On May 16, 2018 Jounce Therapeutics, Inc. (NASDAQ:JNCE), a clinical-stage company focused on the discovery and development of novel cancer immunotherapies and predictive biomarkers, reported that data from its ongoing Phase 1/2 ICONIC trial, an adaptive design, open label trial evaluating JTX-2011 monotherapy and in combination with nivolumab, will be the subject of an oral presentation at the upcoming 2018 American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting in Chicago, IL on June 1-5, 2018 (Press release, Jounce Therapeutics, MAY 16, 2018, View Source;p=RssLanding&cat=news&id=2349498 [SID1234526705]). The abstract published today online reflects data as of January 27, 2018 and updated results will be presented on June 2, 2018.

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Jounce has met its target enrollment for the Phase 1/2 ICONIC trial in its combination cohorts across four solid tumor types: gastric cancer, triple negative breast cancer (TNBC), head and neck squamous cell cancer (HNSCC) and non-small cell lung cancer (NSCLC), with most patients completing at least one efficacy assessment. Updated results, including preliminary efficacy data on all evaluable patients in the trial, will be presented at ASCO (Free ASCO Whitepaper).

"The preliminary data from patients across multiple solid tumor types enrolled in the ICONIC trial show that JTX-2011 is well-tolerated alone and in combination with nivolumab and has demonstrated evidence of biologic activity and tumor reductions in heavily pre-treated patients who have failed all available therapies. In addition, a potential surrogate biomarker of response has been identified that may help to guide JTX-2011 development," said Elizabeth Trehu, M.D., chief medical officer of Jounce Therapeutics. "We look forward to continuing clinical development of JTX-2011."

Details of the Oral Presentation

Title: ICONIC: Biologic and clinical activity of first in class ICOS agonist antibody JTX-2011 +/- nivolumab (nivo) in patients (pts) with advanced cancers

Session: Developmental Therapeutics – Immunotherapy
Date and Time: Saturday, June 2, 2018, 3:00 – 3:12 p.m. CT (4:00 – 4:12 p.m. ET)
Abstract Number: 3000
Location: Hall B1
Presenter: Timothy A. Yap, MBBS, PhD, MRCP, BS, The University of Texas MD Anderson Cancer Center

Full session details and data presentation at the 2018 ASCO (Free ASCO Whitepaper) Annual Meeting can be found at www.asco.org.

ASCO Abstract and Presentation
The ASCO (Free ASCO Whitepaper) abstract includes preliminary efficacy data from Phase 1 and 2 patients with gastric cancer and TNBC; pharmacodynamic data from Phase 1 that supported Phase 2 dose selection; and safety data from all Phase 2 subjects.

At the presentation, Jounce will provide longer-term follow-up from patients included in the abstract as well as preliminary efficacy data on all evaluable patients in the trial as of an April 4, 2018 cut-off date. This includes data from tumor specific cohorts in gastric cancer, TNBC, HNSCC, NSCLC and other solid tumors. Phase 1 and 2 monotherapy and combination safety data in all patients will be presented, as well as biomarker information on ICOS expression including the emergence of an ICOS high peripheral blood T cell population. Initial Phase 1 safety, PK and PD were previously reported at the 2017 ASCO (Free ASCO Whitepaper) Annual Meeting.

Jounce Therapeutics to Host Event and Webcast
Jounce Therapeutics will host an investor and analyst event beginning at 6:30 p.m. CT (7:30 pm ET) and live webcast beginning at 7:00 p.m. CT (8:00 p.m. ET), both on Monday, June 4, 2018. To access the live webcast, please visit the "Events & Presentations" page in the Investors and Media section of the company’s website at www.jouncetx.com. The webcast will be archived and made available for replay on the company’s website approximately two hours after the call and will be available for 30 days thereafter.

About JTX-2011
Jounce’s lead product candidate, JTX-2011, is a monoclonal antibody that binds to and activates ICOS, a protein on the surface of certain T cells. Preclinical data support that JTX-2011 may have a dual mechanism of action that stimulates anti-tumor T effector cells, and also reduces the immunosuppressive T regulatory cells in the tumor microenvironment. The company is developing JTX-2011 to treat solid tumors as a single agent and in combination with other therapies.

