On November 9, 2021 Horizon Therapeutics plc (Nasdaq: HZNP) reported that the Company will participate in the following upcoming conferences (Press release, Horizon Therapeutics, NOV 9, 2021, View Source [SID1234594957]):

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Guggenheim 3rd Annual Neuro/Immunology Conference (Virtual)

Date: Monday, Nov. 15, 2021
Presentation Time: 9 a.m. ET
Stifel 2021 Health Care Conference (Virtual)

Date: Tuesday, Nov. 16, 2021
Presentation Time: 2 p.m. ET
Piper Sandler 33rd Annual Health Care Conference (Virtual)

Date: Tuesday, Nov. 30, 2021
Presentation Time: 9 a.m. ET
These conference presentations will be webcast live and may be accessed by visiting Horizon’s website at View Source A replay of the webcasts will be available following the events.

On November 9, 2021 NANOBIOTIX (Euronext: NANO – NASDAQ: NBTX – the "Company"), a late-stage clinical biotechnology company pioneering physics-based approaches to expand treatment possibilities for patients with cancer, reported new preclinical immunotherapy data for novel, potentially solid tumor- and therapeutic combination-agnostic radioenhancer NBTXR3 that will be presented at the 2021 Annual Meeting of the Society for the Immunotherapy of Cancer (SITC) (Free SITC Whitepaper) (Press release, Nanobiotix, NOV 9, 2021, View Source [SID1234594955]). The Company believes that these data are consistent with recently presented clinical immunotherapy data and support advancement of development with anti-PD-1 and emerging immune checkpoint inhibitors.

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"Our view is that the potential immune priming effect we have observed with NBTXR3 could make our product candidate an important combination therapy with immune checkpoint inhibitors to improve treatment outcomes for patients," said Laurent Levy, co-founder and chief executive officer of Nanobiotix. "The new preclinical data at SITC (Free SITC Whitepaper), along with data we have evaluated in the clinical setting, present a promising path forward in immunotherapy."

Preclinical data to be presented at the meeting by Nanobiotix (Abstract #740) show that radiotherapy-activated NBTXR3 increases CD8+ T cell infiltration and modulates the T cell receptor ("TCR") repertoire, as well as marked modulation of immunopeptidome in treated tumor cells in a mouse model. Taken together, these variations could indicate that radiotherapy-activated NBTXR3 triggers more robust immune priming than radiotherapy alone and merits further evaluation of CD8+ response and abscopal effect.

The Company’s perspective is that these data further support the mechanistic rationale of combining NBTXR3 with immune checkpoint inhibitors. The preclinical data follows preliminary clinical data presented earlier in the fourth quarter of 2021 from the phase I trial ("Study 1100") evaluating NBTXR3 in combination with the anti-PD-1 checkpoint inhibitors nivolumab (Opdivo) or pembrolizumab (Keytruda) in patients with locoregional recurrent ("LRR") or recurrent and metastatic ("R/M") head and neck squamous cell carcinoma ("HNSCC") or with lung or liver metastases from any primary cancer that is eligible for anti-PD-1 therapy. This preliminary data for Study 1100 showed an overall AE profile consistent with radiotherapy or anti-PD-1 monotherapies. A 56% target lesion objective response rate (80% in anti-PD-1 naïve patients; 45% in prior non-responders) was observed in evaluable patients (n=16). A 50% overall objective response rate (% response in target and non-target lesions) was observed (80% in anti-PD-1 naïve patients; 36% for prior non-responders) in evaluable patients. The potential immune priming effect of radiotherapy-activated NBTXR3 was observed in non-responders as well as anti-PD-1 naïve patients, suggesting that NBTXR3 may reverse or circumvent resistance to prior anti-PD-1 treatment.

Evaluation of novel combination approaches to immunotherapy continues to be a priority for Nanobiotix, as investigators seek to expand the impact of I/O agents for the 80-85% of patients that receive limited benefits, or no benefit at all, by improving response rates and overcoming resistance to anti-PD-1. TIGIT and LAG3, members of the same receptor class as CTLA-4 and PD-1, could be the next generation of immunotherapy targets and are being investigated alone and in combination with existing anti-PD-1 agents aiming to improve patient outcomes in clinical trials.

The preclinical data to be presented at SITC (Free SITC Whitepaper) by The University of Texas MD Anderson Cancer Center (Abstract #575) show that radiotherapy-activated NBTXR3 plus anti-PD-1, anti-TIGIT, and anti-LAG3 ("Combo therapy") significantly promotes the proliferation activity of CD8+ T cells, improves local and distant tumor control, and increases survival rate in mice. Only the group of mice treated with the Combo therapy had survivors and those cured mice were immune to re-injection of tumor cells, maintained a significantly higher percentage of memory CD4+ and CD8+ memory T cells, and had stronger anti-tumor immune activities than the control, suggesting the induction of long-term anti-tumor memory by the Combo therapy.

