On June 28, 2021 CEL-SCI Corporation (NYSE American: CVM) reported results from its 9.5 year pivotal Phase 3 study for its immunotherapy Multikine (Leukocyte Interleukin, Injection)* in the treatment of advanced (stages III and IV) primary (previously untreated) squamous cell carcinoma of the head and neck (SCCHN) (Press release, Cel-Sci, JUN 28, 2021, View Source [SID1234584422]).

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In the intent to treat (ITT) advanced primary SCCHN patients the study showed a statistically significant (p=0.0236, HR=0.68) overall survival benefit of 14.1% with overall survival (OS) of 62.7% at 5 years for the group of patients receiving the Multikine treatment regimen followed by surgery and radiotherapy therapy, but not chemotherapy, as part of their standard of care (SOC) treatment. The OS benefit increased over time. This group represents about 155,000 patients worldwide, or about 40% of all advanced primary head and neck cancer cases annually. Patients treated with the same Multikine treatment regimen prior to surgery and radiotherapy, but who also received chemotherapy, did not exhibit this survival advantage. The chemotherapy, cisplatin, was given intravenously and may have negated the survival benefit imparted by Multikine immunotherapy in these patients.

This global trial enrolled 928 stage III and IVa patients through 78 sites on 3 continents. The ITT population comprised of 923 patients, as 5 randomized patients were never treated. The two main comparator arms of the study were: the Multikine treatment regimen (Multikine plus CIZ: cyclophosphamide; indomethacin; zinc-multivitamins) plus SOC vs. SOC alone. In each of these comparator arms, patients were determined by pathology following surgery to receive radiotherapy only or concurrent radio-chemotherapy. These treatments were prescribed by the protocol and are based on the NCCN (National Comprehensive Cancer Network) Guidelines for the treatment of SCCHN patients. The data were analyzed per the protocol and the Statistical Analysis Plan.

Results for the patients who did not receive chemotherapy treatment as part of their SOC are listed below. This is the group for which CEL-SCI plans to seek FDA approval:

1) Patients treated with the Multikine treatment regimen plus SOC vs. SOC alone had an overall survival benefit of 14.1% at 5 years which exceeded the pre-defined 10% overall survival benefit set out for the study population as a whole. This result was statistically significant (ITT; p =0.0236, HR=0.68) with a robust and durable duration effect exceeding 5 years.

2) The corresponding overall survival at 3 years and 5 years for each study treatment group was as follows: Multikine treatment regimen (Multikine plus CIZ: cyclophosphamide; indomethacin, zinc-multivitamins) plus SOC was 72.4% at 3 years, 62.7% at 5 years; Multikine (no CIZ) plus SOC was 78.8% at 3 years, 55.5% at 5 years. SOC alone was 67.5% at 3 years, 48.6% at 5 years. The primary survival comparison was pre-defined only between the first and last groups.

3) The OS advantage increased over time and was evident from the inception of the study participation for this group of patients through the end of the follow up period with a median follow up time greater than 7 years for those still alive.

4) No safety issues for Multikine were found during or as a result of its administration, including no late effects, in the overall treated patient population.

When the complete study population to which the Multikine treatment regimen was administered (i.e., the combined lower risk (no chemotherapy) and higher risk (with chemotherapy added)) was compared to control, the study did not achieve its primary endpoint of a 10% improvement in overall survival. However, the OS benefit of 14.1% at 5 years for the lower risk subgroup (no chemotherapy) exceeded the 10% OS benefit set out for the study population as a whole. In addition, as the OS results for the lower risk of recurrence patients (no chemotherapy) are significant (two-sided p=0.0236, HR=0.68) and the effect is robust, durable and increasing over time, CEL-SCI plans to seek FDA approval for Multikine cancer immunotherapy in this underserved patient population. This indication represents a dire unmet medical need with the last FDA approval being many decades ago. CEL-SCI has Orphan Drug designation from the FDA for the neoadjuvant therapy in patients with squamous cell carcinoma of the head and neck – the patient population treated in this Phase 3 study.

The analysis of this separate group is expected to meet regulatory requirements for FDA submission based on the protocol and Statistical Analysis Plan, which were prospectively concluded before database lock and unblinding.

