On May 2, 2018 MannKind Corporation(Nasdaq:MNKD) reported that it will release its 2018 first quarter financial results on Wednesday, May 9, 2018 and its management will host a conference call to discuss the financial results and other Company developments at 5:00 PM (Eastern Time) on May 9, 2018 (Press release, Mannkind, MAY 2, 2018, View Source [SID1234525992]).

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Presenting from the Company will be its Chief Executive Officer, Michael Castagna, Chief Financial Officer, Steven Binder, Chief Commercial Officer, Pat McCauley and Chief Medical Officer, David Kendall.

To view and listen to the earnings call webcast live via the Internet, visit the Company’s website at www.mannkindcorp.com and click on the "Q1 2018 MannKind Earnings Conference Call" link in the Webcasts section of News & Events. To participate in the live call by telephone, please dial (800) 289-0438 toll-free or (323) 794-2423 toll/international and use the conference passcode: 3321662.

A telephone replay of the call will be accessible for approximately 14 days following completion of the call by dialing (844) 512-2921 toll-free or (412) 317-6671 toll/international and use the replay passcode: 3321662. A replay will also be available on MannKind’s website for 14 days.

On May 2, 2018 EpicentRx, a San Diego biotechnology company developing a next-generation immunotherapy platform of viruses that infect and kill cancer cells for the treatment of several tumor types, reported that it has developed the first ever series of oncolytic viruses tailored to tumors of individual patients (Press release, EpicentRx, MAY 2, 2018, View Source [SID1234528889]). The first patient, treated at the University of Cincinnati (UC) in Cincinnati, Ohio, by John Morris, MD, professor at the UC College of Medicine and director of the area’s only Phase I/Experimental Therapeutics Program, has been enrolled to receive a personalized virus that has been "armed" with peptide fragments or neoantigens from his specific tumors.

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Neoantigens are ideal targets for the immune system because they are selectively expressed on tumors not on normal cells. Viruses naturally target and kill cancer cells and these personalized viruses, which are derived from viruses that cause the common cold, have been engineered to improve on that ability since they use the machinery of the cancer cell to produce thousands of copies of themselves and the neoantigens that they are carrying. Hence, these viruses are administered with the goal of training the immune system to seek out and destroy the cancer cells that display these neoantigens.

This trial "provides proof-of-principle that personalized viral vaccines tailored and targeted to patient tumors can be made quickly and on demand," said Dr. Tony R. Reid, Chief Scientific Officer of EpicentRx and Associate Professor of Oncology at UCSD in California.

Dr. Corey A. Carter, CEO of EpicentRx, added that while current treatment paradigm in oncology relies on off the shelf, one size fits all therapies, "we know that every patient and patient’s tumor is different. To target an individual tumor in individual patients is nothing short of a revolution."

Drs. Carter and Reid felt that further development of personalized viral vaccines is warranted in combination with other immunotherapy weapons such as checkpoint inhibitors, which also trigger immune responses against cancer neoantigens, albeit non-specifically. "The reality is that other immunotherapies, such as checkpoint inhibitor drugs, only benefit 20-25% of patients in selected tumor types. There’s nothing for the other 75-80% of patients that don’t benefit. We can and must do better. These viruses are potentially a way to increase response rates so that the other 75-80% of patients start to benefit," said Dr. Carter.

"No two cancer cells are exactly alike, making it difficult to target cancer cells with drugs that inhibit one receptor or even one pathway since the cancer cells may and often do vary with respect to genetic changes and survival mechanisms," says Dr. Morris. "This personalized viral vaccine has the ability to contain express many different neoantigens from the tumor, targeting multiple genetic mutations in tumor cells, which could potentially prevent the cancer cells from sidestepping the immune system. We are excited to be part of this trial, which could prove beneficial for many patients."

