On June 29, 2017 Servier and Transgene (Euronext Paris: TNG), a biotechnology company that designs and develops immunotherapies based on viral vectors, reported the signature of a research agreement on the application of viral vectorization technology for the production of allogenic CAR-T cell therapies (Press release, Transgene, JUN 29, 2017, View Source [SID1234519742]). The aim is to obtain more efficient products for patients.

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"Allogenic cell therapies using CAR-T open a major field of innovation in the treatment of cancer," stated Patrick Therasse, Oncology Research and Development Director at Servier. "However, each of the steps in their complex manufacturing process requires specific development and optimization efforts, in order to provide patients with the best possible therapeutic options. And we look for the best partners to move these products forward. ".

The aim of the collaboration between the scientific teams at both Servier and Transgene is to evaluate and select innovative vectorization methods based on Transgene’s viral vector collection, which may be applied to the engineering of CAR-T cell therapies. In addition to the development of simpler, faster and more effective methods, the aim is also to obtain a tighter control of the modified genome areas. Servier and Transgene thus aim to achieve an original allogenic CAR-T preparation method with better transgene integration yields and fewer steps.

Servier has been engaged in the development of cell therapies since November 2015 (see About UCART19).

Transgene has a large collection of viral vectors and is renowned for its competence in the genome engineering of these vectors. These assets will be used to develop new vectorization tools that will allow us to increase the possibility of fine and precise modification of the genome of CART cells, in order to adapt these cells’ properties to the tumor environment and improve the therapeutic efficacy.

Eric Quéméneur, Scientific Director of Transgene, explains: "We are proud of the recognition of our vectorization know-how and of our capacity for innovation by a pharmaceutical company of importance such as Servier. We will enthusiastically contribute to the development of CAR-T, these new promising products in cancer immunotherapy. Thanks to this collaboration, Transgene broadens the domain of the application of viral vectors from its technological platform. ".

"Cellectis is pleased about Servier and Transgene’s collaboration on allogenic CAR-T cell therapies, stated André Choulika, Chairman and Chief Executive Officer of Cellectis. "Transgene stands among the most advanced companies in the world in the development of vector technologies. We are convinced that this collaboration on these cell therapies will lead to ways to optimize production, costs, and potentially explore their use in other leukemia indications".

Transgene may receive more than 30 million Euro for this contract, with an initial duration of three years. As for Servier, it will be able to use these new vectors to develop its cell immunotherapy portfolio.

On June 29, 2017 Chi-Med and AstraZeneca reported that they have initiated a global pivotal Phase III, open-label, randomized multi-center registration study of the highly selective inhibitor of c-MET receptor tyrosine kinase, savolitinib, in c-MET-driven papillary renal cell carcinoma ("PRCC") (Press release, Hutchison China MediTech, JUN 29, 2017, http://www.chi-med.com/initiate-savoir-global-ph3-of-savolitinib-in-prcc/ [SID1234519740]). This is the first pivotal study ever conducted in c-MET-driven PRCC and the first molecularly selected trial in renal cell carcinoma ("RCC").

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"The launch of the SAVOIR trial, designed to support product registration in the U.S. and Europe, continues to advance our strategy to deliver innovative medicines to major markets worldwide," said Christian Hogg, Chief Executive Officer of Chi-Med. "Based on the results of our Phase II study, we believe savolitinib has the potential to bring meaningful clinical benefit to patients with c-MET-driven PRCC. We also expect to further understand the correlations between c-MET alterations and patient outcomes through epidemiological analyses using our newly developed companion diagnostic assay."

Susan Galbraith, SVP IMED Oncology, AstraZeneca commented that "It is exciting to achieve this milestone in savolitinib’s development. The data building across our early development studies are encouraging, that savolitinib has the potential to be an important treatment option for c-MET driven cancers including kidney, lung and gastric cancers."

