On February 20, 2018 Propanc Biopharma Inc. (OTCQB: PPCB) ("Propanc Biopharma" or the "Company"), a clinical stage biopharmaceutical company focusing on development of new and proprietary treatments for cancer patients suffering from solid tumors such as pancreatic, ovarian and colorectal cancers, reported allowance of a key patent application from the European Patent Office (EPO) covering a pharmaceutical composition for treating cancer comprising trypsinogen and chymotrypsinogen within the European Union (Press release, Propanc, FEB 20, 2018, View Source [SID1234524077]). The allowed patent application is the first approval for the Company in the EU, which protects the Company’s lead product candidate, PRP, a solution for once-daily intravenous administration of a combination of two pancreatic proenzymes trypsinogen and chymotrypsinogen.

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"We continue to make significant progress with respect to building our intellectual property portfolio, which is an important cornerstone for biotech companies like ours," said James Nathanielsz, Propanc Biopharma’s Chief Executive Officer. "In addition to our lead patent application, we also have three patents entering national phase this year and another patent application currently under preparation. It is a promising sign that we are advancing a world class portfolio covering a new therapeutic approach using pancreatic proenzymes for the treatment and prevention of metastatic cancer from solid tumors."

Currently progressing towards a First-In-Human study, PRP aims to prevent tumor recurrence and metastasis from solid tumors. Eighty percent of all cancers are solid tumors and metastasis is the main cause of patient death from cancer. According to the World Health Organization, 8.2 million people died from cancer in 2012. Consequently, a report by IMS Health states innovative therapies are driving the global oncology market to meet demand, which is expected to reach $150 billion by 2020. The Company’s initial target patient populations are pancreatic, ovarian and colorectal cancers, representing an estimated combined market segment of $14 billion in 2020, according to GBI Research.

To view Propanc Biopharma’s "Mechanism of Action" video on anti-cancer product candidate, PRP, please click on the following link: View Source

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On February 20, 2018 Immune Therapeutics, Inc. (OTCQB:IMUN) ("Immune" "IMUN" or the "Company"), a clinical late stage biopharmaceutical company focused on the development of two immunomodulating therapies (IRT-103 "Lodonal" and IRT-101 "MENK") for the treatment of autoimmune diseases, inflammatory diseases, cancer and HIV/AIDs, reported the company has shipped its initial order of Lodonal to AHAR Pharma in Nigeria (Press release, Immune Therapeutics, FEB 20, 2018, View Source [SID1234524071]).

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In addition, IMUN has received both trademark and patent approval from the Federal Republic of Nigeria giving the Company ironclad protection of its ideas, inventions, designs, and trade secrets while also ensuring IMUN legal rights are not infringed upon.

Immune Therapeutics shipped 100,000 capsules of Lodonal fulfilling the initial purchase order for $195,000 with AHAR Pharma, Immune’s agent and distributor in Nigeria. Since the company’s shipment has recently cleared customs, it is now available via AHAR in Nigeria.

The company has received a Certificate of Patent Approval for Lodonal NG/P/2017/602 and Certificate of Registration of Design (Trademark, Name, Box Design) NG/D.2017/603.

CEO Noreen Griffin states, "The initial Lodonal order to Nigeria is just the beginning for us with many more to come based on our strong relationship with AHAR and our ability to expand our reach in the African country through a number of potential sub-distributors for sales and marketing."

"While we are focused on an aggressive marketing strategy of Lodonal in Nigeria it is vital for us to register and protect our intellectual property rights there as well especially due to the fact that we are a non-Nigerian business desiring to take a slice of the almost 200 Million strong import-dependent domestic market which Nigeria represents. We also believe it forestalls potential pirating and counterfeiting of our products as well."

"Immune and AHAR are currently completing the necessary regulatory paperwork for presentation to the National Agency for Food and Drug Administration and Control (NAFDAC) for the approval of Lodonal for a number of additional indications."

Griffin said she believes the company will be ready to submit to NAFDAC in Q1 of 2018.

The company plans to meet this month with AHAR, GB Pharma and Fidson HealthCare as a follow up to their initial meeting in October, 2017. The companies plan to further discuss the potential for the transfer of distributorship from AHAR to Fidson. Under a potential new agreement, AHAR would remain Immune’s agent in Nigeria.

On February 20, 2018 Heat Biologics, Inc. ("Heat") (Nasdaq: HTBX), a biopharmaceutical company developing drugs designed to activate a patient’s immune system against cancer, reported that it has received a recommendation by the Independent Data Monitoring Committee (DMC) to continue patient enrollment of its ongoing Phase 2 Clinical Trial for HS-110 and nivolumab for the treatment of advanced non-small cell lung cancer (NSCLC) (Press release, Heat Biologics, FEB 20, 2018, View Source [SID1234524070]).