"When you infect a cancer cell with a virus, it is like waving a big red flag at a bull, which stimulates the immune system to ‘go after’ the cancer. But like a matador cancer often has the ability to maneuver away from the threatening attack. In our experiments we have found that when the virus is personalized to the tumor with multiple neoantigens, the tumor is unable to escape the immune system’s charge and is ‘gored’," said Dr. Reid. "Effectively what we are doing with these viruses is to use the immune system’s natural ability to attack many target antigens, which is what happens every time we get an infection."

Oncolytic viruses have been tested in thousands of patients in the clinic and generally appear to only cause flu-like symptoms for about a week, according to Dr. Reid.

The viruses were manufactured in house according to Good Manufacturing Practice (GMP) regulations and samples of patient tumors and normal DNA from blood underwent whole-exome sequencing to reveal mutations present only in the tumor.

According to Dr. Carter, "Future personalized viral vaccine trials will be done under a separate Investigational New Drug application to the FDA, so many more patients with advanced disease may be enrolled to test the efficacy of the viruses both alone and with checkpoint blockade and other immunotherapeutics. Personalized viruses have the potential to be applied to any cancer with enough neoantigens for vaccination."

Tumor-targeting viruses can rally the immune system against cancers, boosting the efficacy of immunotherapy drugs and opening the door to promising combination treatments for aggressive and difficult-to-treat cancers. Many viruses naturally target and kill cancer cells, and experimental oncolytic viruses are often engineered to improve that ability.

On May 2, 2018 AbbVie (NYSE: ABBV), a research-based global biopharmaceutical company, reported that it will participate in the 2018 Bank of America Merrill Lynch Health Care Conference on Wednesday, May 16, 2018 (Press release, Incyte, MAY 2, 2018, View Source [SID1234525938]). Richard A. Gonzalez, chairman and chief executive officer, will present at 6:20 p.m. Central time.

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A live audio webcast of the presentation will be accessible through AbbVie’s Investor Relations website at investors.abbvie.com. An archived edition of the session will be available later that day.

On May 2, 2018 Cellectis (Euronext Growth: ALCLS – Nasdaq: CLLS), a clinical-stage biopharmaceutical company focused on developing immunotherapies based on gene-edited allogeneic CAR T-cells (UCART), reported that the Company has submitted an Investigational New Drug (IND) application to the U.S. Food and Drug Administration (FDA) requesting approval to initiate a Phase 1 clinical trial for UCART22, Cellectis’ second wholly controlled TALEN gene-edited product candidate, for the treatment of B-cell acute lymphoblastic leukemia (B-ALL) in adult patients (Press release, Cellectis, MAY 2, 2018, View Source;utm_medium=feed&utm_campaign=Feed%3A+cellectis+%28Cellectis+RSS+Feed%29#When:20:30:00Z [SID1234525958]).

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Pending regulatory clearance, Cellectis plans to initiate a Phase I clinical trial in the third quarter of 2018. The clinical research will be led by Dr. Nitin Jain, Assistant Professor, and Prof. Hagop Kantarjian, Chairman in the Department of Leukemia and University Chair in Cancer Medicine at The University of Texas MD Anderson Cancer Center in Houston.

"This IND application for UCART22 is an important regulatory milestone for the Company," said Stephan Reynier, Chief Regulatory and Compliance Officer, Cellectis. "The first ever FDA approval for a CAR T-cell therapy, directed against CD19, for pediatric and young patients with R/R B-ALL occurred in 2017. However, further CART approaches are needed, as some limitations of the CD19-CART treatment appear to be due to the expansion of CD19-negative leukemia clones.[1] The UCART22 product candidate will be evaluated in relapsed or refractory CD22 B-ALL, including relapses after CD19 CAR-T administration."

Acute lymphoblastic leukemia (ALL) is a rapidly progressing form of leukemia that is characterized by the presence of a large number of immature white blood cells in the blood and bone marrow. In 2016, an estimated 6,590 new cases were diagnosed in the U.S., with over 1,400 deaths due to ALL.[2] Approximately 85 percent of ALL cases involve precursor B-cells (B-ALL).