The initiation of this Phase III trial has triggered a US$5 million milestone payment to Hutchison MediPharma Limited (a 99.8% subsidiary of Chi-Med) from AstraZeneca under the terms of the license and collaboration agreement signed between them in 2011 (as amended).

In addition to SAVOIR, Chi-Med and AstraZeneca are conducting a number of Phase Ib and II studies of savolitinib in kidney cancer, lung cancer and gastric cancer. These studies involve savolitinib as a monotherapy or in combination with other targeted therapy, such as Tagrisso (osimertinib) or Iressa (gefitinib). Additional studies combining with Imfinzi (durvalumab) and Taxotere (docetaxel) are also in progress.



About SAVOIR
SAVOIR is a global Phase III, open-label, randomized, controlled trial evaluating the efficacy and safety of savolitinib, compared with sunitinib, in patients with c-MET-driven, unresectable, locally advanced or metastatic PRCC. Approximately 180 patients will be randomized at 50 to 75 sites across five to ten countries. c-MET status is confirmed by the novel targeted next-generation sequencing (NGS) assay developed for savolitinib. Patients will be randomized in a 1:1 ratio to receive either continuous treatment with savolitinib 600 mg (400 mg if <50 kg) orally, once daily, or intermittent treatment with sunitinib 50 mg orally once daily (4 weeks on/2 weeks off), on a 6-week cycle.

The primary objective is to evaluate the primary efficacy endpoint progression free survival ("PFS") of savolitinib as compared with sunitinib. Secondary endpoints include overall survival, objective response rate ("ORR"), duration of response, best percentage change in tumor size, disease control rate, and safety and tolerability. The impact of savolitinib compared with sunitinib on disease symptoms and quality of life, along with the pharmacokinetics of savolitinib will also be assessed. Additional details about this study may be found at clinicaltrials.gov, using identifier NCT03091192.



About Savolitinib
Savolitinib (AZD6094/HMPL-504) is a potential first-in-class selective inhibitor of c-MET (also known as mesenchymal epithelial transition factor) receptor tyrosine kinase, an enzyme which has been shown to function abnormally in many types of solid tumors. It was developed as a potent and highly selective oral inhibitor specifically designed to address issues observed in the clinic with other selective c-MET inhibitors, such as renal toxicity.

Savolitinib was discovered by Chi-Med and is being developed in collaboration with AstraZeneca. Savolitinib is currently being studied in multiple tumor types worldwide including kidney, lung and gastric cancers, both as a monotherapy or in combination with other targeted and immunotherapy agents.



About c-MET-Driven PRCC
Worldwide, about 366,000 new patients are diagnosed with kidney cancer annually. RCC accounts for approximately 80-85% of kidney cancer and has several histological sub-types with different genetic and biochemical characteristics. PRCC is the most common of the non-clear cell renal carcinomas accounting for 10-15% of RCC. However, the biology and molecular characteristics of PRCC are different from those of clear cell RCC ("ccRCC"). Multiple studies indicate that PRCC is c-MET-driven in 40-70% of patients.

There are no therapies approved for patients with PRCC, who currently receive treatments approved for RCC such as sunitinib. These RCC agents were mostly approved on the basis of studies where the majority of subjects were ccRCC patients and where the benefits to the PRCC minority were more modest. Currently the National Comprehensive Cancer Network Guidelines advise PRCC patients to enter clinical trials.



About Savolitinib in PRCC
In February 2017, the results of a global Phase II multicenter study in advanced PRCC was presented at the 2017 American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Genitourinary Cancers Symposium, which indicated a clear efficacy signal with savolitinib monotherapy in c-MET-driven patients. Median PFS of 6.2 months in c-MET-driven patients as compared with 1.4 months (p<0.0001) in c-MET-independent patients. ORR was 18.2% in c-MET-driven patients vs. 0% (p=0.002) in c-MET independent patients. An encouraging durable response and safety profile were reported in savolitinib treated patients. Further details are available at www.chi-med.com/asco-gu-2017-savolitinib-ph2-in-prcc-pres/.

