On December 16, 2021 Immunolight LLC, a clinical stage biopharmaceutical firm leading the way in advancing technologies to transform cancer treatment, reported it is now recruiting patients for a phase 1 study of its X-PACT Cancer Treatment system in Breast, Melanoma, Sarcoma and Head and Neck Cancers, to be conducted at Duke University Medical Center (Press release, Immunolight, DEC 16, 2021, View Source [SID1234597339]).

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The heart of the X-PACT system is 8-MOP (also known as 8-methoxypsoralen or methoxsalen) which has been successfully used for decades in the treatment of autoimmune disease, skin disorders and certain skin and blood cancers. However, since UV light, which is needed to activate 8-MOP, cannot penetrate through tissue, it has not been possible to use 8-MOP to treat solid tumors. Immunolight’s X-PACT system solves this problem. Innovative Immunolight phosphor materials convert tissue penetrating energies, such as low dose X-ray, into UV light inside solid tumors in the body. These energy converting phosphors are injected along with 8-MOP into the solid tumor, and low dose x-ray energy is applied at the site. The phosphors convert the x-ray into UV light which activates the 8-MOP inside the solid tumor to kill the cancer.

More details about the Phase 1 trial and eligibility criteria can be found at View Source

Immunolight founder and CEO Rick Bourke commented, "We are thrilled to start patient recruitment and begin this Phase 1 trial, bringing our innovative technology to fruition in treating cancer and starting what we believe is a new era in cancer treatment."

This milestone is the culmination of over 13 years of intense research and development in partnership with Duke University and Duke Medical Center where a team of over 30 scientists, physicians and engineers has been active. "From day one, our highest priority has been to translate this amazing science into a paradigm changing cancer treatment in patients," President Harold Walder said. "We are so excited to take this next step to get the treatment into the clinic."

On December 16, 2021 Kite, a Gilead Company, and Daiichi Sankyo Company, Limited (hereafter, Daiichi Sankyo) reported that YESCARTA (axicabtagene ciloleucel), a chimeric antigen receptor (CAR) T-cell therapy, will be available to patients with relapsed or refractory large B-cell lymphomas in Japan through the first treatment center now authorized by Daiichi Sankyo (Press release, Kite Pharma, DEC 16, 2021, https://www.businesswire.com/news/home/20211216006041/en/Daiichi-Sankyo-Authorizes-the-First-YESCARTA%C2%AE-Axicabtagene-Ciloleucel-CAR-T-cell-Therapy-Treatment-Site-in-Japan [SID1234597338]). Kite and Daiichi Sankyo will also build on the exclusive licensing deal for commercialization rights for axicabtagene ciloleucel in Japan, formalized in January 2017. Both partners are pleased to agree on a broadening of their business collaboration in Japan.

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"We are pleased to bring the benefits of axicabtagene ciloleucel to eligible patients in Japan, in collaboration with Daiichi Sankyo," said Warner Biddle, Kite’s Global Head of Commercial. "Japan has the second-largest number of people diagnosed with non-Hodgkin lymphoma globally1 and we remain committed to bringing our innovative CAR T-cell therapies to additional new markets."

"We are pleased to be able to deliver axicabtagene ciloleucel, Daiichi Sankyo’s first cell therapy product, to patients in Japan," said Akio Sakurai, Daiichi Sankyo Corporate Officer, Head of Sales Division. "By strengthening our collaboration with Kite, the originator of axicabtagene ciloleucel and a world leader in cell therapy, we will strive to bring this innovative therapy to as many patients as possible."

CAR T-cell therapy is a complex immunotherapy, and all hospitals must complete a rigorous training process before administering axicabtagene ciloleucel to patients. These hospitals receive specific training in handling and risk minimization procedures in order to ensure that patient safety remains a priority.

Several factors are considered when qualifying a hospital, including their specialist skills and services, geographic coverage and experience in managing other complex procedures, such as stem cell transplantation and a co-located intensive care unit.