"We have long believed that radiotherapy has a critical role to play in immunotherapy and that innovation in the practice is key to achieving this ambition," said James Welsh, MD, Associate Professor of Radiation Oncology at MD Anderson. "Our preclinical research on NBTXR3 has consistently supported the potential of this new agent in combination with radiotherapy and immune checkpoint inhibitors in order to enhance immunogenic cell death. We look forward to continuing our evaluation, both in the lab and in the clinic, with the ultimate goal of improving treatment outcomes for patients."

About NBTXR3
NBTXR3 is a novel, potentially first-in-class oncology product composed of functionalized hafnium oxide nanoparticles that is administered via one-time intratumoral injection and activated by radiotherapy. The product candidate’s physical mechanism of action (MoA) is designed to induce significant tumor cell death in the injected tumor when activated by radiotherapy, subsequently triggering adaptive immune response and long-term anti-cancer memory. Given the physical MoA, Nanobiotix believes that NBTXR3 could be scalable across any solid tumor that can be treated with radiotherapy and across any therapeutic combination, particularly immune checkpoint inhibitors.

NBTXR3 is being evaluated in locally advanced head and neck squamous cell carcinoma (HNSCC) as the primary development pathway. The company-sponsored phase I dose escalation and dose expansion study has produced favorable safety data and early signs of efficacy; and a phase III global registrational study is planned to launch in 2021. In February 2020, the United States Food and Drug Administration granted regulatory Fast Track designation for the investigation of NBTXR3 activated by radiation therapy, with or without cetuximab, for the treatment of patients with locally advanced HNSCC who are not eligible for platinum-based chemotherapy—the same population being evaluated in the planned phase III study.

Nanobiotix has also prioritized an Immuno-Oncology development program—beginning with a Company sponsored phase I clinical study evaluating NBTXR3 activated by radiotherapy in combination with anti-PD-1 checkpoint inhibitors for patients with locoregional recurrent or recurrent/metastatic HNSCC and lung or liver metastases from any primary cancer eligible for anti-PD-1 therapy.

Given the Company’s focus areas, and balanced against the scalable potential of NBTXR3 , Nanobiotix has engaged in a strategic collaboration strategy with world class partners to expand development of the product candidate in parallel with its priority development pathways. Pursuant to this strategy, in 2019 Nanobiotix entered into a broad, comprehensive clinical research collaboration with The University of Texas MD Anderson Cancer Center to sponsor several phase I and phase II studies to evaluate NBTXR3 across tumor types and therapeutic combinations.

On November 9, 2021 Zymeworks Inc. (NYSE: ZYME), a clinical-stage biopharmaceutical company developing multifunctional biotherapeutics, reported that Neil Josephson, M.D., who has been serving as the company’s interim Chief Medical Officer (CMO) since May of this year, will transition to the permanent CMO position, effective November 15 (Press release, Zymeworks, NOV 9, 2021, View Source [SID1234594954]).

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"Over the past six months, Neil has done an exemplary job of leading Zymeworks’ Medical organization and the advancement of our clinical pipeline," said Ali Tehrani, Ph.D., Zymeworks’ President and CEO. "I am very pleased that Neil will be at the helm as we enroll our second pivotal trial for zanidatamab in HER2-positive gastroesophageal adenocarcinomas and continue to expand the development of zanidatamab and ZW49 in additional indications, including breast cancer."

Dr. Josephson joined Zymeworks in 2019 as Vice President, Clinical Research and was promoted to Senior Vice President, Clinical Research last year, before his May appointment to interim CMO. Prior to joining Zymeworks, Dr. Josephson spent nearly six years at Seagen Inc., most recently as Vice President of Clinical Development, where he worked on multiple early and late-stage programs, including leading the approval of ADCETRIS for the 1st line treatment of advanced Hodgkin’s lymphoma. Before joining Seagen, he was an Associate Professor of Medicine in the Division of Hematology at the University of Washington. He received an M.D. degree from Columbia University and an A.B. from Dartmouth College.

On November 9, 2021 Immunome, Inc. (Nasdaq: IMNM), a biopharmaceutical company that utilizes its human memory B cell platform to discover and develop first-in-class antibody therapeutics, reported that Purnanand Sarma, Ph.D., Immunome’s President and CEO, will present at the Stifel Healthcare Conference on Monday, November 15, 2021 at 8:00 a.m. ET (Press release, Immunome, NOV 9, 2021, View Source [SID1234594953]).