On May 16, 2018 Turnstone Biologics reported it has received U.S. Food and Drug Administration (FDA) clearance of its Investigational New Drug Application (IND) for MG1-HPV for the treatment of patients with human papillomavirus (HPV) positive solid tumors (Press release, Turnstone Biologics, MAY 16, 2018, View Source [SID1234526721]). Additionally, Turnstone reported that it has entered into a clinical supply agreement with F. Hoffmann-La Roche Ltd ("Roche") under which Roche will provide atezolizumab (Tecentriq), its anti-PDL1 antibody, for use in combination with Turnstone’s Maraba virus immunotherapy platform, MG1.

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Turnstone will investigate the safety and efficacy of MG1-HPV therapy in combination with atezolizumab across a range of HPV positive tumors in a Phase I/II clinical study expected to commence in the second quarter of 2018.

"We are committed to helping patients in need of a safe and effective treatment for HPV positive cancers. Following FDA clearance of our IND, we look forward to advancing this promising combination of therapies into the clinic," said Mike Burgess, MD, Ph.D., president of Research and Development at Turnstone. "We are excited to have the support of Roche in evaluating our novel MG1 platform in combination with atezolizumab, and believe the promise of our technology to unleash the power of T cells to treat a range of solid tumors is reinforced by this relationship."

Turnstone’s MG1 virus is the first immunotherapy engineered to function as both a selective tumor-destroying oncolytic virus and an immune stimulating T cell vaccine. MG1 directly attacks cancer cells and modifies the microenvironment to make tumor sites throughout the body susceptible to targeted killer T cell responses, also induced by the virus. Building off of recently published scientific data, Turnstone will investigate MG1-HPV (MG1 expressing four different HPV viral antigens) as a safe and effective treatment option for patients with advanced metastatic cervical, oropharyngeal, and other HPV positive solid tumors.

On May 16, 2018 Roche (SIX: RO, ROG; OTCQX: RHHBY) reported positive results from the Phase III IMpower150 study of Tecentriq (atezolizumab) and Avastin (bevacizumab) plus carboplatin and paclitaxel (chemotherapy) for the initial (first-line) treatment of chemotherapy-naïve people with metastatic non-squamous non-small cell lung cancer (NSCLC) (Press release, Hoffmann-La Roche, MAY 16, 2018, View Source [SID1234526738]). This interim analysis showed that Tecentriq and Avastin plus carboplatin and paclitaxel helped people live significantly longer compared with Avastin plus carboplatin and paclitaxel (median overall survival [OS] = 19.2 versus 14.7 months; hazard ratio [HR] = 0.78, 95% CI: 0.64-0.96; p=0.016) in the intention-to-treat wild-type (ITT-WT) population, a co-primary endpoint of the study.1 An OS advantage was observed in all pre-specified exploratory biomarker-selected subgroups analysed, which included people with EGFR- and ALK-positive mutations who had received an appropriate targeted therapy, and those with varying levels of PD-L1 expression or with negative PD-L1 expression. People with liver metastases treated with the Tecentriq combination also had a survival advantage. The safety profile of the Tecentriq and Avastin plus carboplatin and paclitaxel combination was consistent with the safety profiles of the individual medicines, and no new safety signals were identified with the combination.

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"The IMpower150 study results showed a significant survival benefit, adding to the clinical evidence supporting the combination of Tecentriq and Avastin as an initial treatment for metastatic non-squamous non-small cell lung cancer. An overall survival benefit was also observed in key populations such as people with EGFR- and ALK-positive mutations and those with liver metastases," said Sandra Horning, MD, Roche’s Chief Medical Officer and Head of Global Product Development. "We are working with health authorities around the world to bring this potential Tecentriq combination regimen to people living with this disease."

At this interim analysis, the combination of Tecentriq plus carboplatin and paclitaxel (Arm A) did not show a statistically significant OS benefit when compared to the combination of Avastin plus carboplatin and paclitaxel (Arm C). Arm A will continue as planned to the final analysis. Safety in the Tecentriq plus carboplatin and paclitaxel arm appeared consistent with the known safety profile of the individual medicines, and no new safety signals were identified with the combination.

The official data presentation at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting will be on Monday, June 4, 2018, at 15:45 – 15:57 p.m. CDT (Abstract #9002).