Axicabtagene ciloleucel has been approved in Japan for treatment of patients with relapsed or refractory diffuse large B-cell lymphoma, primary mediastinal B-cell lymphoma, transformed follicular lymphoma or high-grade B-cell lymphoma. The use of axicabtagene ciloleucel is limited to patients not previously treated with a CD-19 CAR-positive T-cell infusion; patients previously treated with two or more lines of treatment including chemotherapy or an autologous stem cell transplant; and, patients ineligible for an autologous stem cell transplant. In January 2017, Daiichi Sankyo received exclusive development, manufacturing and commercialization rights for axicabtagene ciloleucel in Japan from California-based Kite, a Gilead Company.

The approval of axicabtagene ciloleucel in Japan is based on data from the global pivotal trial conducted by Kite (ZUMA-1)2 and results of a Phase 2 study conducted by Daiichi Sankyo in Japan. In the Japanese Phase 2, open-label, single-arm study, the same dose (2.0 x 106 cells/kg) of axicabtagene ciloleucel as used in the ZUMA-1 study was administered to assess efficacy and safety in 16 Japanese patients with relapsed or refractory large B-cell lymphoma, including diffuse large B-cell lymphoma, primary mediastinal B-cell lymphoma, transformed follicular lymphoma or high-grade B-cell lymphoma. The study reached its primary endpoint, demonstrating an objective response rate (ORR) of 86.7% (95% CI: 59.5 – 98.3%).

The overall safety and tolerability profile of axicabtagene ciloleucel in the Japan trial was consistent with that observed in ZUMA-1. Dose limiting toxicity was not observed. Grade ≥3 treatment emergent adverse event occurred in all patients; most commonly neutropenia (81.3%), lymphopenia (81.3%) and thrombocytopenia (62.5%). Cytokine release syndrome (CRS), a typical CAR T-cell therapy-emergent adverse event, occurred in 13 patients (81.3%, all Grade), with Grade ≥3 CRS in one patient (6.3%). No neurological events, another CAR T-cell therapy-emergent adverse event, were observed.

About YESCARTA

YESCARTA (axicabtagene ciloleucel) is a CAR T-cell therapy directed against CD19 (a cell membrane protein), which harnesses a patient’s own immune system to fight cancer. Axicabtagene ciloleucel is made by removing a patient’s T cells and engineering them in the lab to express chimeric antigen receptors so that they can recognize and destroy cancer cells. The CAR T therapy is manufactured specifically for each patient and administered only once.3

Axicabtagene ciloleucel received Orphan Drug Designation from the Japan MHLW in 2018 for the treatment of diffuse large B-cell lymphoma, primary mediastinal B-cell lymphoma, transformed follicular lymphoma and high-grade B-cell lymphoma.

YESCARTA is approved in the U.S. and Europe for patients with certain types of relapsed or refractory B-cell lymphoma, where it is developed, manufactured and commercialized by Kite.

Please see full U.S. Prescribing Information, including BOXED WARNING and Medication Guide.

Yescarta is a CD19-directed genetically modified autologous T cell immunotherapy indicated for the treatment of:

Adult patients with relapsed or refractory large B-cell lymphoma after two or more lines of systemic therapy, including diffuse large B-cell lymphoma (DLBCL) not otherwise specified, primary mediastinal large B-cell lymphoma, high grade B-cell lymphoma, and DLBCL arising from follicular lymphoma.
Limitations of Use: Yescarta is not indicated for the treatment of patients with primary central nervous system lymphoma.

Adult patients with relapsed or refractory follicular lymphoma (FL) after two or more lines of systemic therapy. This indication is approved under accelerated approval based on response rate. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trial(s).

