On February 21, 2017 Bellicum Pharmaceuticals, Inc. (Nasdaq:BLCM), a leader in developing novel, controllable cellular immunotherapies for cancers and orphan inherited blood disorders, reported it has dosed the first patient with BPX-601, the first CAR T-cell product candidate to enter clinical studies that is designed to enable control over the expansion and stimulation of the cells (Press release, Bellicum Pharmaceuticals, FEB 21, 2017, View Source;p=RssLanding&cat=news&id=2247590 [SID1234517795]). BPX-601 targets solid tumors that express PSCA (prostate stem cell antigen), with an initial indication in non-resectable pancreatic cancer.

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"We believe the initiation of the BPX-601 clinical study is an important milestone in the advancement of CAR T therapies," said Rick Fair, Bellicum’s President and CEO. "The ability to control the intensity and duration of a cell-based treatment may help address the limitations that current CAR T therapies face, especially when targeting solid tumors. While our first study is in pancreatic cancer where there is great need for improved treatments, we intend to explore BPX-601 in other tumors known to express PSCA, including prostate, ovarian, bladder, esophageal and gastric cancers."

BPX-601 incorporates GoCAR-TTM, a CAR T-cell modified to include Bellicum’s proprietary dual costimulatory domain MC (inducible MyD88/CD40) activation switch. With GoCAR-T, the level of stimulation and proliferation of BPX-601 cells can be refined by adjusting the administration schedule of rimiducid, a small molecule activator agent.

"This clinical trial is an important step in our ongoing research efforts to improve patient outcomes in one of the deadliest forms of cancer," said Carlos Becerra, MD, Interim Chief of Oncology, Baylor University Medical Center at Dallas and principal investigator of the study. "The pancreatic cancer patients who will be eligible to participate in the study have progressed after standard treatments and have limited options. We hope that this trial will be an important step in developing safe and effective CAR T-cell therapy for solid tumors."

About the BP-012 Study
The Phase 1 BP-012 study is an open-label, non-randomized, dose-finding trial designed to evaluate the safety and activity of BPX-601 and rimiducid in up to 30 patients with non-resectable pancreatic adenocarcinoma. Its purpose is to determine the safety of the administration of BPX-601, the safety of the rimiducid infusion and the persistence of the CAR T cells over time. The first of its kind trial for pancreatic cancer patients will take place at Baylor University Medical Center at Dallas, which is home to Baylor Scott & White Research Institute, one of the top translational research centers in the world. To learn more about the trial, visit clinicaltrials.gov.

About GoCAR-T
Bellicum developed GoCAR-T to increase the efficacy and safety of CAR T-cell therapies in more challenging cancers, including solid tumors. Standard CAR T cells depend on the presence of cancer antigens for activation and proliferation. In GoCAR-T cells, a costimulatory signal is engineered into a rimiducid-controlled switch. This is designed to enable T-cell survival in the absence of antigen signaling, and full activation and proliferation in the presence of cancer antigens. In the event of side effects, the level of activation of GoCAR-T cells may be attenuated by reducing the rimiducid dosing schedule.

On February 21, 2017 Oxis International, Inc. (OTCQB: OXIS) (OXIS.PA) parent company of Oxis Biotech, focused on the development and commercialization of immunotherapy for the treatment of cancer, reported it received notification from the U.S. Patent and Trademark Office a patent will be issued on February 28, 2017 for its drug candidate OXIS-4235 for the treatment of myeloma (Press release, OXIS International, FEB 21, 2017, View Source [SID1234539555]).

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The patent clears the way for Oxis Biotech to begin the process of pursuing clinical trials for the new drug.

The drug is a P62-ZZ chemical inhibitor intended for use as a treatment for multiple myeloma. According to the American Cancer Society, more than 30,000 people are expected to be diagnosed with the disease this year and more than 12,000 are expected to die from it.

Dr. Sean Xie of Pittsburgh, Pa., developed the drug. The drug is intended to stop the growth of multiple myeloma cells without harming healthy cells. In addition to shrinking the tumors, the dual purpose drug is also intended to increase bone density, a second benefit of the technology.

Oxis Biotech, through its licensing agreement with Dr. Xie, holds the exclusive worldwide rights to commercialize this technology.

"Bone density shrinkage is one of the biggest problems of multiple myeloma. Bones wither away. This dual action drug is extremely promising," said Oxis CEO Anthony Cataldo. "We have always had great confidence in Dr. Xie’s work related to multiple myeloma. The issuance of this patent points out the unique and novel technology Dr. Xie has developed. We are incredibly happy to add it to our pipeline."

The USPTO indicated it will issue Patent No. 9,580,382 for the technology on February 28, 2017.

Exact Sciences has filed a 10-K – Annual report [Section 13 and 15(d), not S-K Item 405] with the U.S. Securities and Exchange Commission (Filing, 10-K, Exact Sciences, 2018, FEB 21, 2017, View Source [SID1234524344]).

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On February 18, 2017 Nektar Therapeutics (Nasdaq: NKTR) reported that positive Phase 1 clinical data for Nektar’s lead immuno-oncology agent, NKTR-214, in patients with renal cell carcinoma (RCC) were presented at ASCO (Free ASCO Whitepaper) GU 2017 (Press release, Nektar Therapeutics, FEB 18, 2017, View Source [SID1234517754]). NKTR-214 is an investigational immuno-stimulatory therapy designed to expand specific cancer-fighting T cells and Natural Killer (NK) cell abundance directly in the tumor micro-environment and increase expression of PD-1 on these immune cells. The results were presented by Michael Hurwitz, MD, PhD, Assistant Professor of Medicine, Department of Medical Oncology at Yale Cancer Center and were entitled "A Novel Immune Agonist, NKTR-214, Increases the Number and Activity of CD8+ Tumor Infiltrating Lymphocytes in Patients with Advanced Renal Cell Carcinoma."

