On November 16, 2020 NeoImmuneTech, Inc., a clinical-stage T cell-focused biopharmaceutical company, reported that the U.S. Food and Drug Administration (FDA) has cleared its investigational new drug (IND) application for the combination of its lead drug candidate, NT-I7 (efineptakin alfa), a novel long-acting human interleukin-7 (IL-7), and atezolizumab (Tecentriq) for the treatment of patients with previously untreated, PD-L1-expressing, locally advanced or metastatic non-small cell lung cancer (NSCLC) (Press release, NeoImmuneTech, NOV 16, 2020, View Source [SID1234571159]). This IND clearance allows NeoImmuneTech (NIT) to initiate a multicenter Phase 2 study evaluating the anti-tumor efficacy and safety of NT-I7 in combination with atezolizumab as a first-line (1L) treatment for NSCLC.

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NSCLC accounts for 80-85% of all cases of lung cancer, which is the most commonly diagnosed cancer worldwide, with an estimated 2.1 million new cases in 2018 globally. It is also the leading cause of cancer death in most countries, with an estimated 1.76 million lung cancer deaths occurred in 2018 worldwide. Atezolizumab monotherapy has been approved as 1L treatment for metastatic NSCLC patients with high PD-L1 expression, while the combinations of atezolizumab with chemotherapies and with or without bevacizumab (Avastin) have been approved for 1L treatment of metastatic non-squamous NSCLC regardless of PD-L1 expression.

"There is a clear need for new chemo-free treatment options for patients with NSCLC, and we are pleased to combine our NT-I7 with one of the field’s leading cancer therapeutics as a potential treatment for 1L NSCLC," said NgocDiep Le, M.D., Ph.D., Executive Vice President and Chief Medical Officer of NIT. "NT-I7 has the potential to address multiple immune resistance mechanisms; therefore, we believe that adding NT-I7 to atezolizumab may provide clinical benefit to NSCLC patients with lower level of PD-L1 expression as well as increase the depth and breadth of the response to single-agent atezolizumab."

Se Hwan Yang, Ph.D., President and Chief Executive Officer of NIT, added "NT-I7’s unique ability to amplify and increase the functionality of T cells and exhibition of favorable safety profile make it an excellent combination partner with atezolizumab. Based on strong scientific rationale and preclinical data, we anticipate that this chemo-free combination therapy could significantly improve clinical outcomes for NSCLC patients who do not benefit from or cannot tolerate currently available treatments."

Tecentriq (atezolizumab) is a registered trademark of Genentech, a member of the Roche Group.

About NT-I7

NT-I7 (efineptakin alfa) is the only clinical-stage long-acting human IL-7, and is being developed for oncologic and immunologic indications, in which T cell amplification and increased functionality may provide clinical benefit. IL-7 is a fundamental cytokine for naïve and memory T cell development and for sustaining immune response to chronic antigens (as in cancer) or foreign antigens (as in infectious diseases). NT-I7 exhibits favorable PK/PD and safety profiles, making it an ideal combination partner. NT-I7 is being studied in multiple clinical trials in solid tumors and as a vaccine adjuvant. Studies are being planned for testing in hematologic malignancies, additional solid tumors and other immunology-focused indications.

On November 16, 2020 Legend Biotech Corporation (NASDAQ: LEGN) ("Legend Biotech" or the "Company"), a global clinical-stage biopharmaceutical company engaged in the discovery and development of novel cell therapies for oncology and other indications, reported financial results for the quarter ended September 30, 2020 (Press release, Legend Biotech, NOV 16, 2020, View Source [SID1234571157]).

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"Legend Biotech continues to execute on our corporate strategy, advancing the development of our lead product candidate, ciltacabtagene autoleucel (cilta-cel), in collaboration with Janssen Biotech, Inc. as well as our other pipeline programs," said Dr. Ying Huang, Chief Executive Officer ("CEO") and Chief Financial Officer ("CFO") of Legend Biotech. "We look forward to initiation of the Biologics License Application ("BLA") filing for cilta-cel by Janssen Biotech, Inc."