On December 16, 2021 City of Hope doctors reported that data on an investigational bispecific antibody for multiple myeloma and the CMVPepVax, a City of Hope-developed vaccine against the cytomegalovirus, at this year’s ASH (Free ASH Whitepaper) Annual Meeting (Press release, City of Hope, DEC 16, 2021, https://www.businesswire.com/news/home/20211216005412/en/City-of-Hope-presents-leading-edge-research-on-blood-cancer-therapies-and-its-vaccine-to-reduce-stem-cell-transplant-complications-at-American-Society-of-Hematology-ASH-Annual-Meeting [SID1234597335]).

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"City of Hope continues to be a leader in innovative research on investigational immunotherapies for blood cancers and improving stem cell transplants," said Eileen Smith, M.D., City of Hope’s Francis & Kathleen McNamara Distinguished Chair in Hematology and Hematopoietic Cell Transplantation. "New research at this year’s ASH (Free ASH Whitepaper) conference includes promising investigational immunotherapies for lymphoma, multiple myeloma, leukemia and other blood cancers and an update on a City of Hope-developed vaccine to prevent a virus that can cause serious complications in stem cell transplant recipients."

Here are highlights of City of Hope research presented at the ASH (Free ASH Whitepaper) conference:

Investigational bispecific antibody for multiple myeloma is well-tolerated and effective

Bispecific antibodies are an emerging immunotherapy against blood cancers. City of Hope’s Elizabeth Budde, M.D., Ph.D., presented at this year’s ASH (Free ASH Whitepaper) conference on mosunetuzumab. The research demonstrated that mosunetuzumab is a safe and effective investigational bispecific antibody for follicular lymphoma.

Talquetamab is an investigational therapy that is also demonstrating encouraging results for the treatment of relapsed multiple myeloma, according to a study led by Amrita Krishnan, M.D., director of the Judy and Bernard Briskin Center for Multiple Myeloma Research at City of Hope and chief, Division of Multiple Myeloma.

Talquetamab targets the G protein-coupled receptor family C group 5 member (GPRC5D) that has a high expression on malignant plasma cells and is limited on normal human tissue. The first-in-class bispecific antibody directs T cells to kill multiple myeloma cells by binding to both GPRC5D and CD3 receptors.

Patients with relapsed or difficult to treat multiple myeloma in the Phase 1 study received recommended Phase 2 doses as an injection on a weekly or biweekly basis. By increasing the doses slowly, researchers hope that will help to minimize the severity of cytokine release syndrome.

Krishnan presented data on 55 patients. For the study, 30 patients who received the therapy weekly (and their results were evaluable, meaning they could be included in the study) and 23 people who received it on a biweekly schedule were included. The study is ongoing.

In the weekly cohort, the overall response rate was 70% and there was a very good partial response or better in 57% of patients.

"The response numbers are very strong and what’s also remarkable is that the responses were durable and deepened over time in both groups," Krishnan said.

Cytokine release syndrome occurred in 73% of the weekly dose cohort, but only one patient had a severe case and it was treatable. Other side effects included neutropenia and dysgeusia.

"We are excited that our results demonstrated that talquetamab is well-tolerated and highly effective at the Phase 2 dose level and with tolerable side effects," Krishnan said.

Further studies of the therapy on its own or in combination with other treatments for multiple myeloma are underway.

City of Hope-developed vaccine to prevent cytomegalovirus shows safety, tolerability

Despite therapies to help prevent the cytomegalovirus (CMV), which can flare up in blood marrow/stem cell transplant recipients who are immunocompromised, CMV infections are one of the most common complications in these patients. Furthermore, the antiviral drugs used to prevent flare-ups are toxic, expensive and increase the risk of other opportunistic infections.

City of Hope has developed an anti-CMV vaccine, known as CMVPepVax. At this year’s ASH (Free ASH Whitepaper) conference, the results of a Phase 2 trial using CMVPepVax were reported by Ryotaro Nakamura, M.D., City of Hope’s Jan & Mace Siegel Professor in Hematology & Hematopoietic Cell Transplantation in the Division of Leukemia.