The combination of Tecentriq and Avastin plus carboplatin and paclitaxel was recently granted Priority Review from the U.S. Food and Drug Administration (FDA) for the initial (first-line) treatment of chemotherapy-naïve people with metastatic non-squamous NSCLC. The FDA is expected to make a decision on approval by September 5th, 2018.

IMpower150 is one of eight Phase III lung cancer studies underway, evaluating Tecentriq alone or in combination with other medicines. Following the IMpower150 and IMpower131 studies, three more Phase III lung cancer studies are expected to report this year.

About the IMpower150 study
IMpower150 is a multicentre, open-label, randomised, controlled Phase III study evaluating the efficacy and safety of Tecentriq in combination with chemotherapy (carboplatin and paclitaxel) with or without Avastin in people with stage IV or recurrent metastatic non-squamous NSCLC who had not been treated with chemotherapy for their advanced disease. It enrolled 1,202 people of which those with ALK and EGFR mutations were excluded from the primary ITT analysis. People were randomised (1:1:1) to receive:

Tecentriq plus carboplatin and paclitaxel (Arm A), or
Tecentriq and Avastin plus carboplatin and paclitaxel (Arm B), or
Avastin plus carboplatin and paclitaxel (Arm C, control arm).
During the treatment-induction phase, people in Arm A received Tecentriq administered intravenously at 1200 mg in combination with intravenous infusion of carboplatin and paclitaxel on Day 1 of a 3-week treatment cycle for 4 or 6 cycles. Following the induction phase, people received maintenance treatment with Tecentriq (1200 mg every 3 weeks) until loss of clinical benefit or disease progression. IMpower150 was designed to formally compare Tecentriq plus chemotherapy (Arm A) versus Avastin plus chemotherapy (Arm C), only if Tecentriq and Avastin plus chemotherapy (Arm B) is shown to improve OS in the ITT-WT population compared to Avastin plus chemotherapy (Arm C).

People in Arm B received induction treatment with Tecentriq (1200 mg) and Avastin administered intravenously at 15 mg/kg in combination with intravenous infusion of carboplatin and paclitaxel on Day 1 of a 3-week treatment cycle for 4 or 6 cycles. People then received maintenance treatment with the Tecentriq Avastin regimen until disease progression (Avastin) or loss of clinical benefit/disease progression (Tecentriq).

People in Arm C received induction treatment with Avastin administered intravenously at 15 mg/kg plus intravenous infusion of carboplatin and paclitaxel on Day 1 of a 3-week treatment cycle for 4 or 6 cycles. This was followed by maintenance treatment with Avastin alone until disease progression.

The co-primary endpoints were PFS and OS, as determined by the investigator using Response Evaluation Criteria in Solid Tumors Version 1.1 (RECIST v1.1). The co-primary OS endpoint in IMpower150 was assessed in all randomised people without an EGFR or ALK genetic mutation (intention-to-treat wild-type). Key secondary endpoints included investigator-assessed PFS, OS and safety in the ITT population and in EGFR and ALK mutation subgroups. The study met its co-primary endpoints of OS and PFS per study protocol.

A summary of OS results is included below.

The safety profile of the Tecentriq and Avastin plus carboplatin and paclitaxel combination was consistent with the safety profiles of the individual medicines, and no new safety signals were identified with the combination. Serious adverse events (Grade 3-4) related to treatment were observed in 57% of people who received Tecentriq and Avastin plus carboplatin and paclitaxel compared to 49% of those who received Avastin plus carboplatin and paclitaxel.

About NSCLC
Lung cancer is the leading cause of cancer death globally.2 Each year 1.59 million people die as a result of the disease; this translates into more than 4,350 deaths worldwide every day.3 Lung cancer can be broadly divided into two major types: NSCLC and small cell lung cancer. NSCLC is the most prevalent type, accounting for around 85% of all cases.3 NSCLC comprises non-squamous and squamous-cell lung cancer, the squamous form of which is characterised by flat cells covering the airway surface when viewed under a microscope. The squamous form tends to grow near the centre of the lung, and accounts for approximately 25-30% of all NSCLC cases.4

About Tecentriq (atezolizumab)
Tecentriq is a monoclonal antibody designed to bind with a protein called PD-L1 expressed on tumour cells and tumour-infiltrating immune cells, blocking its interactions with both PD-1 and B7.1 receptors. By inhibiting PD-L1, Tecentriq may enable the activation of T-cells. Tecentriq has the potential to be used as a foundational combination partner with cancer immunotherapies, targeted medicines and various chemotherapies across a broad range of cancers.