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The recommendation follows the first of several planned DMC meetings that took place on Wednesday, Feb. 14, 2018, to discuss the continued development of the trial.

"We believe that the continued advisement from an independent, unbiased committee of expert clinicians will help guide us to select the most appropriate patient population to include in a registrational trial for NSCLC," said CEO of Heat, Jeff Wolf. "We look forward to expanding enrollment to additional patient cohorts who may benefit from our therapy."

To-date, 35 adenocarcinoma patients with no prior history with checkpoint inhibitors have been treated with the HS-110/nivolumab combination. Further enrollment is expected to also include patients with squamous cell histology as well as those who have relapsed after checkpoint inhibitor therapy.

Heat will be hosting an analyst and investor event in New York City on February 28, 2018, at 8 a.m. ET, to discuss data generated from the first 35 patients enrolled in this trial. Event details and webcast information to be provided prior to the event.

On February 20, 2018 H3 Biomedicine Inc., a clinical stage biopharmaceutical company specializing in the discovery and development of next generation cancer therapies using its data molecular science and precision chemistry product engine, reported publication of the discovery and preclinical characterization of H3B-8800, its oral, first-in-class modulator of the SF3b spliceosome complex (Press release, H3 Biomedicine, FEB 20, 2018, View Source [SID1234524068]). The publication highlights the significant anti-tumor activity of H3B-8800 in several in vivo models, including patient-derived xenografts (PDX) of hematological malignancies with recurrent mutations in RNA splicing factor genes that comprise the spliceosome. The H3B-8800 data generated by H3 Biomedicine scientists and collaborators appear in the most recent issue of Nature Medicine and can be accessed online at nature.com/nm. (Seiler M. et al, "H3B-8800, a novel oral splicing modulator, induces lethality in spliceosome-mutant cancers").

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RNA splicing is the biological process by which pre-cursor messenger RNA (pre-mRNA) is edited into a mature mRNA. Splicing factors are proteins that carry out the editing process which is catalyzed by the core spliceosome complex. Mutations in genes encoding for certain of these RNA splicing factors that form the spliceosome are among the most common mutations found in patients with Acute Myeloid Leukemia (AML), Myelodysplastic Syndromes (MDS), Chronic Myelomonocytic Leukemia (CMML) and Chronic Lymphocytic Leukemia (CLL), and occur in subsets of patients with solid tumors.

Despite the high prevalence of these mutations in cancer, no known spliceosome mutation-targeting cancer therapies are approved currently. Based on these promising preclinical data, H3 Biomedicine is a leader in this emerging area of drug discovery, and is currently evaluating H3B-8800 in a Phase 1 clinical trial for patients with AML, MDS and CMML identified by certain splicing factor mutations, and expects to present initial clinical data from this ongoing study in 2018. In 2017, H3B-8800 was granted orphan drug designation for AML and CMML.

"The significant anti-tumor activity shown in this publication demonstrates preclinical proof-of-concept of H3B-8800 in several hematological cancers of high unmet medical need," said Peter Smith, Ph.D., Chief Scientific Officer of H3 Biomedicine, Inc. "No therapies currently exist to affect mutations in the spliceosome in cancers, and H3B-8800 is the first known investigational therapy to modulate and target cancer cells with mutated genes in this complex. The discovery of H3B-8800 highlights the power of the H3 Biomedicine product engine to create highly differentiated investigational therapies to address molecular traits driving cancers in subsets of patients."

The Nature Medicine publication outlines the discovery process led by H3 Biomedicine scientists to create and characterize a highly potent and selective, oral, first-in-class modulator of the SF3b complex to target cancer cells with mutations in RNA splicing factor genes. Data highlights of the publication include:

Dose-dependent anti-leukemic efficacy and splicing modulation of H3B-8800 in a cell line xenograft model of SF3B1-mutant leukemia and significant anti-tumor activity in an SF3B1-mutant AML PDX model;
Anti-leukemic efficacy of H3B-8800 in mice with SRSF2-mutant CMML in which ten-day treatment with H3B-8800 substantially reduced leukemic burden in peripheral blood, spleen and liver;
Differential anti-tumor efficacy in in vitro and in vivo models with mutant genes in the spliceosome compared to wild-type or normal genes in the complex; and
In mechanism of action studies, H3B-8800 was shown to exploit a synthetic lethality imposed by aberrant splicing leading to differential cell killing in tumor cells harboring spliceosome mutations whereas normal cells were substantially less affected. This phenomenon is not shared by other small molecule spliceosome modulators.
H3B-8800 is one of three investigational therapies of H3 Biomedicine in clinical trials. The two additional investigational therapies include:

H3B-6545, an oral, first-in-class ESR1 covalent antagonist targeting wild-type and mutant estrogen receptor in endocrine-therapy resistant metastatic breast cancer patients; and
H3B-6527, an oral, potent and highly selective small molecule covalent inhibitor of FGFR4 for treatment of hepatocellular carcinoma (HCC) patients with overexpression of FGF19.
Portions of the work described in the Nature Medicine publication were originally presented at the 2016 American Society of Hematology (ASH) (Free ASH Whitepaper) Meeting by lead author Silvia Buonamici, Ph. D., Executive Director, Target Biology and Translational Research, H3 Biomedicine.

