On May 3, 2018 NANOBIOTIX (Euronext: NANO – ISIN: FR0011341205), a late clinical-stage nanomedicine company pioneering new approaches to the treatment of cancer, reported that it is launching a research collaboration with Weill Cornell Medicine to begin nonclinical studies of NBTXR3’s mechanism of action (Press release, Nanobiotix, MAY 3, 2018 View Source [SID1234526080]). NBTXR3 is a first-in-class product designed to destroy, when activated by radiotherapy, tumors and metastasis through physical cell death and to induce immunogenic cell death leading to specific activation of the immune system.

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The research collaboration between Weill Cornell Medicine, based in New York City, and Nanobiotix will be conducted
over the course of one year, with the goal of continuing the exploration of the role of NBTXR3 in Immuno-Oncology.
The main objective of this collaboration is to study the impact of NBTXR3 activated by radiotherapy on the cGAS-STING
pathway using different in vitro and in vivo murine models (mammary). Along with immunogenic cell death, the cGASSTING
pathway has emerged as the key component of the anti-tumor immune response. Data generated from this
collaboration could support current evidence indicating that NBTXR3 activated by radiotherapy can increase the antitumor
immune response, compared with radiotherapy alone, and transform an irradiated tumor into an efficient in
situ vaccine.
Dr. Sandra Demaria, M.D., Professor of Radiation Oncology and Chief of the Division of Experimental Radiotherapy in
the Department of Radiation Oncology at Weill Cornell Medicine, and Principal Investigator for the study, said: "We
have learned that radiotherapy has the potential to convert a tumor into an in-situ vaccine, and enhance systemic
tumor responses to immunotherapy. But there is room for improvement: NBTXR3 nanoparticles enhance the proimmunogenic
effects of radiotherapy, and we want to understand how they work. This knowledge will further the
development of this innovative approach for the treatment of cancer patients who are resistant to immune checkpoint
inhibitors."
The Company received the FDA’s approval to launch a clinical study of NBTXR3 activated by radiotherapy in
combination with anti-PD1 antibody in lung, and head and neck cancer patients (head and neck squamous cell
carcinoma and nonsmall cell lung cancer). This trial that shall start in Q2 2018, aims to expand the potential of NBTXR3,
including using it to treat recurrent or metastatic disease.
NBTXR3 positioning in IO
Many IO combination strategies focus on ‘priming’ the tumor, which is now becoming a prerequisite of turning a "cold"
tumor into a "hot" tumor.
Compared to other modalities that could be used for priming the tumor, NBTXR3 could have a number of advantages:
the physical and universal mode of action that could be used widely across oncology, a one-time local injection and
good fit within existing medical practice already used as a basis for cancer treatment, as well as a very good chronic
safety profile and well-established manufacturing process.
Published preclinical and clinical data indicate that NBTXR3 could play a key role in oncology and could become a
backbone in immuno-oncology.
Nanobiotix’s immuno-oncology combination program opens the door to new developments, potential new
indications, and important value creation opportunities.
-ends-
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About NBTXR3
NBTXR3 is a first-in-class product designed to destroy, when activated by radiotherapy, tumors and metastasis through physical
cell death and to immunogenic cell death leading to specific activation of the immune system.
NBTXR3 has a high degree of biocompatibility, requires one single administration before the whole radiotherapy treatment and
has the ability to fit into current worldwide standards of radiation care.
NBTXR3 is being evaluated in head and neck cancer (locally advanced squamous cell carcinoma of the oral cavity or oropharynx),
and the trial targets frail and elderly patients who have advanced cancer with very limited therapeutic options. The Phase I/II trial
has already delivered very promising results regarding the local control of the tumors and a potential metastatic control through
in situ vaccination.
Nanobiotix is running an Immuno-Oncology program with NBTXR3 that includes several studies. In the U.S., the Company received
the FDA’s approval to launch a clinical study of NBTXR3 activated by radiotherapy in combination with anti-PD1 antibodies in lung,
and head and neck cancer patients (head and neck squamous cell carcinoma and non-small cell lung cancer). This trial aims to
expand the potential of NBTXR3, including using it to treat recurrent or metastatic disease.
The first market authorization process (CE Marking) is ongoing in Europe in the soft tissue sarcoma indication.
The other ongoing studies are treating patients with liver cancers (hepatocellular carcinoma and liver metastasis), locally advanced
or unresectable rectal cancer in combination with chemotherapy, head and neck cancer in combination with concurrent
chemotherapy, and prostate adenocarcinoma.

On May 3, 2018 Affimed N.V. (Nasdaq: AFMD), a clinical stage biopharmaceutical company focused on discovering and developing highly targeted cancer immunotherapies, reported that Dr. Adi Hoess, CEO, will present at Deutsche Bank’s 43rd Annual Health Care Conference on Tuesday, May 8, 2018 at 10:40 am ET (Press release, Affimed, MAY 3, 2018, View Source [SID1234526099]).