Studies of c-MET-driven disease in gastric cancer and lung cancer suggest that c-MET amplification and/or overexpression can be a negative prognostic for disease progression. Over the course of 2017, Chi-Med and AstraZeneca are also conducting a comprehensive molecular epidemiology study of approximately 300 PRCC patient samples to further understand the correlations between c-MET alterations and patient outcomes, including any predictive biomarkers.

On June 29, 2017 Amgen (NASDAQ:AMGN) reported that the U.S. Food and Drug Administration (FDA) has approved the supplemental Biologics License Application (sBLA) for Vectibix (panitumumab) for patients with wild-type RAS (defined as wild-type in both KRAS and NRAS as determined by an FDA-approved test for this use) metastatic colorectal cancer (mCRC) as first-line therapy in combination with FOLFOX and as monotherapy following disease progression after prior treatment with fluoropyrimidine, oxaliplatin, and irinotecan-containing chemotherapy (Press release, Amgen, JUN 29, 2017, View Source [SID1234519732]). Vectibix is the first-and-only fully human monoclonal anti-epidermal growth factor receptor (EGFR) antibody approved by the FDA for this patient population.

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As part of this new indication, the FDA approved the first multigene, next-generation sequencing-based test to identify the RAS mutation status of a patient’s tumor. Next-generation sequencing is a novel diagnostics test technique that makes a more personalized medicine approach possible. This companion diagnostic helps physicians identify patients that are more likely to benefit from treatment with Vectibix.

"Of the few biomarkers in colorectal cancer, RAS mutation status provides actionable information when deciding on a first-line treatment option in mCRC patients," said Marwan G. Fakih, M.D., co-director of the Gastrointestinal Cancer Program at City of Hope, Duarte, Calif. "Panitumumab has demonstrated a significant overall survival benefit to patients whose mCRC does not have mutations in RAS, providing physicians with a novel targeted treatment option and allowing us to develop a personalized approach as we help patients fight this devastating disease."

The full approval for Vectibix as a treatment for patients with wild-type KRAS mCRC was based on results from the Phase 3 PRIME and ASPECCT trials. The approval of a refined indication for the treatment of patients with wild-type RAS mCRC was based on a retrospective analysis from the PRIME study and prospective, pre-defined analyses from the Phase 3 ‘0007 study. The ‘0007 study evaluated the efficacy of Vectibix plus best supportive care (BSC) versus BSC alone in patients with chemorefractory, wild-type KRAS mCRC. Data from a key secondary endpoint showed that patients with wild-type RAS (exons 2, 3, and 4 of KRAS and NRAS) mCRC treated with Vectibix plus BSC resulted in a statistically significant improvement in overall survival (OS) of 10 months compared to 6.9 months for patients treated with BSC alone (HR=0.70; 95 percent CI: 0.53, 0.93, p=0.0135). The safety profile of Vectibix in patients with wild-type RAS mCRC is consistent with that seen previously in patients with wild-type KRAS mCRC.

"Every patient with cancer is unique, and we are committed to utilizing cutting-edge science and technology to target treatments to the patients more likely to benefit," said Sean E. Harper, M.D., executive vice president of Research and Development at Amgen. "This approval for Vectibix reinforces the significance of biomarker testing as a treatment planning tool in metastatic colorectal cancer and further validates the potential for precision medicine to optimize patient outcomes."

Most common adverse reactions (≥ 20 percent) of Vectibix as monotherapy are skin rash with variable presentations, paronychia, fatigue, nausea and diarrhea. Most common adverse reactions (≥ 20 percent) with Vectibix plus FOLFOX are diarrhea, stomatitis, mucosal inflammation, asthenia, paronychia, anorexia, hypomagnesemia, hypokalemia, rash, acneiform dermatitis, pruritus and dry skin. The most common serious adverse reactions (≥ 2 percent difference between treatment arms) were diarrhea and dehydration.