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"NKTR-214 resulted in dramatic increases in tumor-infiltrating lymphocytes (TILs) and also demonstrated encouraging anti-tumor activity, with 40% of RCC patients experiencing tumor reductions, including one patient with a partial response," said Dr. Mary Tagliaferri, Vice President, Clinical Development at Nektar. "We know that high TIL levels are correlated with clinical response and longer survival in patients treated with checkpoint inhibitor therapies and can be the best predictor of response. NKTR-214’s unique mechanism, favorable safety profile and clinical activity support our combination trials of NKTR-214 with existing checkpoint inhibitors, such as nivolumab and atezolizumab, but also with other I-O mechanisms in development."

Clinical benefit and safety data were presented on 15 patients from the trial with renal cell carcinoma who were treated with single-agent NKTR-214:

6/15 (40%) patients with RCC had radiographic reductions in tumor size per RECIST 1.1 on NKTR-214, including:
3 patients who had progressed on 1 prior tyrosine kinase inhibitor (TKI) and had also progressed on 1 prior checkpoint therapy
3 patients who had progressed on 1 prior tyrosine kinase inhibitor (TKI) and were checkpoint therapy naïve, including 1 patient who experienced an unconfirmed partial response (uPR)
NKTR-214 continues to demonstrate a favorable safety and tolerability profile with convenient, outpatient q3w or q2w administration in all patients evaluable for safety to-date.
Immune pheno-typing was conducted and biomarkers of immune activation were measured in patients with evaluable tumor biopsies and blood samples. Treatment with NKTR-214 produced a robust elevation in immune cell frequency and activation, including:

Increase in total lymphocytes and newly proliferating (Ki67+) CD4+ T cells, CD8+ T cells, and NK cells, with increases greater than 50-fold observed
Increase in CD8+ T cells of up to 10-fold in the tumor micro-environment in patients with evaluable tumor biopsies (pre-dose and post-dose at week 3)
Increase in expression of cell-surface PD-1 on T cell subsets of up to 2-fold in the tumor micro-environment
Nektar and Bristol-Myers Squibb are collaborating to develop NKTR-214 as a potential combination treatment regimen with Bristol-Myers Squibb’s Opdivo (nivolumab) in five tumor types and eight potential indications. The Phase 1/2 clinical program will enroll up to 260 patients and will evaluate the potential for the combination of Opdivo (nivolumab) and NKTR-214 to show improved and sustained efficacy and tolerability above the current standard of care in melanoma, kidney, triple-negative breast cancer, bladder and non-small cell lung cancer patients. The initial dose-escalation trial is underway with Opdivo (nivolumab) and NKTR-214 in the indications of first-line melanoma, second-line RCC checkpoint therapy-naïve, and second-line non-small cell lung cancer (NSCLC) checkpoint therapy-naïve.

NKTR-214 is an experimental therapy designed to stimulate cancer-killing immune cells in the body by targeting CD122 specific receptors found on the surface of these immune cells, known as CD8+ effector T cells and NK cells. In preclinical studies, treatment with NKTR-214 resulted in a rapid expansion of these cells and mobilization into the tumor micro-environment.1 NKTR-214 has an antibody-like dosing regimen similar to the existing checkpoint inhibitor class of approved medicines. A Phase 1/2 clinical study is ongoing to evaluate single-agent NKTR-214 in cancer patients.

The ASCO (Free ASCO Whitepaper) GU 2017 poster can be downloaded at the following url:

View Source

On February 18, 2017 Percans Oncology reported to developing and promoting susceptibility testing technologies of anti-tumor drugs with high clinical predictivity, and assisting clinicians with the best plan for individualized tumor treatment (Press release, Cothera Bioscience, FEB 18, 2017, View Source [SID1234618856]). Recently, Fortune United Partners invested in Beijing Percans Oncology Co., Ltd. as the leading investor in series-B financing.

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Established in 2012, Beijing Percans Oncology Co., Ltd. is a service company focusing on individualized tumor treatment. Through strategic cooperation with top international and domestic cancer medical centers, Percans Oncology seeks the best chemotherapy plan for postoperative tumor patients, so as to improve the effectiveness of clinical chemotherapy and maximize the survival time of patients, and promote the development of anti-tumor drug research.

The third-generation drug susceptibility testing technology, corresponding more closely to clinical applications

The new third-generation drug susceptibility testing technology i-Chemo, based on technologies such as "micro-tumor", not only continues the accuracy of predicting clinical drug response, but also greatly shortens the testing cycle and cuts the cost. The most effective treatment plan can be accurately determined among a variety of clinical drug plans within 9 days to avoid ineffective treatments.

This pioneering work can help clinicians find the most suitable medication plan for cancer patients within the best treatment period, thus enriched the connotation of precision medicine and will have a wide range of potential applications in the future. At present, Percans Oncology is working with more tumor hospitals to carry out clinical research on i-Chemo drug susceptibility testing, and further promoting related research and application in this field.

Relying on the professional teams in medicine, scientific research, product development and marketing, as well as powerful cancer drug screening technologies and highly efficient bench-to-bedside translation ability in oncological research, Percans Oncology is devoted to serve cancer patients in China and worldwide.