The double blinded, placebo-controlled, randomized Phase 2 trial enrolled stem cell transplant recipients from four transplant centers, including City of Hope. Nakamura reported on data from 32 patients in the vaccine arm and 29 patients in the placebo arm.

CMVPepVax was delivered via injections 28 days after transplant and 56 days after the procedure.

Trial results demonstrated that there was no difference in CMV reactivation in both arms.

CMVPepVax was well-tolerated in patients with no increase in adverse side effects. Transplant outcomes were also similar between the two groups when comparing one-year overall survival, relapse-free survival, nonrelapse mortality, relapse and acute graft-versus-host disease (GVHD).

Significantly higher levels of CMV-targeting T cells were measured in patients in the vaccine arm who did not have CMV in their bloodstream. In patients who had the CMVPepVax injections, robust expansion of functional T cells also occurred.

"Our results confirm that CMVPepVax is safe to use and provides an immune response," Nakamura said. "Although the vaccine did not reduce the presence of CMV in the bloodstream, there were favorable CD8 T cell responses, which are protective in principle, but maybe didn’t recover fast enough to prevent CMV from reactivating."

Next steps include researching whether stem cell donors who receive the vaccine can transfer immunity to patients, as well as providing a booster to patients. This may lead to faster immune responses after transplant.

Using probiotics for stem cell transplant patients

City of Hope is a leader in bone marrow and stem cell transplantation — it was one of the first cancer centers nationwide to perform a bone marrow transplant and has performed more than 17,000 bone marrow/stem cell transplants since 1976. Because of this leadership, City of Hope doctors and scientists are investigating how to make the transplant process better, as well as how to deal with complications that may arise from the procedure, such as GVHD.

Led by Karamjeet S. Sandhu, M.D., an assistant professor in City of Hope’s Division of Leukemia in the Department of Hematology & Hematopoietic Cell Transplantation, a City of Hope study examined how adding the probiotic CBM 588 to transplant recipients’ diets might decrease inflammation in the gut and lower the risk of GVHD. The results were discussed in an oral presentation at the ASH (Free ASH Whitepaper) conference.

Sandhu explained that the body hosts microbial communities, known as the microbiome. These microbes help the body in several metabolic processes, such as digesting food, strengthening the immune system, protecting against other bacteria and producing vitamins, including B vitamins.

Recent studies have shown the microbiome can play a role in cancer risk and how a person’s body responds to cancer treatment. In people with blood cancers who receive a transplant, there is a direct link between the health of microbiome and survival.

"Imbalance among these microbial species have also been associated with several transplant complications including GVHD," said Sandhu, M.D. He added that the imbalance also contributes to morbidity and mortality.

For the study, Sandhu and his team used Clostridium Butyricum Miyairi 588 (CBM588), a probiotic strain that has been used in Japan for several decades to manage diarrhea caused by antibiotics or infections. CBM588 is a butyrate-producing bacteria present in the spore form in soil and food. Administration of CBM588 has shown anti-inflammatory and immune modulating effects, as well as evidence of anti-cancer activity.

This was the first study of CBM588 among bone marrow/stem cell transplant recipients. Fifteen patients received the current standard of care therapies to prevent GVHD and 21 received CBM588 in addition to standard of care for GVHD.

"Our study demonstrated that CMB588 is safe and feasible to use in this patient population without increasing mortality," Sandhu said. "We even noted an improvement in gastrointestinal GVHD, but further studies are needed to prove the effect and mechanism of action among recipients of bone marrow/stem cell transplantation."

Joint study examines somatic mutations in CMML patients, impact on stem cell transplants

Chronic myelomonocytic leukemia (CMML) is a rare form of leukemia that primarily affects older adults. The only potential cure at this time is allogeneic hematopoietic cell transplantation, also known as a stem cell transplant.