Third Quarter 2020 & Recent Highlights

On November 9, 2020, Legend Biotech announced that Ms. Ye (Sally) Wang was appointed, effective November 6, 2020, as Chairwoman of the Board of Directors of Legend Biotech. The Board of Directors also named Dr. Ying Huang as CEO of Legend Biotech, effective November 6, 2020. Dr. Huang had been serving as interim CEO since September 21, 2020. Dr. Huang will continue to hold his position as CFO until such time as a successor CFO is identified.
On November 5, 2020, Legend Biotech announced that the Company will present new and updated data from its CARTITUDE-1 and LEGEND-2 studies at the 62nd American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition taking place virtually December 5-8, 2020.
On September 21, 2020, Legend Biotech announced that the Customs Anti-Smuggling Department of the People’s Republic of China ("PRC") had inspected places of business in China of Legend Biotech and GenScript Biotech Corporation, Legend Biotech’s majority shareholder, in connection with what Legend Biotech understands to be an investigation relating to suspected violations of import and export regulations under the laws of the PRC (the "Investigation") and that Dr. Fangliang Zhang, the Chairman of the Board of Directors and CEO of Legend at that time, had been placed under "residential surveillance" in the PRC. No charges have been filed against Legend Biotech, Dr. Zhang, or any of its other officers or directors, and the Company does not believe that Legend Biotech is a subject of the investigation.
On August 5, 2020, Legend Biotech announced that the China Center for Drug Evaluation ("CDE") of National Medical Products Administration ("NMPA") recommended Breakthrough Therapy Designation ("BTD") for cilta-cel for the treatment of adults with relapsed/refractory multiple myeloma. The designation was granted on August 13, 2020, making cilta-cel the first investigational product to obtain BTD in China.
Key Upcoming Milestones

On Saturday, December 5, 2020, during the Myeloma session at ASH (Free ASH Whitepaper) entitled: Myeloma/Amyloidosis: Therapy, excluding Transplantation: Novel Therapies Targeting B Cell Maturation Antigen in Relapsed/Refractory Multiple Myeloma, the Phase 1b/2 clinical efficacy and safety data from the CARTITUDE-1 study will be presented.
During the ASH (Free ASH Whitepaper) Annual Meeting and Exposition, LEGEND-2 data in patients with relapsed or refractory multiple myeloma and extramedullary disease will be presented as a poster.
Legend Biotech’s collaboration partner Janssen Biotech, Inc. anticipates initiating the BLA submission for cilta-cel to the U.S. Food and Drug Administration ("FDA") by the end of 2020 and submitting a marketing authorization application to the European Medicines Agency ("EMA") in early 2021.
Legend Biotech expects to use data from CARTIFAN-1 study to file a regulatory submission in China in 2021.
Please see Legend Biotech’s comprehensive development pipeline as shown below.
Development Pipeline

The extent to which the COVID-19 pandemic may impact our business and clinical trials is highly uncertain and cannot be predicted with confidence, such as the ultimate geographic spread of the disease, the duration of the outbreak and social distancing regulations, travel restrictions, business closures or business disruptions and the effectiveness of actions taken in the United States and other countries to contain and treat the disease.

Financial Results for the Three-month and Nine-month Periods Ended September 30, 2020

Cash and Cash Equivalents:

As of September 30, 2020, Legend Biotech had approximately $449.4 million of cash and cash equivalents and approximately $125.6 million in time deposits.

Revenue

Revenue for the three months ended September 30, 2020 was $11.7 million compared to $17.7 million for the three months ended September 30, 2019. The decrease of $6.0 million was primarily due to milestone achieved in July 2019 under the agreement with Janssen Biotech, Inc., which resulted in additional consideration being allocated to the licensing of intellectual property and the steering committee service for the three months ended September 30, 2019, net-off by additional milestone that was achieved in December 2019, which resulted in additional consideration being allocated to the steering committee service for the three months ended September 30, 2020. Revenue for the nine months ended September 30, 2020 was $34.9 million compared to $37.8 million for the nine months ended September 30, 2019. Similarly, the decrease of the nine months period in 2020 was primarily driven by additional milestone payment received from Janssen Biotech, Inc. that was achieved in July 2019, net-off by additional milestone that was achieved in December 2019, which resulted in additional consideration being allocated to the steering committee service for the nine month ended September 30, 2020. Legend Biotech has not generated any revenue from product sales to date.