About Colorectal Cancer
Colorectal cancer is the third most common cancer found in both men and women in the U.S., with approximately 135,000 new cases estimated to be diagnosed in 2017.1 Approximately 20 percent of colon cancers are diagnosed at the metastatic stage when the disease has already spread to distant organs, a diagnosis associated with only a 12 percent five-year survival rate.2 Using molecular approaches to identify unique genetic signatures in mCRC has the potential to help improve treatment outcomes.3

About the ‘0007 Study (NCT01412957)
This Phase 3 global, multicenter, randomized, open-label study was designed to evaluate OS with Vectibix and BSC compared to BSC alone in patients with chemorefractory wild-type KRAS (exon 2) mCRC.

The key efficacy analysis of the study showed that Vectibix plus BSC (n=189) was statistically significant to BSC alone (n=188). Patients with wild-type KRAS (exon 2) mCRC treated with Vectibix plus BSC achieved a median OS of 10 months compared to 7.4 months for patients treated with BSC alone (HR=0.73; 95 percent CI: 0.57, 0.93, p=0.0096).

In patients with mutant RAS mCRC, no differences in OS or progression-free survival (PFS) were observed between the treatment arms [OS HR=0.99 (95 percent CI: 0.49, 2.00); PFS HR=1.03 (95 percent CI: 0.56, 1.90)].

No new safety signals were seen in the ‘0007 study. The safety profile was comparable to the known safety profile of Vectibix when administered as a single agent.

About the PRIME Study
PRIME was a randomized, Phase 3, open-label study of Vectibix and FOLFOX combination therapy versus FOLFOX monotherapy in 1,183 adults with untreated mCRC who had an Eastern Cooperative Oncology Group (ECOG) performance status of 0–2. The primary endpoints were PFS and OS.

The PRIME study showed that patients with wild-type KRAS tumors (exon 2) achieved statistically significant improvement in PFS with Vectibix and FOLFOX versus FOLFOX alone (9.6 versus 8.0 months [HR=0.80; 95 percent CI: 0.66, 0.97, p=0.02]) and a significant 4.4 month improvement in OS versus FOLFOX alone (23.8 versus 19.4 months [HR=0.82, 95 percent CI: 0.70, 0.98]).

Analyses from the PRIME study evaluated the treatment effect of Vectibix plus FOLFOX compared with FOLFOX alone in the wild-type RAS subgroup and found that Vectibix plus FOLFOX extended the prespecified major efficacy measure of PFS versus FOLFOX alone, 10.1 months versus 7.9 months, respectively (HR=0.72; 95 percent CI: 0.58, 0.90). The study demonstrated that the median OS for patients treated with Vectibix plus FOLFOX was 25.8 months versus 20.2 months for those treated with FOLFOX alone (HR=0.77; 95 percent CI: 0.64, 0.94). There were no OS or PFS benefit in Vectibix-treated patients with mutant RAS mCRC.

About the ASPECCT Study
ASPECCT was a global, randomized, multicenter, open-label, Phase 3 non-inferiority trial designed to compare the effect of Vectibix versus Erbitux (cetuximab) on OS for monotherapy treatment of 1,010 patients with EGFR-expressing, chemorefractory wild-type KRAS (exon 2) mCRC.

The ASPECCT study met its primary endpoint of non-inferiority for improving OS in patients taking Vectibix (n=499) versus Erbitux (n=100) as a single agent for the treatment of mCRC in patients with wild-type KRAS tumors who have not responded to chemotherapy. Patients treated with Vectibix demonstrated an OS of 10.4 months versus 10 months for patients treated with Erbitux (HR=0.97; 95 percent CI: 0.84-1.11).

About Vectibix (panitumumab)
Vectibix is the first fully human monoclonal anti-EGFR antibody approved by the FDA for the treatment of mCRC. Vectibix was approved in the U.S. in September 2006 as a monotherapy for the treatment of patients with EGFR-expressing mCRC after disease progression after prior treatment with fluoropyrimidine-, oxaliplatin-, and irinotecan-containing chemotherapy.

