabling toxicology studies and a Phase I study in women (Press release, Phoenix Molecular Designs, APR 16, 2018, View Source [SID1234536961]).

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Under the terms of the collaboration agreement, STA will become a new manufacturing partner for PhoenixMD for their platform of kinase inhibitor drug candidates to treat a wide range of unmet medical needs, with an initial focus on triple negative breast cancer (TNBC). STA will be responsible for the early manufacturing work through their GMP-certified site in San Diego, CA. Through these collaborative efforts, PhoenixMD expects to file an Investigational New Drug Application (IND) with the U.S. Food and Drug Administration (FDA) for PMD-026.

Dr. Minzhang Chen, CEO of STA, commented, "We are excited to manufacture PMD-026 and enable Phoenix MD to advance this novel RSK inhibitor to shrink tumors in Phase 1 studies in women."

"We’re thrilled to collaborate with STA, a global leader in drug development and manufacturing, who has helped us achieve an important milestone in the efficient and scalable manufacturing of PMD-026," said Sandra E. Dunn, CEO PhoenixMD. "Through this work, we have demonstrated that PMD-026 has the potential to be disease-modifying with its ability to block the RSK pathway signaling and initiating significant tumor shrinkage of up to 70% in TNBC xenograft models. Looking ahead, we expect to build upon this progress and file an IND for PMD-026, with the ultimate goal of confirming these revolutionary results in women suffering from TNBC."

Gerrit Los, CSO of PhoenixMD added, "It is critical to have a manufacturing partner at this stage of development for PMD-026. This collaboration will allow us to move PMD-026 into IND enabling toxicology studies and to get ready for a successful IND filing. Importantly, it provides us the security to have access to GMP quality API when we are ready to start our Phase I study."

About Triple Negative Breast Cancer (TNBC) and RSK Kinases

Approximately 400,000 cases of TNBC are diagnosed every year worldwide and it is one of the most difficult breast cancer subtypes to treat due to lack of effective, targeted therapies. TNBC also claims the lives of young women more than any other type of breast cancer due to a lack of understanding around the therapeutic bullseye. It is also a very heterogeneous disease, therefore a common denominator across TNBC types was necessary to identify the bullseye. Through genome-wide screens, RSK was identified as the prime target for TNBC by scientists at PhoenixMD. Currently, there are still no targeted therapies available for TNBC.

There are four types of RSK involved in cancer, known as RSK1-4, and each type has a unique role in the development of the disease. RSK1 is responsible for cancer cell invasion and is an important driver in the spread of cancer. RSK2 controls cancer cell growth, and RSK3 and RSK4 are associated with drug resistance.

RSK1 and RSK2 have been proven critical to the survival of patients with TNBC. Over 90% of primary TNBC express high levels of RSK1 and RSK2. Inhibiting RSK2 eliminates TNBC cells completely, including cancer stem cells, which give rise to cancer recurrence. PhoenixMD, with its novel, targeted approach, is focused on creating patented cancer RSK inhibitors and companion diagnostics for cancer indications – initially in breast cancer – with the potential to treat blood, brain, ovarian, lung, skin, prostate, colon, head and neck cancers.

Currently, there are no approved targeted therapies for TNBC, although several drugs are subject to research studies and clinical trials. PhoenixMD is addressing this unmet medical need through a novel, targeted approach by inhibiting critical kinases, such as RSK1-4, a group of highly conserved Ser/Thr kinases that promote cell proliferation, growth, motility and survival. For this target, PhoenixMD developed PMD-026, a first-in-class, specific RSK inhibitor that blocks downstream signaling of RSK and induces apoptosis.

On April 16, 2018 Tocagen Inc. (Nasdaq: TOCA), a clinical-stage, cancer-selective gene therapy company, reported preliminary data from the Toca 6 Phase 1 trial of Toca 511 & Toca FC in advanced solid tumors at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2018 in Chicago (Press release, Tocagen, APR 16, 2018, View Source;p=RssLanding&cat=news&id=2342699 [SID1234525821]). The poster was presented by Jaime Merchan, M.D., director, Phase 1 clinical trials program at Sylvester Comprehensive Cancer Center, part of UHealth, the University of Miami Health System; associate professor of medicine at the University of Miami Miller School of Medicine.

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As of the data cutoff date of March 27, 2018, 7 patients with advanced solid tumors received Toca 511 & Toca FC intravenously (IV). Among these patients, 4 also received Toca 511 via intratumoral administration.

Data highlights are below. The poster will be placed on Tocagen’s website following its presentation.

Cancer-selective expression of the Toca 511 transgene following IV administration was demonstrated in metastatic tumors of 5 patients for whom tissue analyses had been completed, indicating successful delivery of the retroviral replicating vector (RRV).
Viral RNA, DNA and cytosine deaminase (CD) protein expression was detected in liver metastases from 4 patients with colorectal cancer and retroperitoneal lymph node metastases from 1 patient with pancreas cancer.
Toca 511 was cleared from blood plasma within 6 weeks following IV administration, indicating the virus is well controlled outside of tumors.
Toca 511 & Toca FC were well tolerated, supporting the favorable safety profile of the product candidate.
"The preliminary data from the Toca 6 trial represent an important milestone for our RRV platform technology and lead product: for the first time we have demonstrated Toca 511’s ability to selectively infect metastases from solid tumors other than glioma following IV delivery, opening potential expansion opportunities for our lead product," said Marty Duvall, chief executive officer of Tocagen. "In the year ahead we plan to initiate studies that evaluate the efficacy of our regimen in patients with advanced cancers."

Additional data from Tocagen’s Phase 1 trial demonstrating the immune profile of the tumor microenvironment is associated with response in patients with recurrent high-grade glioma who received Toca 511 & Toca FC via resection will be presented on Wednesday, April 18, 8:00 a.m. – 12:00 p.m. CT (Abstract: 5630). The poster will also be placed on Tocagen’s website following the presentation.

About Toca 6

Toca 6 is an ongoing Phase 1b study evaluating Toca 511 & Toca FC in patients with advanced solid tumors. The study will evaluate the safety and presence of Toca 511 genes in tumors of patients with widely disseminated disease, immunologic activity in blood and tumor and clinical activity such as tumor response and clinical benefit. More information can be found at www.tocagen.com/toca6 or by searching clinicaltrials.gov using the clinical trial identifier NCT02576665.

About Toca 511 & Toca FC

Tocagen’s lead product candidate is a two-part cancer-selective immunotherapy comprising an investigational biologic, Toca 511, and an investigational small molecule, Toca FC. Toca 511 is a retroviral replicating vector (RRV) that selectively infects cancer cells and delivers a gene for the enzyme, cytosine deaminase (CD). Through this targeted delivery, only infected cancer cells carry the CD gene and produce CD. Toca FC is an orally administered prodrug, 5-fluorocytosine (5-FC), which is converted into an anti-cancer drug, 5-fluorouracil (5-FU), when it encounters CD. 5-FU kills cancer cells and immune-suppressive myeloid cells resulting in anti-cancer immune activation and subsequent tumor killing.