Research and Development Expenses

Research and development expenses for the three months ended September 30, 2020 were $63.7 million compared to $41.9 million for the three months ended September 30, 2019. This increase of $21.8 million was primarily due to a higher number of clinical trials, a higher number of patients enrolled in those trials and a higher number of research and development product candidates in the three months ended September 30, 2020. Consistently, research and development expenses for the nine months ended September 30, 2020 was $165.2 million compared to $95.8 million for the nine months ended September 30, 2019 with a $69.4 million increase.

Administrative Expenses

Administrative expenses for the three months ended September 30, 2020 were $6.0 million compared to $2.0 million for the three months ended September 30, 2019. The increase of $4.0 million was primarily due to Legend Biotech’s expansion of supporting administrative functions to aid continued research and development activities. Due to the consistent business expansion, administrative expenses for the nine months ended September 30, 2020 increased by $9.3 million, which was $14.0 million compared to $4.7 million for the nine months ended September 30, 2019.

Selling and Distribution Expenses

Selling and distribution expenses for the three months ended September 30, 2020 were $9.3 million compared to $4.5 million for the three months ended September 30, 2019. This increase of $4.8 million was primarily due to increased costs associated with commercial preparation activities for cilta-cel. Driven by the same commercial preparation activities, selling and distribution expenses for the nine months ended September 30, 2020 was $25.4 million compared to $12.2 million for the nine months ended September 30, 2019.

Other Income and Gains

Other income and gains for the three months ended September 30, 2020 was $1.5 million compared to $3.0 million for the three months ended September 30, 2019. The decrease was primarily driven by net foreign exchange loss incurred, net of an increase in government grant received. Other income and gains for the nine months ended September 30, 2020 was $5.3 million compared to $6.6 million for the nine months ended September 30, 2019. The decrease of the nine months period was primarily driven by reduced average interest rate for holding of time deposits that generate interest income.

Other Expenses

Other expenses for the three months ended September 30, 2020 was $1.2 million compared to $0.002 million for the three months ended September 30, 2019. Other expenses for the nine months ended September 30, 2020 was $1.3 million compared to $0.2 million for the nine months ended September 30, 2019. The increase was primarily due to foreign exchange loss.

Loss for the Period

For the three months ended September 30, 2020, net loss was $66.5 million, or $0.25 per share, compared to a net loss of $27.8 million, or $0.14 per share, for the three months ended September 30, 2019. Net loss was $245.7 million for the nine months ended September 30, 2020 compared to $69.0 million for the nine months ended September 30, 2019.

Grant of restricted share units and share options

On September 1, 2020, we granted a total number of 777,382 restricted share units (each representing the right to receive one ordinary share) to grantees with a grant date fair market value of $16.335 per share. On September 1, 2020, we granted share options, representing the right to acquire a total number of 569,000 shares to grantees with an exercise price of $16.335 per share.

On November 16, 2020 Guardant Health, Inc. (Nasdaq: GH) reported its intention to offer, subject to market and other conditions, $1,000,000,000 aggregate principal amount of convertible senior notes due 2027 (the "notes") in a private offering to qualified institutional buyers pursuant to Rule 144A under the Securities Act of 1933, as amended (the "Securities Act") (Press release, Guardant Health, NOV 16, 2020, View Source [SID1234571156]). Guardant Health also expects to grant the initial purchasers of the notes an option to purchase, for settlement within a period of 13 days from, and including, the date notes are first issued, up to an additional $150,000,000 principal amount of notes.