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Interested parties can access the live audio webcast for this conference from the Investor Relations section of the company’s website at www.immunome.com. The webcast replay will be available after the conclusion of the live presentation for approximately 30 days.

On November 9, 2021 Kezar Life Sciences, Inc., (Nasdaq: KZR), a clinical-stage biotechnology company discovering and developing breakthrough treatments for immune-mediated and oncologic disorders, reported financial results for the third quarter ended September 30, 2021 and provided a business update (Press release, Kezar Life Sciences, NOV 9, 2021, View Source [SID1234594952]).

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"Excellent progress continues across our programs, as we reached target enrollment in both of our Phase 2 trials with KZR-616 and announced our first patient dosed with KZR-261. Achieving full enrollment in our MISSION and PRESIDIO studies is an important milestone for KZR-616 as a potentially differentiated treatment option for patients suffering from lupus nephritis, dermatomyositis and polymyositis. We look forward to sharing interim results from MISSION at our upcoming event this month, with topline results from both studies expected in the second quarter of 2022," said John Fowler, Kezar’s Co-founder and Chief Executive Officer.

Clinical Highlights & Updates

KZR-616: Selective Immunoproteasome Inhibitor

MISSION – Phase 2 clinical trial in patients with lupus nephritis (LN) (NCT03393013)

Kezar’s upcoming Investor and Analyst Day, scheduled for Monday, November 15, 2021, at 4:30 p.m. ET/1:30 p.m. PT, will include a presentation featuring interim MISSION data, as well as a presentation from Samir V. Parikh, MD, Associate Professor of Medicine, Nephrology, The Ohio State University Wexner Medical Center.
The MISSION Phase 2 open-label trial in patients with active, proliferative LN has reached target enrollment of 20 subjects. The primary efficacy endpoint for the trial is the number of patients with a 50% reduction in urine protein/creatine ratio (UPCR) after 24 weeks of treatment when compared to baseline.
Kezar expects to report topline data in the second quarter of 2022.
PRESIDIO – Phase 2 clinical trial in patients with active dermatomyositis (DM) or polymyositis (PM) (NCT04033926)

The PRESIDIO Phase 2, placebo controlled, cross-over trial of KZR-616 in DM and PM has completed target enrollment of 24 subjects. The primary efficacy endpoint for the trial is the mean change from start to end of KZR-616 treatment in the Total Improvement Score (TIS), which ranges from 0 to 100.
Kezar expects to report topline data in the second quarter of 2022.
The PRESIDIO open-label extension study is available for patients completing the PRESIDIO trial, which evaluates KZR-616 for up to a maximum of 96 weeks (NCT04628936).
KZR-261: Protein Secretion Inhibitor

KZR-261-101 – Phase 1 clinical trial in patients with locally advanced or metastatic solid malignancies (NCT05047536)

In August, Kezar announced an IND submission for KZR-261 for the treatment of advanced solid malignant tumors, and in October, the first patient was dosed in its Phase 1 clinical trial.
KZR-261 is a novel, broad-spectrum, anti-tumor agent that acts through direct interaction and inhibition of the Sec61 translocon.
The Phase 1 clinical trial of KZR-261 will be conducted in two parts: dose escalation in subjects with locally advanced or metastatic solid malignancies for whom no therapeutics are available and dose expansion in subjects with selected tumor types. The trial will assess safety and tolerability, including determination of a recommended Phase 2 dose, evaluate pharmacokinetics and pharmacodynamics, and explore the preliminary anti-tumor activity.
Officer Appointment

In October, Gitanjali Jain was appointed as Kezar’s Vice President, Investor Relations and External Affairs, joining with nearly 15 years of healthcare industry and investor relations experience. As a member of the management team and executive committee, Ms. Jain will lead Kezar’s overall investor relations and public relations corporate efforts.

Credit Facility

On November 4, 2021, Kezar entered into a credit facility with Oxford Finance. Under the terms of the loan agreement, Oxford Finance will provide Kezar with borrowing capacity of up to $50 million across five potential tranches. The initial $10 million funded at closing, and an additional $10 million will be available at Kezar’s option in the second half of 2022. Additional tranches would become available upon achieving milestones related to the MISSION Phase 2 clinical trial, PRESIDIO Phase 2 clinical trial and/or KZR-261 Phase 1 clinical trial. There are no warrants or financial covenants associated with the credit facility. Capital Advisors Group, Inc acted as financial advisor to Kezar.