Currently, Roche has eight Phase III lung cancer studies underway, evaluating Tecentriq alone or in combination with other medicines.

Tecentriq is already approved in the European Union, United States and more than 70 countries for people with previously treated metastatic NSCLC and for people with locally advanced or metastatic urothelial cancer (mUC) who are not eligible for cisplatin chemotherapy, or who have had disease progression during or following platinum-containing therapy.

About Avastin (bevacizumab)
Avastin is a prescription-only medicine that is a solution for intravenous infusion. It is a biologic antibody designed to specifically bind to a protein called vascular endothelial growth factor (VEGF) that plays an important role throughout the lifecycle of the tumour to develop and maintain blood vessels, a process known as angiogenesis. Avastin is designed to interfere with the tumour blood supply by directly binding to the VEGF protein to prevent interactions with receptors on blood vessel cells. The tumour blood supply is thought to be critical to a tumour’s ability to grow and spread in the body (metastasise).

About the Tecentriq (atezolizumab) and Avastin (bevacizumab) combination
There is a strong scientific rationale to support the use of Tecentriq plus Avastin in combination. The Tecentriq and Avastin regimen may enhance the potential of the immune system to combat first-line advanced NSCLC. Avastin, in addition to its established anti-angiogenic effects, may further enhance Tecentriq’s ability to restore anti-cancer immunity, by inhibiting VEGF-related immunosuppression, promoting T-cell tumour infiltration and enabling priming and activation of T-cell responses against tumour antigens.

About Roche in cancer immunotherapy
For more than 50 years, Roche has been developing medicines with the goal to redefine treatment in oncology. Today, we’re investing more than ever in our effort to bring innovative treatment options that help a person’s own immune system fight cancer.

By applying our seminal research in immune tumour profiling within the framework of the Roche-devised cancer immunity cycle, we are accelerating and expanding the transformative benefits with Tecentriq to a greater number of people living with cancer. Our cancer immunotherapy development programme takes a comprehensive approach in pursuing the goal of restoring cancer immunity to improve outcomes for patients.

On May 16, 2018 Fate Therapeutics, Inc. (NASDAQ:FATE), a clinical-stage biopharmaceutical company dedicated to the development of programmed cellular immunotherapies for cancer and immune disorders, reported the Company has gained access to additional intellectual property from Memorial Sloan Kettering Cancer Center (MSK) that enables the development of gene-edited T-cell immunotherapies (Press release, Fate Therapeutics, MAY 16, 2018, View Source [SID1234526687]). The newly-licensed portfolio of intellectual property covers new chimeric antigen receptor (CAR) constructs as well as off-the-shelf CAR T cells, including the use of CRISPR and other innovative technologies for their production.

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Fate Therapeutics is utilizing gene editing under its ongoing collaboration for the research and development of off-the-shelf CAR T-cell immunotherapies with Michel Sadelain, M.D., Ph.D., Director of the Center for Cell Engineering and the Stephen and Barbara Friedman Chair at MSK. At the American Society of Gene and Cell Therapy (ASGCT) (Free ASGCT Whitepaper) Annual Meeting, Dr. Sadelain will present preclinical data on FT819, an off-the-shelf, TCR-less, CD19 CAR T-cell product manufactured from a clonal master induced pluripotent stem cell (iPSC) line.

"Engineering stem cells and using master iPSC lines for the renewable production of off-the-shelf CAR T cells has the potential to advance the cancer immunotherapy landscape," said Dr. Sadelain. "We are pleased with the breakthrough discoveries accomplished under our ongoing collaboration with Fate Therapeutics, and look forward to continuing our advancement together of off-the-shelf CAR T-cell products toward clinical development."

The use of clonal master iPSC lines can overcome the complexity, heterogeneity and substantial costs associated with using cells from a patient or an allogeneic donor. Instead, iPSC-derived T-cell immunotherapies can be consistently and repeatedly mass produced and delivered in an off-the-shelf manner, significantly reducing the cost of, and time to, patient treatment.