About H3B-8800
H3B-8800 is a potent, selective, and orally bioavailable small molecule modulator of wild-type and mutant SF3b complex, a key component of the spliceosome. Recurrent heterozygous mutations in several core members (SF3B1, U2AF1, SRSF2, ZRSR2) of the spliceosome have been identified in both hematological malignancies, including myelodysplastic syndrome, acute myelogenous leukemia and chronic lymphocytic leukemia, as well as solid tumors such as skin, lung, breast and pancreatic cancers. Preclinical data indicates that H3B-8800 modulates RNA splicing and shows preferential antitumor activity in a range of spliceosome mutant cancer models. H3 is conducting initial clinical development in patients with hematological malignancies (including MDS, AML, and CMML) that may carry mutations in the core spliceosome genes to assess the safety and preliminary efficacy of H3B-8800.

On February 20, 2018 Myriad Genetics, Inc. (NASDAQ:MYGN) reported that the National Comprehensive Cancer Network (NCCN) has updated its medical guidelines for prostate cancer treatment to broadly include biomarker testing in prostate cancer (Press release, Myriad Genetics, FEB 20, 2018, View Source [SID1234524056]). The changes to the guidelines include new language supporting Prolaris as standard of care in treatment decision making for patients with low and favorable-intermediate risk prostate cancer. Additionally, the new guidelines support an expansion of hereditary cancer testing for prostate cancer to include all patients with a family history regardless of Gleason score along with all patients with metastatic disease, and new recommendations supporting testing for homologous recombination deficiency (HRD) in patients with metastatic prostate cancer.

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"We view this significant update in guidelines as a clear indication of the increasing importance of molecular biomarkers in guiding prostate cancer care and Myriad is uniquely positioned with its broad portfolio of tests to address these clinical needs," said Nicole Lambert, general manager, Urology. "These new guidelines are critical in our efforts to broaden insurance coverage and increase patient access to Myriad’s entire portfolio of prostate cancer molecular diagnostic tests."

Below are the key updates from the guidelines:

Prolaris: now standard of care for 110,000 patients per year identified as low or favorable-intermediate risk patients.
myRisk Hereditary Cancer: now recommended for approximately 70,000 prostate cancer patients per year including all patients with metastatic prostate cancer and those with a family history of cancer regardless of Gleason score.
myChoice HRD: now recommended for 20,000 patients per year with metastatic prostate cancer to identify tumors with homologous recombination deficiency (HRD) so that these patients can be considered for targeted therapies.
About Prolaris
Prolaris is a novel 46-gene RNA-expression test that directly measures tumor cell growth characteristics for stratifying the risk of disease progression in patients with prostate cancer. Prolaris provides a quantitative measure of the RNA expression levels of genes involved in the progression of tumor growth. Low gene expression is associated with a low risk of disease progression in men who may be candidates for active surveillance and high gene expression is associated with a higher risk of disease progression in patients who may benefit from additional therapy. For more information visit: www.prolaris.com.

About Myriad myRisk Hereditary Cancer
The Myriad myRisk Hereditary Cancer test uses an extensive number of sophisticated technologies and proprietary algorithms to evaluate 28 clinically significant genes associated with the development of eight hereditary cancers including: breast, colon, ovarian, endometrial, pancreatic, prostate and gastric cancers and melanoma. The myRisk Hereditary Cancer test offers physicians several distinct advantages over other commercial tests, including unsurpassed lab accuracy, industry leading variant classification, a medical management tool and exceptional customer service.

Men with prostate cancer can take the Hereditary Cancer Quiz to find out if they might be at risk for an inherited mutation and therefore eligible for myRisk Hereditary Cancer test.

About myChoice HRD
Myriad’s myChoice HRD is the most comprehensive homologous recombination deficiency test, enabling physicians to identify tumors that have lost the ability to repair double-stranded DNA breaks, resulting in increased susceptibility to DNA-damaging drugs such as platinum drugs or PARP inhibitors. The myChoice HRD test is a composite of three proprietary technologies (loss of heterozygosity, telomeric allelic imbalance and large-scale state transitions).

Positive myChoice HRD scores, reflective of DNA repair deficiencies, are prevalent in all breast cancer subtypes, ovarian cancer and most other major cancers. It is estimated that 1.4 million people in the United States and Europe who are diagnosed with cancers annually may be candidates for treatment with DNA-damaging agents. Learn more: View Source