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The notes will be senior, unsecured obligations of Guardant Health, will accrue interest payable semi-annually in arrears and will mature on November 15, 2027, unless earlier repurchased, redeemed or converted. Noteholders will have the right to convert their notes in certain circumstances and during specified periods. Guardant Health will settle conversions by paying or delivering, as applicable, cash, shares of its common stock or a combination of cash and shares of its common stock, at Guardant Health’s election. The notes will be redeemable, in whole or in part, for cash at Guardant Health’s option at any time, and from time to time, on or after November 20, 2024 and on or before the 25th scheduled trading day immediately before the maturity date, but only if the last reported sale price per share of Guardant Health’s common stock exceeds 130% of the conversion price for a specified period of time. The interest rate, initial conversion rate and other terms of the notes will be determined at the pricing of the offering.

Guardant Health intends to use a portion of the net proceeds from the offering to fund the cost of entering into the capped call transactions described below. Guardant Health intends to use the remainder of the net proceeds from the offering for general corporate purposes and working capital, including increasing investment in research and development and sales and marketing activities to expand its business, as well as general and administrative matters. Guardant Health may also use a portion of the net proceeds to acquire complementary products, technologies, intellectual property or businesses as part of its growth strategy; however, Guardant Health currently does not have any agreements or commitments to complete any such transactions and is not involved in negotiations regarding such transactions. If the initial purchasers exercise their option to purchase additional notes, then Guardant Health intends to use a portion of the additional net proceeds to fund the cost of entering into additional capped call transactions as described below.

In connection with the pricing of the notes, Guardant Health expects to enter into privately negotiated capped call transactions with one or more of the initial purchasers and/or their respective affiliates and/or other financial institutions (the "option counterparties"). The capped call transactions will cover, subject to customary adjustments, the number of shares of common stock initially underlying the notes. The capped call transactions are expected generally to reduce potential dilution to Guardant Health’s common stock upon conversion of the notes or at Guardant Health’s election (subject to certain conditions) offset any cash payments Guardant Health is required to make in excess of the aggregate principal amount of converted notes, as the case may be, with such reduction or offset subject to a cap.

In connection with establishing their initial hedges of the capped call transactions, the option counterparties or their respective affiliates expect to purchase shares of Guardant Health’s common stock and/or enter into various derivative transactions with respect to Guardant Health’s common stock concurrently with or shortly after the pricing of the notes. This activity could increase (or reduce the size of any decrease in) the market price of Guardant Health’s common stock or the notes at that time. In addition, the option counterparties or their respective affiliates may modify their hedge positions by entering into or unwinding various derivatives with respect to Guardant Health’s common stock and/or purchasing or selling Guardant Health’s common stock or other securities issued by Guardant Health in secondary market transactions following the pricing of the notes and prior to the maturity of the notes (and are likely to do so on each exercise date of the capped call transactions, which are expected to occur during the 25 trading day period beginning on the 26th scheduled trading day prior to the maturity date of the notes, or following any termination of any portion of the capped call transactions in connection with any repurchase, redemption or early conversion of the notes). This activity could also cause or avoid an increase or a decrease in the market price of Guardant Health’s common stock or the notes, which could affect a noteholder’s ability to convert the notes and, to the extent the activity occurs during any observation period related to a conversion of the notes, it could affect the number of shares and value of the consideration that a noteholder will receive upon conversion of the notes.

In addition, if any such capped call transaction fails to become effective, whether or not this offering of the notes is completed, the option counterparty party thereto may unwind its hedge positions with respect to Guardant Health’s common stock, which could adversely affect the value of Guardant Health’s common stock and, if the notes have been issued, the value of the notes.

The offer and sale of the notes and any shares of common stock issuable upon conversion of the notes have not been, and will not be, registered under the Securities Act or any other securities laws, and the notes and any such shares cannot be offered or sold except pursuant to an exemption from, or in a transaction not subject to, the registration requirements of the Securities Act and any other applicable securities laws.

This press release does not constitute an offer to sell, or the solicitation of an offer to buy, the notes or any shares of common stock issuable upon conversion of the notes, nor will there be any sale of the notes or any such shares, in any state or other jurisdiction in which such offer, sale or solicitation would be unlawful.