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A live webcast of the conference presentation can be accessed through the "Events" section on the "Investors & Media" page of the Affimed website at www.affimed.com/events.php. A replay of the presentation will be available from Affimed’s website for 30 days following the conference.

Lpath has filed a 10-Q – Quarterly report [Sections 13 or 15(d)] with the U.S. Securities and Exchange Commission .

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On May 3, 2018 Ferring Pharmaceuticals reported the signing of an agreement giving the company the option to secure global commercialisation rights to nadofaragene firadenovec/Syn3 (rAd-IFN/Syn3), a novel gene therapy being developed by FKD Therapies Oy (FKD) as a treatment for patients with high-grade non-muscle invasive bladder cancer (NMIBC), who are unresponsive to Bacillus Calmette-Guérin (BCG) therapy (Press release, Ferring Pharmaceuticals, MAY 3, 2018, View Source [SID1234551851]). This option is exercisable on marketing approval from the US FDA. Ferring will create a new US oncology division with the specialist knowledge and presence to introduce novel advanced therapies to the market.

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rAd-IFN/Syn3 is currently undergoing Phase 3 development in the US under the sponsorship of Finnish gene therapy specialists FKD. The results of the earlier Phase 2 trial, published in the Journal of Clinical Oncology, reported 35% of BCG unresponsive NMIBC bladder cancer patients given one dose of rAd-IFN/Syn3 every three months, were free of high-grade disease at one year1. The ongoing Phase 3 study is designed to establish the efficacy and safety of the product. rAd-IFN/Syn3 has been awarded Fast Track and Breakthrough Therapy designations by the FDA.

"We are excited about the potential to commercialise rAd-IFN/Syn3, a novel gene therapy for bladder cancer patients," said Michel Pettigrew, President of the Executive Board and Chief Operating Officer, Ferring Pharmaceuticals. "The gene therapy sector is growing rapidly and building a presence in this specialised area is a very positive opportunity for Ferring."

Bladder cancer is one of the most frequently occurring cancers with an estimated 430,000 new cases being reported worldwide each year2. It is the fourth most common cancer in men in the US3 and is the most expensive cancer to treat on a life-time basis, with a high burden on patients, their relatives and healthcare systems4. In high-grade NMIBC patients, BCG is the gold standard treatment and although effective, over 60% of cases eventually re-occur5, 6. The outcome for such patients is poor, with total cystectomy (complete removal of the bladder) to prevent the cancer spreading to other organs generally being the next treatment option. As such, the BCG unresponsive population is one of high unmet clinical need.

"Today, bladder cancer patients have very limited medical options and new treatments that delay or prevent total removal of the bladder and improve clinical outcomes are urgently needed for patients," said Professor Klaus Dugi, Chief Medical Officer, Ferring Pharmaceuticals. "Phase 2 clinical results for rAd-IFN/Syn3 were very encouraging and we look forward to the Phase 3 data."

Gene therapy is one of a new class of therapeutic treatments known as advanced therapy medicinal products. rAd-IFN/Syn3 is built on adenoviral vector technology, a non-integrating vector, and results in enhanced expression of the therapeutic protein interferon alfa 2b. To date, it has completed three clinical trials in the US.

About rAd-IFN/Syn3

rAd-IFN/Syn3 (nadofaragene firadenovec/Syn3) is an investigational gene therapy consisting of an adenovirus containing the gene interferon alfa-2b. It is administered by catheter into the bladder, where the virus enters the cells of the bladder wall. Inside the cells, the virus breaks down leaving the active gene to do its work. The internal gene/DNA machinery of the cells picks up the gene and translates its DNA sequence, resulting in the cells secreting high quantities of interferon alfa-2b protein, a naturally occurring protein the body uses to fight cancer. This novel gene therapy approach turns the patient’s own bladder wall cells into multiple interferon microfactories, enhancing the body’s natural defences against the cancer. The Phase 3 trial for rAd-IFN/Syn3 opened in 2016 with up to 150 patients to be enrolled across 35 centers in the US.

On May 3, 2018 Valeant Pharmaceuticals International, Inc. (NYSE/TSX: VRX) ("Valeant") reported that Paul S. Herendeen, executive vice president, Finance, and chief financial officer, is scheduled to participate at the Goldman Sachs Third Annual Leveraged Finance Conference in Rancho Palos Verdes, Calif. on Thursday, May 10, 2018 at 2:10 p.m. PDT (5:10 p.m. EDT) (Press release, Valeant, MAY 3, 2018, http://ir.valeant.com/news-releases/2018/05-03-2018-130141166 [SID1234526026]).

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A live webcast and audio archive of the event will be available on the Investor Relations page of the Valeant web site at: http://ir.valeant.com/events-and-presentations/2018.