On September 14, 2020 ORPHELIA Pharma reported that it will support and attend the upcoming SIOP Congress from October 14th to 17th (52nd Congress of the International Society of Paediatric Oncology), which will be virtual this year (Press release, ORPHELIA Pharma, SEP 14, 2020, View Source [SID1234565088]).

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This event aims to bring together the oncology community and share the latest advances in pediatric oncology.

Join the ORPHELIA Pharma virtual symposium to share on innovation in the use of temozolomide in children, which will take place on Friday October 16th between 9:15 AM and 9:35 AM (Ottawa time) by logging on to the SIOP website (SIOP-Congress.org).

On September 14, 2020 Navrogen, Inc., a biopharmaceutical company specialized in developing therapies for cancer and immune-related disorders, reported that it has been awarded a National Cancer Institute (NCI) R03 Grant to support its NAV-006 program involving the development of a next-generation rituximab that is refractory to the immuno-suppressive effects of the tumor microenvironment (Press release, Navrogen, SEP 14, 2020, View Source [SID1234565087]).

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Follicular lymphoma (FL) is characterized by proliferation of neoplastic B cells, with 15,000 new cases a year in the USA. CD20 is a protein expressed on malignant FL cells and is the target of the commercially approved monoclonal antibody, rituximab. Rituximab markedly improves progression-free survival and overall survival of FL patients. However, studies have shown that some patients have an immune-suppressed tumor microenvironment that reduces the efficacy of rituximab treatment.

Navrogen has employed its proprietary Humoral Immuno Oncology (HIO) technology to identify the factors reducing rituximab’s therapeutic effects against immuno-suppressed tumors. Navrogen will utilize the NCI grant support (1R03CA241784) to apply its block-removed immunoglobulin technology (BRITE) to create a next-generation rituximab that is refractory to the immuno-suppressive effects of the tumor microenvironment.

"I am delighted by the NCI’s endorsement of the NAV-006 program" said Dr. Luigi Grasso, Ph.D., co-founder and Chief Scientific Officer of Navrogen. "Humoral Immuno Oncology (HIO) is an understudied field and it is encouraging that the scientists in the peer-review panel who reviewed our proposal understood the significance of our discovery and the solutions that we have planned to deploy."

Navrogen will complete the tasks outlined in the awarded grant, and upon successful optimization will seek strategic partners to support later stages of development of the HIO-refractory rituximab.

On September 14, 2020 Monopar Therapeutics Inc. (Nasdaq: MNPR) reported that Chandler D. Robinson, MD, Chief Executive Officer, will present a corporate update at the H.C. Wainwright 22nd Annual Global Investment Conference, Healthcare & Biotech Track (Press release, Monopar Therapeutics, SEP 14, 2020, https://ir.monopartx.com/news/detail/18/monopar-therapeutics-to-present-at-the-h-c-wainwright-22nd-annual-global-investment-conference-on-september-16-2020 [SID1234565086]). The conference will be held virtually.

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Presentation Details:

Date: Wednesday, September 16, 2020

Time: 1:30 PM EDT

Location: Virtual

View Source

For more information, please contact investor relations at [email protected].

On September 14, 2020 Immunomic Therapeutics, Inc. (ITI) reported that it will participate at the World Vaccine Congress Washington being held virtually September 28-October 1, 2020 (Press release, Immunomic Therapeutics, SEP 14, 2020, View Source [SID1234565085]). Andrew Eisen, MD, Ph.D., Immunomic’s Vice President of Clinical Development, will present a talk titled, "Pharmacodynamic Imaging in a CMV Vaccine Trial for Glioblastoma."

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In addition, Immunomic Therapeutics, lead founder and supporter of Why We Vax, a non-profit whose mission is to help educate communities with research backed facts on vaccines, will be leading a Q&A panel titled, "What If They Gave a COVID-19 Vaccine and Nobody Came," at 3:50pm EST on October 1, 2020.

"Vaccines are one of the safest, most widely-adopted health care practices in the world. Why We Vax will spread the message that vaccines are rigorously tested and provide the best defense against diseases. One example is Measles, which can have a lasting impact on a child’s immune system," said Dr. William Hearl, Why We Vax Chairman, Immunomic Therapeutics CEO, and experienced vaccinologist.