On November 16, 2020 Masimo (NASDAQ: MASI) reported the findings of a study published in Blood Transfusion in which Dr. Lucia Merolle and colleagues at the Azienda USL-IRCCS of Reggio Emilia, Italy investigated the impact of applying a patient blood management program, including use of noninvasive and continuous hemoglobin monitoring, Masimo SpHb, to the care of postoperative cancer patients (Press release, Masimo Laboratories, NOV 16, 2020, View Source [SID1234571155]).1 The study found that using SpHb as part of a patient blood management program not only increased how often postoperative blood transfusions were appropriate, but decreased the total and mean number of blood units transfused per patient.

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Patient blood management (PBM) is "an evidence-based, multidisciplinary approach aimed at optimizing the care of patients who might need blood transfusions." Recognizing that PBM might have specific benefits for surgical oncology patients, the researchers implemented a two-step PBM program and compared three groups of postoperative adult cancer patients who underwent major surgery between 2014 and 2017. Step 1 PBM included seminars and training designed to teach semi-intensive post-surgical personnel the principles of PBM. Step 2 PBM added the use of SpHb monitored with Masimo Radical-7 Pulse CO-Oximeters with SpHb. Audit 1 reviewed data for 200 patients whose post-surgical care did not incorporate PBM. Audit 2 was of 200 patients whose care incorporated Stage 1 PBM, and Audit 3 was of 200 patients whose care incorporated Stage 2 PBM along with continuous SpHb monitoring.

Using guidelines developed by the Italian Society of Transfusion Medicine and Immunohaematology (SIMTI), the researchers found that transfusion appropriateness rose from 38% in Audit 1 patients, to 75% in Audit 2 patients (Step 1 PBM), to 79% in Audit 3 patients (Step 2 PBM, with SpHb). The total number of red blood cell (RBC) units transfused was similar for Audit 1 and Audit 2 patients (52 and 58 units, respectively), but dropped to 39 units with the addition of SpHb monitoring to PBM (Audit 3). The mean number of RBC units transfused was the same for Audit 1 and Audit 2 patients (1.8 units/patient), but again, with the addition of SpHb monitoring (Audit 3), the mean dropped to 1.3 units/patient.

The researchers concluded, "Our PBM bundle positively impacted RBC transfusion appropriateness in post-surgical cancer patients, both in terms of quality and quantity. A structured PBM program specifically dedicated to surgical oncology should cover the entire perioperative period and might further improve transfusion appropriateness in these patients. The publication of guidelines on the management of anemia in surgical oncology should be a priority."

In other clinical studies, continuous monitoring with SpHb as part of PBM programs has been found to improve outcomes, such as reducing the percentage of patients receiving transfusions,2 reducing the units of red blood cells transfused per patient,3-4 reducing the time to transfusion,5 reducing costs,6 and even reducing mortality 30 and 90 days after surgery by 33% and 29%, respectively.7 With the addition of the Italian study, the evidence of SpHb’s impact on outcomes spans the globe, representing 6 countries on 4 different continents.1-7 Today, SpHb technology supports clinicians in over 75 countries around the world.8

SpHb is not intended to replace laboratory blood testing. Clinical decisions regarding red blood cell transfusions should be based on the clinician’s judgment considering, among other factors, patient condition, continuous SpHb monitoring, and laboratory diagnostic tests using blood samples.

On November 16, 2020 Provectus (OTCQB: PVCT) reported that H. Lee Moffitt Cancer Center (Moffitt) presented non-clinical data from ongoing research on investigational autolytic cancer immunotherapy PV-10, an injectable formulation of Provectus’ proprietary small molecule rose bengal disodium (RBD), as a single-agent and in combination with gemcitabine chemotherapy for the treatment of pancreatic cancer at the Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper)’s (SITC) (Free SITC Whitepaper) 35th Anniversary Annual Meeting & Pre-Conference Programs (SITC 2020), held online from November 9-14, 2020 (Press release, Provectus Biopharmaceuticals, NOV 16, 2020, View Source [SID1234571154]).