UCART22 is an allogeneic, off-the-shelf gene-edited T-cell product candidate designed for the treatment of B-ALL. Like CD19, CD22 is a cell surface antigen expressed from the pre B-cell stage of development through mature B-cells and CD22 expression occurs in more than 90 percent of patients with B-ALL.[3]

"Given the high unmet medical need for patients who suffer from B-ALL, filing the IND is the first vital step to potentially creating a treatment to be manufactured on an industrial scale, allowing these patients to get the help that they need much faster," added Prof. Stéphane Depil, Senior Vice President Research & Development and Chief Medical Officer. "We are dedicated to making this a reality as soon as possible and look forward to hitting the ground running with the clinical trial once we obtain regulatory clearance."

The manufacturing process of Cellectis’ allogeneic CAR T-cell product line, Universal CARTs or UCARTs, yields frozen, off-the-shelf, non-alloreactive engineered CAR T-cells. UCARTs are meant to be readily available CAR T-cells for a large patient population. Their production is industrialized with defined pharmaceutical release criteria.

On May 2, 2018 Nymox Pharmaceutical Corporation (NASDAQ:NYMX) reported that there will be a Symposium on the Company’s lead drug Fexapotide held at the Annual Meeting of the American Urological Association on May 20 in San Francisco (Press release, Nymox, MAY 2, 2018, View Source [SID1234525975]). The Symposium is entitled:

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"Phase 3 Clinical Studies and Biology of Fexapotide Triflutate Office Injectable for BPH"

and will feature a presentation reviewing therapeutic highlights from the Company’s extensive Phase III trials involving more than 970 patients in the United States. The presentation is chaired by Dr. Ronald Tutrone of Chesapeake Urology Research Associates, Baltimore MD and a panel discussion with panel members including Dr. Mohamed Bidair, San Diego CA; Dr. Ivan Grunberger, New York NY; Dr. Alan Hay, Salem OR; Dr. Susan Kalota, Tucson AZ and Dr. Jeffrey Snyder, Denver CO.

The Annual Meeting of the AUA is the largest urology meeting held annually in the US and brings together over a 4 day period urologists and health care providers, industry and interested parties from across the world with an expected attendance of over 16,000 visitors.

Nymox’s fexapotide has been shown to produce long-term improvements in lower urinary tract symptoms associated with benign prostatic hyperplasia (BPH), a problem that afflicts an estimated 100 million or more men in the world. Fexapotide does not cause the annoying side effects and risks found with available treatments for BPH and has also been shown to lower the occurrence of surgery for BPH. Fexapotide is also in development for low grade prostate cancer.

For more information please contact [email protected] or 800-936-9669.

Forward Looking Statements

To the extent that statements contained in this press release are not descriptions of historical facts regarding Nymox, they are forward-looking statements reflecting the current beliefs and expectations of management made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995, including statements regarding the need for new options to treat BPH and prostate cancer, the potential of Fexapotide to treat BPH and prostate cancer and the estimated timing of further developments for Fexapotide. Such forward-looking statements involve substantial risks and uncertainties that could cause our clinical development program, future results, performance or achievements to differ significantly from those expressed or implied by the forward-looking statements. Such risks and uncertainties include, among others, the uncertainties inherent in the clinical drug development process, including the regulatory approval process, the timing of Nymox’s regulatory filings, Nymox’s substantial dependence on Fexapotide, Nymox’s commercialization plans and efforts and other matters that could affect the availability or commercial potential of Fexapotide. Nymox undertakes no obligation to update or revise any forward looking statements. For a further description of the risks and uncertainties that could cause actual results to differ from those expressed in these forward-looking statements, as well as risks relating to the business of Nymox in general, see Nymox’s current and future reports filed with the U.S. Securities and Exchange Commission, including its Annual Report on Form 20-F for the year ended December 31, 2017, and its Quarterly Reports