"The use of a gene-edited master iPSC line for the manufacture of off-the-shelf T-cell immunotherapies ensures complete removal of endogenous TCR expression, which is critical to avoid the life-threatening complication of graft-versus-host disease that is seen in allogeneic T-cell therapy," said Scott Wolchko, President and Chief Executive Officer of Fate Therapeutics. "The incorporation of these latest MSK technologies into our development of FT819 and our iPSC product platform advances our leadership position in developing off-the-shelf T-cell immunotherapies with improved safety, enhanced potency and expanded therapeutic reach."

Fate Therapeutics has exclusively licensed from MSK intellectual property covering the production and composition of iPSC-derived T cells for human therapeutic use. In addition, Fate Therapeutics owns an extensive intellectual property portfolio that broadly covers compositions and methods for the genome editing of iPSCs using CRISPR and other nucleases, including the use of CRISPR to insert a CAR in the TRAC locus for endogenous transcriptional control.

About FT819
FT819 is a universal, off-the-shelf, dual-targeted CAR T-cell product that is manufactured from a clonal master iPSC line. The line is engineered to completely eliminate expression of the T-cell receptor, to preferentially regulate CAR19 expression by inserting the CAR into the T-cell receptor constant (TRAC) locus, and to uniquely express a recombinant CD16 Fc receptor. In preclinical studies, FT819 exhibits a target-specific T-cell response in vitro when challenged with CD19-positive tumor cells and displays enhanced production of effector cytokines and cytolytic proteins. In addition, FT819 uniquely elicits antibody-dependent cell-mediated cytotoxicity in vitro against CD19-negative, CD20-positive tumor cells with rituximab, a monoclonal antibody targeting CD20. This dual-targeted approach of FT819 can substantially broaden the cell product’s therapeutic reach and overcome CD19 antigen escape through combination with other proven cancer treatments.

About Fate Therapeutics’ iPSC Product Platform
The Company’s proprietary iPSC product platform enables mass production of off-the-shelf, engineered, homogeneous cell products that can be administered in repeat doses to mediate more effective pharmacologic activity, including in combination with cycles of other cancer treatments. Human iPSCs possess the unique dual properties of unlimited self-renewal and differentiation potential into all cell types of the body. The Company’s first-of-kind approach involves engineering human iPSCs in a one-time genetic modification event, and selecting a single iPSC for maintenance as a clonal master iPSC line. Analogous to master cell lines used to manufacture biopharmaceutical drug products such as monoclonal antibodies, clonal master iPSC lines are a renewable source for consistently and repeatedly manufacturing homogeneous cell products in quantities that support the treatment of many thousands of patients in a cost-effective, off-the-shelf manner. Fate Therapeutics’ iPSC product platform is supported by an intellectual property portfolio of over 90 issued patents and 100 pending patent applications.

On May 16, 2018 Karyopharm Therapeutics Inc. (Nasdaq:KPTI), a clinical-stage pharmaceutical company, reported that four posters will be presented at the upcoming American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) 2018 Annual Meeting taking place June 1-5, 2018 in Chicago (Press release, Karyopharm, MAY 16, 2018, View Source [SID1234526706]). Among the poster presentations will be results from the Company’s Phase 2 SEAL study evaluating selinexor, its lead, oral SINE compound, in patients with advanced de-differentiated liposarcoma. The remaining posters will highlight clinical and preclinical data from ongoing investigator-sponsored trials evaluating selinexor in combination with other anti-cancer agents.

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"Dedifferentiated liposarcoma is a rare and aggressive form of the disease that is resistant to both standard chemotherapy and radiation, and most patients who progress following surgery ultimately succumb to this difficult to treat cancer," said Sharon Shacham, PhD, MBA, President and Chief Scientific Officer of Karyopharm. "We previously reported positive top-line data from the Phase 2 SEAL study in September 2017, including oral selinexor’s demonstration of superiority over placebo for the study’s primary endpoint of progression-free survival (PFS), with a hazard ratio of 0.60, representing a 40% reduction in the risk of progression or death. The Phase 3 portion of the SEAL study is currently ongoing with top-line data expected by the end of 2019. We look forward to presenting the more detailed results from the Phase 2 portion of the SEAL study at ASCO (Free ASCO Whitepaper) this year."