Research has shown that somatic mutations — genetic changes that are acquired during life and not inherited — are an important factor in determining prognosis for CMML patients. However, limited data are available regarding their impact on outcomes after CMML patients receive transplant.

A joint study between City of Hope and Center for International Blood and Marrow Transplant Research (CIBMTR) analyzed the relationship between somatic mutations in CMML and their impact on stem cell transplants.

Additionally, the study aimed to evaluate two separate scoring systems commonly used in nontransplant CMML patients, the CMML-specific prognostic scoring system (CPSS) and molecular CPSS (CPSS-Mol), which takes into account the somatic mutations, to find out if they can predict the results of a transplant.

Led by City of Hope’s Matthew Mei, M.D., an associate professor in City of Hope’s Division of Lymphoma, Department of Hematology & Hematopoietic Cell Transplantation, the study included 313 patients across 78 different transplant centers, all of whom underwent a comprehensive mutation analysis of 131 genes performed at City of Hope under the supervision of Raju K. Pillai, M.D., director of Pathology Core Laboratories in Beckman Research Institute of City of Hope.

The study found that 93% of patients had at least one mutation identified, and the median number of mutations was three. The most frequently mutated genes were ASXL1 (62%), TET2 (35%), KRAS/NRAS (33% combined) and SRSF2 (31%); TP53 was mutated in 3% of patients.

Both the CPSS and CPSS-Mol were predictive of overall survival after transplant; however, neither system was able to identify patients who were at an increased risk of relapse. Furthermore, the incorporation of somatic mutations did not appear to refine the prognosis.

"Our study is the largest analysis of CMML patients who underwent a stem cell transplant with paired mutation analysis," Mei said. "Overall, patients with CMML remain at high risk for relapse after transplant. Novel therapies aimed at decreasing relapse and making transplants safer, as well as improved methods of predicting outcomes of transplant in CMML, are still critically needed."

Additional research on chimeric antigen receptor (CAR) T therapy and stem cell transplantation presented at ASH (Free ASH Whitepaper)

Tanya Siddiqi, M.D., director of City of Hope’s Chronic Lymphocytic Leukemia Program, also presented a poster on the Transcend NHL 001 trial at the ASH (Free ASH Whitepaper) conference, and Ibrahim Aldoss, M.D., associate professor, City of Hope’s Division of Leukemia, presented a poster on the outcomes of allogeneic hematopoietic cell transplantation in adults with Ph-like acute lymphoblastic leukemia.

City of Hope is a leader in blood cancer research and treatment. The National Cancer Institute-designated comprehensive cancer center has performed more than 17,000 bone marrow/stem cell transplants and is a leader in chimeric antigen receptor (CAR) T therapy, with nearly 800 patients treated with immune effector cells, including CAR T therapy, and nearly 80 open or completed trials.

On December 16, 2021 Legend Biotech Corporation (NASDAQ: LEGN) ("Legend Biotech"), a global clinical-stage biopharmaceutical company engaged in the discovery and development of novel cell therapies for oncology and other indications, reported that it has priced an underwritten public offering of 7,500,000 American depositary shares ("ADSs"), each representing two ordinary shares, at a public offering price of $40.00 per ADS, for total gross proceeds of approximately $300.0 million (Press release, Legend Biotech, DEC 16, 2021, View Source [SID1234597334]). In addition, Legend Biotech has granted the underwriters a 30-day option to purchase up to an additional 1,125,000 ADSs at the public offering price, less underwriting discounts and commissions. All of the ADSs are being offered by Legend Biotech. The offering is expected to close on December 20, 2021, subject to customary closing conditions.

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Morgan Stanley, J.P. Morgan, Jefferies, Piper Sandler & Co. and Barclays are serving as joint book-running managers for the offering. BTIG is serving as a co-manager for the offering.