The World Vaccine Congress Washington is a multi-faceted conference experience with over 300 industry leading speakers, exclusive interviews, world leading presentations, live panel debates, and virtual face to face meetings.
Presentation details are as follows:

Dr. Andrew Eisen Presentation
Title: Pharmacodynamic Imaging In A CMV Vaccine Trial For GBM
Panel Category: Cancer and Immunotherapy Track
Panel Date and Time: Wednesday, September 30, 2020 2:30PM

Why We Vax Q&A Panel
Title: What If They Gave a COVID-19 Vaccine and Nobody Came
Category: Vaccine Safety track: Risk Assessment & Communication of Safety
Date and Time: Thursday, October 1, 2020 3:50PM

About UNITE
ITI’s investigational UNITE platform, or UNiversal Intracellular Targeted Expression, is thought to work by encoding the Lysosomal Associated Membrane Protein, an endogenous protein in humans. In this way, ITI’s vaccines (DNA or RNA) have the potential to utilize the body’s natural biochemistry to develop a broad immune response including antibody production, cytokine release and critical immunological memory. This approach could put UNITE technology at the crossroads of immunotherapies in a number of illnesses, including cancer, allergy and infectious diseases. UNITE is currently being employed in Phase II clinical trials as a cancer immunotherapy. ITI is also collaborating with academic centers and biotechnology companies to study the use of UNITE in cancer types of high mortality, including cases where there are limited treatment options like glioblastoma and acute myeloid leukemia. ITI believes that these early clinical studies may provide a proof of concept for UNITE therapy in cancer, and if successful, set the stage for future studies, including combinations in these tumor types and others. Preclinical data is currently being developed to explore whether LAMP nucleic acid constructs may amplify and activate the immune response in highly immunogenic tumor types and be used to create immune responses to tumor types that otherwise do not provoke an immune response.

About ITI-1000 and the Phase 2 (ATTAC-II) Study
ITI-1000 is an investigational dendritic cell vaccine therapy currently in a Phase 2 clinical trial (ATTAC-II) for the treatment of GBM. ITI-1000 was developed using Immunomic’s proprietary investigational lysosomal targeting technology, UNITE, in the context of cell therapy. In May 2017, Immunomic exclusively licensed a patent portfolio from Annias Immunotherapeutics for use in combination with UNITE and ITI-1000, allowing Immunomic to combine UNITE with a patented and proprietary CMV immunotherapy platform. The ATTAC-II study (NCT02465268) is a Phase II randomized, placebo-controlled clinical trial enrolling patients with newly diagnosed GBM that will explore whether dendritic cell (DC) vaccines, including ITI-1000, targeting the CMV antigen pp65 improves survival. This study is enrolling up to 120 subjects at 3 clinical sites in the United States. For more information on the ATTAC-II study, please visit www.clinicaltrials.gov.

On September 14, 2020 A team of researchers led by Mayo Clinic and the Translational Genomics Research Institute (TGen), an affiliate of City of Hope, reported that it has identified specific potential therapeutic targets for the most aggressive and lethal form of pancreatic cancer (Press release, TGen, SEP 14, 2020, View Source [SID1234565084]).

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In what is believed to be the most comprehensive analysis of adenosquamous cancer of the pancreas (ASCP), the Mayo Clinic and TGen team identified, in preclinical models, therapeutic targets for this extremely fast-moving and deadly form of pancreatic cancer, and identified already available cancer inhibitors originally designed for other types of cancer, according to a study published today in Cancer Research, a journal of the American Association for Cancer Research (AACR) (Free AACR Whitepaper).

"The rarity of ASCP, the scarcity of tissue samples suitable for high resolution genomic analyses, and the lack of validated preclinical models, has limited the study of this particularly deadly subtype of pancreatic cancer," said Dr. Daniel Von Hoff, Distinguished Professor and TGen’s Physician-In-Chief, considered one of the nation’s foremost authorities on pancreatic cancer, and one of the study’s authors. "We need entirely new possible approaches for our patients with ASCP."

Pancreatic ductal adenocarcinoma (PDAC) is the most common form of pancreatic cancer, which this year is projected to kill nearly 57,600 Americans, making it the nation’s third leading cause of cancer-related death, according to the American Cancer Society. Among pancreatic cancer patients, a small percentage (less than 4%) are diagnosed with ASCP, a particularly aggressive form of pancreatic cancer.