Third Quarter 2021 Financial Results

Cash, cash equivalents and marketable securities totaled $120.8 million as of September 30, 2021, compared to $140.4 million as of December 31, 2020. The decrease in cash, cash equivalents and marketable securities was primarily attributable to cash used by the company in operations to advance its clinical-stage programs, offset by $11.7 million of net proceeds from the issuance of common stock through September 30, 2021, under the company’s "at-the-market" sales program. In October, Kezar received an additional $4.4 million of net proceeds from the issuance of additional common stock under the ATM program.
Research and development expenses for the third quarter of 2021 increased by $2.2 million to $10.5 million compared to $8.3 million in the third quarter of 2020. This increase was primarily related to advancing the KZR-616 clinical program in multiple indications and the KZR-261 clinical program.
General and administrative expenses for the third quarter of 2021 increased by $0.7 million to $4.0 million compared to $3.3 million in the third quarter of 2020. The increase was primarily due to an increase in stock-based compensation and personnel and recruiting expenses as a result of an increase in headcount and salaries.
Net loss for the third quarter of 2021 was $14.5 million, or $0.28 per basic and diluted common share, compared to a net loss of $11.3 million, or $0.23 per basic and diluted common share, for the third quarter of 2020.
Total shares of common stock outstanding were 48.6 million shares as of September 30, 2021. Additionally, there were outstanding pre-funded warrants to purchase 3.8 million shares of common stock at an exercise price of $0.001 per share and outstanding options to purchase 6.9 million shares of common stock at a weighted-average exercise price of $5.85 per share, each as of September 30, 2021.
About KZR-616

KZR-616 is a novel, first-in-class, selective immunoproteasome inhibitor with broad therapeutic potential across multiple autoimmune diseases. Preclinical research demonstrates that selective immunoproteasome inhibition results in a broad anti-inflammatory response in animal models of several autoimmune diseases, while avoiding immunosuppression. Data generated from Phase 1a and 1b clinical trials provide evidence that KZR-616 exhibits a favorable safety and tolerability profile for development in severe, chronic autoimmune diseases. Phase 2 trials are underway in multiple severe autoimmune diseases.

About KZR-261

KZR-261, a novel, first-in-class protein secretion inhibitor, is the first clinical candidate to be nominated from Kezar’s research and discovery efforts targeting the protein secretion pathway. KZR-261 is a broad-spectrum anti-tumor agent that acts through direct interaction and inhibition of Sec61 activity. The compound was discovered by Kezar through a robust medicinal chemistry campaign in which several scaffolds were progressed through the company’s proprietary platform evaluating Sec61 modulation. KZR-261 has demonstrated several encouraging properties that lead to its potential to be an anti-cancer agent, and a Phase 1 trial is underway for the treatment of solid tumor malignancies.

About Lupus Nephritis

Lupus nephritis (LN) is one of the most serious complications of systemic lupus erythematosus (SLE). LN is a disease comprising a spectrum of vascular, glomerular and tubulointerstitial lesions and develops in approximately 50% of SLE patients within 10 years of their initial diagnosis. LN is associated with considerable morbidity, including an increased risk of end-stage renal disease requiring dialysis or renal transplantation and an increased risk of death. There are limited approved therapies for the treatment of LN. Management typically consists of induction therapy to achieve remission and long-term maintenance therapy to prevent relapse.

About Dermatomyositis and Polymyositis

Dermatomyositis (DM) and Polymyositis (PM) are two of the five types of autoimmune myositis diseases. Both are chronic, debilitating, inflammatory autoimmune myopathies that are distinguished by inflammation of the muscles as well as the skin (in DM). Approximately 30,000 to 120,000 people in the United States are living with these severe and progressive inflammatory myopathies that are characterized by marked morbidity and associated mortality. While debilitating muscle weakness is the hallmark of these myopathies, including compromised muscles of respiration, other internal organ system dysfunctions can be equally disabling. The aim of treatment for these diseases is to suppress inflammation, increase muscle strength and prevent long-term damage to muscles and extramuscular organs; however, treatment options are limited for DM, and there are currently no approved treatments for PM.

About Inhibition of Protein Secretion

In mammalian cells, the secretion of proteins such as cytokines and growth factors and the expression of cell surface transmembrane proteins such as receptor tyrosine kinases and immune checkpoint molecules involve a process called cotranslational translocation. For most proteins, this process occurs via the Sec61 translocon, a highly conserved multi-subunit protein complex found in the membrane of the endoplasmic reticulum of all cells. Kezar scientists have been researching the protein secretion pathway and ways to drug this important cellular pathway for more than five years and developed novel and robust assays to discover and develop small molecule inhibitors of Sec61. As a result, Kezar has established a broad library of protein secretion inhibitors for potential development across a wide range of diseases.