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RBD selectively accumulates in the lysosomes of cancer cells upon contact, disrupts these lysosomes, and causes the cancer cells to die. Intralesional (IL) (aka intratumoral) administration of PV-10 causes acute destruction of injected tumors, resulting in the release of danger-associated molecular pattern molecules (DAMPs) and tumor antigens. These signaling factors may initiate an immunologic cascade, where the innate immune system response may facilitate systemic anti-tumor immunity by the adaptive immune system. PV-10-mediated DAMP release may activate CD8+ T cells, CD4+ T cells, and NKT cells.

Moffitt’s poster presentation, authored by Innamarato et al. and entitled "Intralesional injection of rose bengal augments the efficacy of gemcitabine chemotherapy against pancreatic tumors," concluded:

PV-10 kills human and murine pancreatic tumor cells in vitro,
The combination therapy of PV-10 and gemcitabine reduces the growth rate of murine Panc02 tumors in vivo,
Immunogenic Panc02OVA tumors are more sensitive in vivo to single-agent PV-10,
The combination therapy reduces the growth of non-injected bystander Panc02OVA tumors in vivo, and
Reduced tumor growth after PV-10 treatment is associated with the release of DAMPs.
PV-10-mediated DAMP-release has been demonstrated in three different cancers, varying from immunologically "cold" to "hot" tumor types:

Pancreatic cancer: Innamarato et al., SITC (Free SITC Whitepaper) 2020 (Moffitt; non-clinical)
Colon cancer: Qin et al., Cell Death and Disease 2017 (University of Illinois at Chicago; non-clinical), and
Melanoma: Liu et al., Oncotarget 2016 (Moffitt; clinical and non-clinical).
Dominic Rodrigues, Vice Chair of the Company’s Board of Directors said, "We are grateful to the leadership and researchers of the Pilon-Thomas Lab at Moffitt Cancer Center for their translational investigation of cancer immunotherapy PV-10 in melanoma, breast cancer, and now pancreatic cancer. The non-clinical results presented at this year’s annual meeting of the Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper) demonstrate that intralesional administration of PV-10 can enhance the efficacy of gemcitabine chemotherapy against pancreatic tumors."

Mr. Rodrigues added, "A key aspect of our drug development strategy for intralesional administration of PV-10 in solid tumor cancers is targeting disease indications where there is high unmet need among patients, limited activity from approved therapies, and the opportunity to display the contribution of PV-10’s functional immune response to successful patient treatment outcomes. Pancreatic cancer is a deadly disease for which PV-10 could enhance standard of care chemotherapy."

A copy of the poster presentation is available on Provectus’ website at View Source

About Rose Bengal Disodium

RBD is 4,5,6,7-tetrachloro-2′,4′,5′,7′-tetraiodofluorescein disodium, a halogenated xanthene and Provectus’ proprietary lead molecule. The Company manufactures cGMP RBD using a patented process designed to meet stringent modern global quality requirements for pharmaceuticals and pharmaceutical ingredients.

An IL formulation (i.e., by direct injection) of cGMP RBD drug substance, cGMP PV-10, is being developed as an autolytic immunotherapy drug product for solid tumor cancers. By targeting tumor cell lysosomes, RBD treatment may yield immunogenic cell death in solid tumor cancers that results in tumor-specific reactivity in circulating T cells, including a T cell mediated immune response against treatment refractory and immunologically cold tumors.1,2,3 Adaptive immunity can be enhanced by combining immune checkpoint blockade (CB) with RBD.4 IL PV-10 is undergoing clinical study for relapsed and refractory adult solid tumor cancers, such skin and liver cancers.

IL PV-10 is also undergoing preclinical study for relapsed and refractory pediatric solid tumor cancers, such as neuroblastoma, Ewing sarcoma, rhabdomyosarcoma, and osteosarcoma.5,6

A topical formulation of cGMP RBD drug substance, PH-10, is being developed as a clinical-stage immuno-dermatology drug product for inflammatory dermatoses, such as atopic dermatitis and psoriasis. RBD can modulate multiple interleukin and interferon pathways and key cytokine disease drivers.7

Oral formulations of cGMP RBD are undergoing preclinical study for relapsed and refractory pediatric blood cancers, such as acute lymphocytic leukemia and acute myelomonocytic leukemia.8,9

Oral formulations of cGMP RBD are also undergoing preclinical study as prophylactic and therapeutic treatments for high-risk adult solid tumor cancers, such as head and neck, breast, pancreatic, liver, and colorectal cancers.