Geert Kersten, Chief Executive Officer of CEL-SCI remarked, "Multikine demonstrated a significant survival benefit in the group whose standard of care did not include chemotherapy and a favorable safety profile across the entire patient population. Based on this landmark study data, we intend to seek FDA approval for what could become the first treatment in newly diagnosed advanced primary head and neck cancer in many decades. If approved, Multikine would address the needs of approximately 155,000 patients diagnosed annually worldwide who are currently slated for surgery plus radiotherapy and would significantly increase their chances of overall survival. Our aim with Multikine was to develop a treatment that will extend survival, and clearly this has been achieved in this patient population. In addition, we wanted to develop a treatment that does not add toxicity and does not make other cancer treatments more difficult to bear. We appear to have achieved this goal as well. We are grateful to all the patients and their families who volunteered to participate in the world’s largest and most rigorous Phase 3 study in advanced primary head and neck cancer. We are confident that the robust overall survival benefit shown in this pivotal study along with the safety profile of Multikine clearly demonstrates the benefit of neoadjuvant immunotherapy in this patient population and may lead to a new way to treat advanced primary head and neck cancer."

Dr. Eyal Talor, Chief Scientific Officer of CEL-SCI and the developer of Multikine commented, "These data, combined with what we know of Multikine’s mechanism of action, demonstrate Multikine’s potential to impart long term overall survival advantage and a beneficial effect on the anti-tumor immune response in patients who have not been treated with chemotherapy (cisplatin) which is known to be highly toxic. In patients not indicated to receive chemotherapy as part of their standard of care, treatment with Multikine neoadjuvant regimen demonstrated a statistically significant, robust and durable overall survival benefit. The data possibly indicate that the Multikine treatment regimen is capable of altering the course of disease in this population. Perhaps most impressive in the Multikine treated group not receiving chemotherapy was the fact that the overall survival benefit imparted by Multikine increased over time as compared to overall survival in control, suggesting that the Multikine immunotherapy neoadjuvant treatment stands to add great benefit to the intent to cure – current standard of care."

About Multikine

Multikine (Leukocyte Interleukin, Injection) is an investigational cancer immunotherapy that is known to contain 14 natural human cytokines, the body’s immune system regulators including interleukins, interferons, chemokines, and colony stimulating factors which are elements of the body’s natural mix of defenses against cancer and other diseases. A patented, mass-produced, off the shelf and ready to use non-autologous biological product, Multikine is manufactured using a proprietary process following Good Manufacturing Practice (GMP) requirements from Source Leukocytes, an FDA licensed product, at CEL-SCI’s manufacturing facility near Baltimore, Maryland.

About Head and Neck Cancer

Approximately 650,000 new cases of head and neck cancer are diagnosed each year globally, of which approximately 60,000 are in the U.S. and 105,000 in Europe. Head and neck cancer represents 6% of all cancers and leads to 300,000 deaths annually. Advanced (stages III and IV) primary (previously untreated) squamous cell carcinoma of the head and neck represent approximately 386,000 cases per year and about 40% of these, or approximately 155,000, are patients diagnosed at lower risk for recurrence and therefore are given only radiotherapy following surgery as part of their standard of care, and no chemotherapy.

On June 28, 2021 Biocept (Nasdaq: BIOC), a leading provider of molecular diagnostic assays, products and services, reported that it will be added to the Russell Microcap Index after the U.S. market opens today, June 28, 2021 (Press release, Biocept, JUN 28, 2021, View Source [SID1234584421]).

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"We are pleased that Biocept will now be included in the Russell Microcap Index, which is a broadly used performance benchmark for smaller growth stocks in the U.S.," said Michael Nall, President and CEO of Biocept. "This is an exceptionally exciting time with the full commercial launch underway of our novel, proprietary CNSide assay that provides physicians with a significantly improved tool to diagnose and manage patients with tumors that have metastasized to the central nervous system. We believe the addition to the Russell Microcap Index will further raise awareness of Biocept within the global investment community."