"ASCP currently has no effective therapies. Unlike PDAC, ASCP is defined by the presence of more than 30% squamous (skin-like) epithelial cells in the tumor. The normal pancreas does not contain squamous cells," said the study’s senior author, Michael Barrett, Ph.D., who holds a joint research appointment at Mayo Clinic and TGEN.

"Our study has shown that ASCPs have novel ‘hits’ (mutations and deletions) in genes that regulate tissue development and growth superimposed on the common mutational ‘landscape’ of a typical PDAC. As a consequence, cells within the tumor have the ability to revert to a stem-cell-like state that includes changes in cell types and appearance, and the activation of signaling pathways that drive the aggressive nature of ASCP,’ said Dr. Barrett.

While this activated aggressive stem-cell-like state is very resistant to current therapies for pancreatic cancer, Dr. Barrett said, the study has shown that ASCP can be targeted by drugs currently in clinical use for other cancers as well as non-cancer related conditions.

Using multiple cancer analysis methods and platforms — including: flow cytometry, copy number analysis, whole exome sequencing, variant calling and annotation, ATAC-seq, immunofluorescence, immunohistochemistry, single cell sequencing, and organoid cultures and treatments — the Mayo Clinic and TGen research team conducted what is believed to be the most in-depth analysis of ASCP tissue samples.

Researchers identified multiple mutations and genomic variants that are common to both PDAC and the more aggressive ASCP. "Of significant interest," the study says, the team also identified two potential therapeutic targets unique to ASCP genomes: FGFR signaling, including an FGFR1-ERLIN2 gene fusion, and a pancreatic cancer stem cell regulator known as RORC.

These data provide a unique description of the ASCP genomic and epigenomic landscape and identify candidate therapeutic targets for this lethal cancer, the study says.

Using organoids, which are laboratory cultures derived from samples of patient tumors, researchers tested the activity and functional significance of candidate therapeutic targets. According to the study: "Specifically, organoids carrying the FGFR1-ERLIN2 fusion show a significant response to pharmacological FGFR inhibition," providing new candidate targets for developing therapies for patients with ASCP.

In addition, the study says, "To our knowledge, this is the first study to apply DNA content sorting to the genomic analysis of ASCP," a method that purifies the cancer DNA from other cells and parts of cells, thereby eliminating any biological "noise" that might impede the precision of the analysis.

Using an interrogation tool known as ATAC-seq, researchers also identified RORC as another distinguishing feature of ASCP.

"Of significant interest will be clinical trials with FGFR and RORC inhibitors that include correlative studies of genomic and epigenomic lesions in both ASCP and PDAC," the study concludes.

Also contributing to this study — Genomic and Epigenomic Landscaping Defines New Therapeutic Targets for Adenosquamous Carcinoma of the Pancreas — were: Virginia G Piper Cancer Center at HonorHealth; University of California, San Diego School of Medicine; Salk Institute for Biological Studies; Memorial Sloan Kettering Institute; and University of Nebraska Medical Center (UNMC).

Funding for this study was provided by: the Lee Hanley Foundation; TGen’s annual stepNout pancreatic cancer fundraising; a Pancreatic Cancer Dream Team Research Grant through Stand Up to Cancer (SU2C) and Lustgarten-Cancer Research UK (CRUK); Damon Runyon Cancer Research Foundation; the National Institutes of Health (NIH); the Pancreatic Cancer Collective New Therapies Challenge; and a fellowship through the Tobacco Related Disease Research Program.

In addition, Mayo Clinic Cancer Center is supported by a Cancer Center Support Grant from the National Institute of Cancer (NCI).

The UNMC Tissue Bank Rapid Autopsy Program for Pancreas is supported by the following: Specialized Program of Research Excellence (SPORE) in Pancreatic Cancer; Pancreatic Cancer Detection Consortium; an NCI Cancer Center Support Grant; and an NCI Research Specialist.

The authors declare no conflicts of interest.

Cancer Research is a journal of AACR (Free AACR Whitepaper), which also is the Scientific Partner of SU2C. AACR (Free AACR Whitepaper) administers SU2C grants. SU2C is a division of the Entertainment Industry Foundation.