Different formulations of cGMP RBD are also undergoing preclinical study as potential treatments for multi-drug resistant (MDR) bacteria, such as Gram-negative bacteria.

Tumor Cell Lysosomes as the Seminal Cancer Drug Target

Lysosomes are the central organelles for intracellular degradation of biological materials, and nearly all types of eukaryotic cells have them. Discovered by Christian de Duve, MD in 1955, lysosomes are linked to several biological processes, including cell death and immune response. In 1959, de Duve described them as ‘suicide bags’ because their rupture causes cell death and tissue autolysis. He was awarded the Nobel Prize in 1974 for discovering and characterizing lysosomes, which are also linked to each of the three primary cell death pathways: apoptosis, autophagy, and necrosis.

Building on the Discovery, Exploration, and Characterization of Lysosomes

Cancer cells, particularly advanced cancer cells, are very dependent on effective lysosomal functioning.10 Cancer progression and metastasis are associated with lysosomal compartment changes11,12, which are closely correlated (among other things) with invasive growth, angiogenesis, and drug resistance13.

RBD selectively accumulates in the lysosomes of cancer cells upon contact, disrupting the lysosomes and causing the cells to die. Provectus1,14, external collaborators5, and other researchers15,16,17 have independently shown that RBD triggers each of the three primary cell death pathways: apoptosis, autophagy, and necrosis.

Cancer Cell Autolytic Death via RBD: RBD-induced autolytic cell death, or death by self-digestion, in Hepa1-6 murine hepatocellular carcinoma (HCC) cells can be viewed in this Provectus video of the process (ethidium homodimer 1 [ED-1] stains DNA, but is excluded from intact nuclei; lysosensor green [LSG] stains intact lysosomes; the video is provided in 30-second frames, with a duration of approximately one hour). Exposure to RBD triggers the disruption of lysosomes, followed by nucleus failure and autolytic cell death. Identical responses have been shown by the Company in HTB-133 human breast carcinoma (which can be viewed in this Provectus video of the process, with a duration of approximately two hours) and H69Ar human multidrug-resistant small cell lung carcinoma. Cancer cell autolytic cell death was reproduced by research collaborators in neuroblastoma cells to show that lysosomes are disrupted upon exposure to RBD.5

Tumor Autolytic Death via RBD: RBD causes acute autolytic destruction of injected tumors (via autolytic cell death), mediating the release of DAMPs and tumor antigens; release of these signaling factors may initiate an immunologic cascade where local response by the innate immune system may facilitate systemic anti-tumor immunity by the adaptive immune system. The DAMP release-mediated adaptive immune response activates lymphocytes, including CD8+ T cells, CD4+ T cells, and NKT cells, based on clinical and preclinical experience in multiple tumor types. Mediated immune signaling pathways may include an effect on STING, which plays an important role in innate immunity.9

Orphan Drug Designations (ODDs)

ODD status has been granted to RBD by the U.S. Food and Drug Administration for metastatic melanoma in 2006, hepatocellular carcinoma in 2011, neuroblastoma in 2018, and ocular melanoma (including uveal melanoma) in 2019.

Intellectual Property (IP)

Provectus’ IP includes a family of US and international (a number of countries in Asia, Europe, and North America) patents that protect the process by which cGMP RBD and related halogenated xanthenes are produced, avoiding the formation of previously unknown impurities that exist in commercial-grade rose bengal in uncontrolled amounts. The requirement to control these impurities is in accordance with International Council on Harmonisation (ICH) guidelines for the manufacturing of an injectable pharmaceutical. US patent numbers are 8,530,675, 9,273,022, and 9,422,260, with expirations ranging from 2030 to 2031.