The ADSs are being offered by Legend Biotech pursuant to an effective shelf registration statement that was previously filed with the Securities and Exchange Commission ("SEC"). The offering is being made only by means of a written prospectus and prospectus supplement that form a part of the registration statement. A preliminary prospectus supplement relating to and describing the terms of the offering was filed with the SEC on December 14, 2021. The final prospectus supplement relating to the offering will be filed with the SEC and will be available on the SEC’s website at www.sec.gov. A copy of the final prospectus supplement can be obtained, when available, from Morgan Stanley & Co. LLC, 180 Varick Street, New York, NY 10014, Attention: Prospectus Department, or by telephone at (866) 718-1649; J.P. Morgan Securities LLC, c/o Broadridge Financial Solutions, 1155 Long Island Avenue, Edgewood, NY 11717, by telephone at 866-803-9204 or by email at [email protected]; Jefferies LLC, Attention: Equity Syndicate Prospectus Department, 520 Madison Avenue, 2nd Floor, New York, NY 10022, by telephone at 877-821-7388 or by email at [email protected]; Piper Sandler & Co., Attention: Prospectus Department, 800 Nicollet Mall, J12S03, Minneapolis, MN 55402, or by email at [email protected] or by telephone at 1-800-747-3924; or Barclays Capital Inc., c/o Broadridge Financial Solutions, 1155 Long Island Avenue, Edgewood, NY 11717 or by email at [email protected] or by telephone at (888) 603-5847.

This press release shall not constitute an offer to sell, or the solicitation of an offer to buy, nor shall there be any sale of these securities in any state or jurisdiction in which such offer, solicitation, or sale would be unlawful prior to registration or qualification under the securities laws of any such state or jurisdiction.

On December 16, 2021 Personalis, Inc. (Nasdaq: PSNL), a leader in advanced genomics for cancer, reported the launch of NeXT Personal, a next-generation, tumor-informed liquid biopsy assay designed to detect and quantify molecular residual disease (MRD) and recurrence in patients previously diagnosed with cancer (Press release, Personalis, DEC 16, 2021, View Source [SID1234597332]). NeXT Personal delivers industry-leading MRD sensitivity down to the 1 part-per-million range, an approximately 10- to 100-fold improvement over other available technologies. This enables earlier detection across a broader variety of cancers and stages, including typically challenging early stage, low mutational burden, and low-shedding cancers.

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NeXT Personal leverages whole genome sequencing of a patient’s tumor to identify up to 1,800 specially-selected somatic variants that are subsequently used to create a personalized liquid biopsy panel for each patient. The targeted panel is then used to sequence millions of unique DNA molecules from a patient’s blood sample. Aggregation of signal across these sequences using proprietary algorithms enables part-per-million sensitivity. Personalis’ innovative methods are covered by its broad range of early and subsequent intellectual property filings.

Going beyond other tumor-informed MRD assays, NeXT Personal also simultaneously detects and quantifies clinically relevant mutations in circulating tumor DNA (ctDNA) that may be used in the future to help guide therapy, when cancer is detected. These include known targetable cancer mutations, drug resistance mutations, and new variants which can emerge and change over time, especially under therapeutic pressure.

"With this launch, Personalis is extending what an MRD product can deliver," said John West, Personalis’ Chief Executive Officer. "With its dramatic increase in sensitivity, we expect to address a range of tumors which were out of reach with earlier technologies. With its broader information content, we also go beyond detection of a tumor, to provide the additional characterization needed to understand and eventually help manage disease."

"NeXT Personal addresses the need for higher sensitivity assays, opening the door for earlier detection and more sensitive monitoring of patient response to therapy across a broader range of cancers and stages. Today’s release is targeted towards biopharma partners and clinical collaborators. In 2022, we plan to release NeXT Personal as a clinical test, which we expect will yield opportunities for earlier intervention and treatment for cancer patients," said Dr. Richard Chen, Personalis’ Chief Medical Officer and SVP of R&D.