Membership in the Russell Microcap Index, which remains in place for one year, means automatic inclusion in the appropriate growth and value style indexes. FTSE Russell, a leading global index provider, determines membership for its Russell indexes primarily by objective, market-capitalization rankings and style attributes.

Russell indexes are widely used by investment managers and institutional investors for index funds and as benchmarks for active investment strategies. Approximately $10.6 trillion in assets are benchmarked against Russell’s U.S. indexes. For more information on the Russell Microcap Index and the Russell indexes reconstitution, go to the "Russell Reconstitution" section on the FTSE Russell website.

On June 28, 2021 Agilent Technologies Inc. (NYSE: A) reported the publication of a study carried out in partnership with Resolution Bioscience (a part of Agilent) and Dana-Farber Cancer Institute (Press release, Agilent, JUN 28, 2021, View Source [SID1234584420]). The paper was published in the New England Journal of Medicine (NEJM) on June 24 and is titled "Acquired Resistance to KRAS G12C Inhibition in Cancer." It demonstrates the clinical utility of liquid biopsy techniques to detect resistance to targeted therapies, including inhibitors of KRAS, one of the most commonly mutated oncogenes in cancer.

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KRAS G12C inhibitors, such as adagrasib, have shown promising efficacy in clinical trials, however, mechanisms of acquired resistance are not yet fully understood. Leveraging cell-free DNA (cfDNA) analysis, this study was conducted to investigate mutations that arise that may confer resistance to patients treated with KRAS inhibitors, including adagrasib and to better understand the process of acquired resistance and to identify new strategies to combat acquired resistance.

The results of the study showed KRAS G12C cancers have diverse genomic and histologic mechanisms, including point mutations, copy number changes, and fusions, that appear to impart resistance to KRAS G12C inhibitors. Developing therapeutic strategies to delay and overcome drug resistance will be an essential component in improving therapeutic outcomes in cancer patients.

"While results from these early clinical trials are encouraging, the cancer usually becomes resistant to these drugs," said Dana-Farber’s Mark Awad, MD, Ph.D., the co-first author of the paper with Shengwu Liu, Ph.D., also of Dana-Farber. "The mechanisms of resistance – the genomic and other changes that occur that allow the cancer to begin growing again – are largely unknown. This study sought to identify them."

"Given the high prevalence of KRAS driven cancers and resulting unmet medical need, elucidating the genetic underpinnings of acquired resistance to KRAS inhibitors at the time of progression is critical," Mark Li, CEO of Resolution Bioscience, said. "Importantly, in this study, more than three times as many patients were able to be genotyped by cfDNA compared to tissue alone at the time of progression. Furthermore, this study highlights the importance for cfDNA assays to accurately detect all major types of genetic aberrations, including gene fusions and copy number variations."

Agilent’s Resolution Bioscience team has partnered with Mirati Therapeutics Inc. (NASDAQ: MRTX) to use the Resolution ctDx FIRST assay as a companion diagnostic (CDx) in support of adagrasib for identifying patients with non-small cell lung cancer patients that harbor a KRAS G12C mutation. Liquid biopsy biomarker testing of patients in the adagrasib registrational clinical trial is being performed in Resolution’s clinical lab based in Kirkland, Washington.

On June 28, 2021 Lengo Therapeutics, a biopharmaceutical company developing novel precision medicines targeting driver mutations in oncology, reported the appointment of Enoch K. Kariuki, Pharm.D., as Chief Executive Officer (Press release, Lengo Therapeutics, JUN 28, 2021, View Source [SID1234584419]).

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Dr. Kariuki is an accomplished industry leader with broad experience in healthcare strategy, life sciences finance, operations and business development. Prior to joining Lengo, Dr. Kariuki was Chief Financial Officer at VelosBio, a clinical-stage biopharmaceutical company developing novel, first-in-class cancer therapies targeting ROR1, which was acquired by Merck in 2020 for $2.75 billion.

Prior to VelosBio, Dr. Kariuki served as Senior Vice President, Corporate Development at Synthorx, Inc., where he led the company’s initial public offering, managed relationships with bankers, sell-side equity analysts and investors, and led the business development process that concluded with the successful sale of Synthorx to Sanofi for $2.5 billion.