The Company’s IP also includes a family of US and international (a number of countries in Asia, Europe, and North America) patents that protect the combination of RBD and CB (e.g., anti-CTLA-4, anti-PD-1, and anti-PD-L1 agents) for the treatment of a range of solid tumor cancers. US patent numbers are 9,107,887, 9,808,524, 9,839,688, and 10,471,144, with expirations ranging from 2032 to 2035; US patent application numbers include 20200138942.

About Provectus

Provectus Biopharmaceuticals, Inc. (Provectus or the Company) is a clinical-stage biotechnology company developing immunotherapy medicines for different disease areas based on an entirely- and wholly-owned family of small molecules called halogenated xanthenes. Information about the Company’s clinical trials can be found at the National Institutes of Health (NIH) registry, www.clinicaltrials.gov. For additional information about Provectus, please visit the Company’s website at www.provectusbio.com.

References

1. Wachter et al. Functional Imaging of Photosensitizers using Multiphoton Microscopy. Proceedings of SPIE 4620, 143, 2002.

2. Liu et al. Intralesional rose bengal in melanoma elicits tumor immunity via activation of dendritic cells by the release of high mobility group box 1. Oncotarget 7, 37893, 2016.

3. Qin et al. Colon cancer cell treatment with rose bengal generates a protective immune response via immunogenic cell death. Cell Death and Disease 8, e2584, 2017.

4. Liu et al. T cell mediated immunity after combination therapy with intralesional PV-10 and blockade of the PD-1/PD-L1 pathway in a murine melanoma model. PLoS One 13, e0196033, 2018.

5. Swift et al. Potent in vitro and xenograft antitumor activity of a novel agent, PV-10, against relapsed and refractory neuroblastoma. OncoTargets and Therapy 12, 1293, 2019.

6. Swift et al. In vitro and xenograft anti-tumor activity, target modulation and drug synergy studies of PV-10 against refractory pediatric solid tumors. 2018 ASCO (Free ASCO Whitepaper) Annual Meeting, J Clin Oncol 36, 2018 (suppl; abstr 10557).

7. Krueger et al. Immune Modulation by Topical PH-10 Aqueous Hydrogel (Rose Bengal Disodium) in Psoriasis Lesions. Psoriasis Gene to Clinic, 8th International Congress, Br J Dermatol 177.

8. Swift et al. In Vitro Activity and Target Modulation of PV-10 Against Relapsed and Refractory Pediatric Leukemia. 2018 ASH (Free ASH Whitepaper) Annual Meeting, Blood 132, 2018 (suppl; abstr 5207).

9. Thakur et al. Association of heat shock proteins as chaperone for STING: A potential link in a key immune activation mechanism revealed by the novel anti-cancer agent PV-10. 2020 AACR (Free AACR Whitepaper) VAM II, (abstr 5393).

10. Piao et al. Targeting the lysosome in cancer. Annals of the New York Academy of Sciences. 2016; 1371(1): 45.

11. Nishimura et al. Malignant Transformation Alters Intracellular Trafficking of Lysosomal Cathespin D in Human Breast Epithelial Cells. Pathology Oncology Research. 1998; 4(4): 283.

12. Gocheva et al. Distinct roles for cysteine cathepsin genes in multistage tumorigenesis. Genes & Development. 2006; 20(5): 543.

13. Fehrenbacher et al. Lysosomes as Targets for Cancer Therapy. Cancer Research. 2005; 65 (8): 2993.

14. Wachter et al. Imaging Photosensitizer Distribution and Pharmacology using Multiphoton Microscopy. Proceedings of SPIE 4622, 112, 2002.

15. Koevary. Selective toxicity of rose Bengal to ovarian cancer cells in vitro. International Journal of Physiology, Pathophysiology and Pharmacology 4(2), 99, 2012.

16. Zamani et al. Rose Bengal suppresses gastric cancer cell proliferation via apoptosis and inhibits nitric oxide formation in macrophages. Journal of Immunotoxicology, 11(4), 367, 2014.

17. Luciana et al. Rose Bengal Acetate photodynamic therapy-induced autophagy. Cancer Biology & Therapy, 10:10, 1048, 2010.

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