Details for the ASCO (Free ASCO Whitepaper) 2018 selinexor presentations are as follows:

Company-sponsored Trials

Title: Phase 2 results of selinexor in advanced de-differentiated (DDLS) liposarcoma (SEAL) study: A phase 2/3, randomized, double blind, placebo controlled cross-over study
Lead author:Mrinal Gounder, Memorial Sloan Kettering Cancer Center and Weill Cornell Medical College
Poster Board #: 257
Abstract #: 11512
Poster Discussion Session: Sarcoma
Date and Time:Saturday, June 2, 2018; 8:00 AM – 11:30 AM CT; Discussion from 3:00 PM – 4:15PM
Location: Hall A

Investigator-sponsored Trials

Title: Phase 1 study of selinexor plus mitoxantrone, etoposide, and cytarabine in acute myeloid leukemia
Lead author:Bhavana Bhatnagar, Ohio State University Comprehensive Cancer Center
Poster Board #: 108
Abstract: 7048
Poster Session: Hematologic Malignancies—Leukemia, Myelodysplastic Syndromes, and Allotransplant
Date and Time:Monday, June 4, 2018; 8:00 AM – 11:30 AM CT
Location: Hall A

Title: Phase 1b study of selinexor, a first in class selective inhibitor of nuclear export (SINE) compound, in combination with doxorubicin in patients (pts) with locally advanced or metastatic soft tissue sarcoma (STS)
Lead author: Eoghan Ruadh Malone, Princess Margaret Cancer Centre
Poster Board #: 307
Abstract: 11562
Poster Session: Sarcoma
Date and Time:Saturday, June 2, 2018; 8:00 AM – 11:30 AM CT
Location: Hall A

Title: Profiling the immune checkpoint pathway in acute myeloid leukemia
Lead author:Paola Dama, University of Chicago
Poster Board #: 75
Abstract: 7015
Poster Discussion Session: Hematologic Malignancies – Leukemia, Myelodysplastic Syndromes, and Allotransplant
Date and Time:Monday, June 4, 2018; 8:00 AM – 11:30 AM CT; Discussion from 11:30 AM – 12:45 PM CT
Location: Hall A

About Selinexor

Selinexor (KPT-330) is a first-in-class, oral Selective Inhibitor of Nuclear Export / SINE compound. Selinexor functions by binding with and inhibiting the nuclear export protein XPO1 (also called CRM1), leading to the accumulation of tumor suppressor proteins in the cell nucleus. This reinitiates and amplifies their tumor suppressor function and is believed to lead to the selective induction of apoptosis in cancer cells, while largely sparing normal cells. To date, over 2,400 patients have been treated with selinexor. In April 2018, Karyopharm reported positive top-line data from the Phase 2b STORM study evaluating selinexor in combination with low-dose dexamethasone in patients with penta-refractory multiple myeloma. Selinexor has been granted Orphan Drug Designation in multiple myeloma and Fast Track designation for the patient population evaluated in the STORM study. Karyopharm plans to submit a New Drug Application (NDA) to the U.S. Food and Drug Administration (FDA) during the second half of 2018, with a request for accelerated approval for oral selinexor as a new treatment for patients with penta-refractory multiple myeloma. The Company also plans to submit a Marketing Authorization Application (MAA) to the European Medicines Agency (EMA) in early 2019 with a request for conditional approval. Selinexor is also being evaluated in several other mid- and later-phase clinical trials across multiple cancer indications, including in multiple myeloma in a pivotal, randomized Phase 3 study in combination with Velcade (bortezomib) and low-dose dexamethasone (BOSTON) and as a potential backbone therapy in combination with approved therapies (STOMP), and in diffuse large B-cell lymphoma (SADAL), liposarcoma (SEAL), and an investigator-sponsored study in endometrial cancer (SIENDO), among others. Additional Phase 1, Phase 2 and Phase 3 studies are ongoing or currently planned, including multiple studies in combination with one or more approved therapies in a variety of tumor types to further inform Karyopharm’s clinical development priorities for selinexor. Additional clinical trial information for selinexor is available at www.clinicaltrials.gov.