Dr. Kariuki was previously Vice President at H.I.G. Capital, where he led investments into, and served on boards of, several life sciences companies. His roles prior to H.I.G. include Senior Associate at Leerink Partners and Associate Director at UBS Investment Bank. At Leerink and UBS, Dr. Kariuki advised healthcare companies on equity capital financings, mergers and acquisitions, leveraged buyouts, and recapitalizations.

"Enoch brings to Lengo extensive experience leading high-performing teams in the private and public sectors. His background in global finance and operations, as well as his track record of financing and building biotech companies, is exactly the type of leader Lengo needs as we advance into our next phase of growth," said Dave Johnson, Chairman at Lengo Therapeutics. "Enoch will be an invaluable asset to Lengo, and I look forward to working with him again to build a best-in-class pipeline targeting driver mutations in oncology."

"I am excited to join Lengo at such an exciting time. I look forward to working with Dave, our Board members and the senior management and scientific teams to help advance our pipeline of differentiated, best-in-class targeted oncology therapeutics," said Enoch Kariuki, Pharm.D., Chief Executive Officer at Lengo Therapeutics.

Dr. Kariuki completed a Post-Doctoral Fellowship in R&D Strategy and Analytics at Bristol Myers Squibb and was a Pharmacist at CVS Caremark. He holds an MBA from the Tuck School of Business at Dartmouth College and a PharmD from Texas Southern University. He serves on the boards of Zentalis Pharmaceuticals (NASDAQ:ZNTL) and Imago Biosciences.

On June 28, 2021 Kiromic reported as a pioneer of immuno oncology with a presentation at the 4th Annual Next-Gen Immuno Oncology Congress in June 2021 (Press release, Kiromic, JUN 28, 2021, View Source [SID1234584418]).

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At the conference, we will:

— Present our artificial intelligence (AI) predicted and selected targets, and

— Discuss how our AI targets will offer better safety and efficacy compared to immuno oncology peers with classic targets.

Our AI targets are predicted and selected based on the following characteristics:

High expression in cancer cells

Heat map of T-cell, B-cell epitopes

Low expression in normal cells

High affinity to TCR

Quantity surface antigen expression signature

We intend to use our AI target, Mesothelin isoform 2, in the upcoming first-in-human dosing for solid tumors in 3Q-2021. At the first-in-human dosing, Kiromic will also introduce a CAR-T with chPD1, our PD1 activator, which will we believe offer immuno oncology with new tools to address Tumor Micro Environment (TME).

Our topics for the session on June 29th are:

— Mesothelin isoform 2 is a novel target for allogenic CAR γδT cell therapy in solid tumors

— Diamond Artificial Intelligence /CancerSplice : ADVANCING CAR through A.I. for Target
Link to 4th Annual Next-Gen Immuno Oncology Congress (Virtual) June-28, 2021

Chief Executive Officer of Kiromic, Maurizio Chiriva-Internati, DBSc, PhDs, commented:

"We are honored to be invited to present at the 4th Annual Next-Gen Immuno Oncology Congress.

The challenges for immuno oncology and the employment of classic targets result from low specificity, which results in higher side effects and low affinity, which results in low efficacy.

We believe our AI selected iso-mesothelin will address both of these issues.

Our selection and prediction algorithm is robust and extensive, poring over billions of data points, to arrive at these targets in hours which otherwise would have required many man-years if done manually.

We believe that the first-in-human dosing will demonstrate the safety and efficacy of our product and will also demonstrate that AI targeting is superior compared with classic targeting with immuno chemistry."

Chief Medical Officer of Kiromic, Dr. Scott Dahlbeck, commented:

"As an oncologist treating these patients and reading the data, I know first-hand about the needs in immuno oncology to address the problems of specificity and affinity in targeting.

It’s very exciting for me to be part of our innovative team that is introducing AI algorithms into the search for better targets.

We are looking forward to the first in-human dosing with these AI targets in 3Q-2021."

Chief Strategy and Innovation of Kiromic, Gianluca Rotino, stated:

"The time has come for the world to see the power of AI algorithms unleashed on targets research and immuno oncology to finally get CAR-T which offers better safety and efficacy compared with classic small molecules."