In May 2014, the FDA approved Vectibix for use in combination with FOLFOX, as first-line treatment in patients with wild-type KRAS (exon 2) mCRC. With this approval, Vectibix became the first-and-only biologic therapy indicated for use with FOLFOX, one of the most commonly used chemotherapy regimens, in the first-line treatment of mCRC for patients with wild-type KRAS mCRC.

In June 2017, the FDA approved a refined indication for Vectibix for use in in patients with wild-type RAS (defined as wild-type in both KRAS and NRAS as determined by an FDA-approved test for this use) mCRC.

Important U.S. Product Information
Vectibix is indicated for the treatment of patients with wild-type RAS (defined as wild-type in both KRAS and NRAS as determined by an FDA-approved test for this use) metastatic colorectal cancer (mCRC):

As first-line therapy in combination with FOLFOX.
As monotherapy following disease progression after prior treatment with fluoropyrimidine-, oxaliplatin-, and irinotecan-containing chemotherapy.
Limitation of Use:
Vectibix is not indicated for the treatment of patients with RAS-mutant mCRC or for whom RAS mutation status is unknown.

WARNING: DERMATOLOGIC TOXICITY
Dermatologic Toxicity: Dermatologic toxicities occurred in 90% of patients and were severe (NCI-CTC grade 3 or higher) in 15% of patients receiving Vectibix monotherapy.

In Study 20020408, dermatologic toxicities occurred in 90% of patients and were severe (NCI-CTC grade 3 and higher) in 15% of patients with mCRC receiving Vectibix. The clinical manifestations included, but were not limited to, acneiform dermatitis, pruritus, erythema, rash, skin exfoliation, paronychia, dry skin, and skin fissures.

Monitor patients who develop dermatologic or soft tissue toxicities while receiving Vectibix for the development of inflammatory or infectious sequelae. Life-threatening and fatal infectious complications including necrotizing fasciitis, abscesses, and sepsis have been observed in patients treated with Vectibix. Life-threatening and fatal bullous mucocutaneous disease with blisters, erosions, and skin sloughing has also been observed in patients treated with Vectibix. It could not be determined whether these mucocutaneous adverse reactions were directly related to EGFR inhibition or to idiosyncratic immune-related effects (eg, Stevens Johnson syndrome or toxic epidermal necrolysis). Withhold or discontinue Vectibix for dermatologic or soft tissue toxicity associated with severe or life-threatening inflammatory or infectious complications. Dose modifications for Vectibix concerning dermatologic toxicity are provided in the product labeling.

Vectibix is not indicated for the treatment of patients with colorectal cancer that harbor somatic RAS mutations in exon 2 (codons 12 and 13), exon 3 (codons 59 and 61), and exon 4 (codons 117 and 146) of either KRAS or NRAS and hereafter is referred to as "RAS."

Retrospective subset analyses across several randomized clinical trials were conducted to investigate the role of RAS mutations on the clinical effects of anti-EGFR-directed monoclonal antibodies (panitumumab or cetuximab). Anti-EGFR antibodies in patients with tumors containing RAS mutations resulted in exposing those patients to anti-EGFR related adverse reactions without clinical benefit from these agents. Additionally, in Study 20050203, 272 patients with RAS-mutant mCRC tumors received Vectibix in combination with FOLFOX and 276 patients received FOLFOX alone. In an exploratory subgroup analysis, OS was shorter (HR = 1.21, 95% CI: 1.01-1.45) in patients with RAS-mutant mCRC who received Vectibix and FOLFOX versus FOLFOX alone.

Progressively decreasing serum magnesium levels leading to severe (grade 3-4) hypomagnesemia occurred in up to 7% (in Study 20080763) of patients across clinical trials. Monitor patients for hypomagnesemia and hypocalcemia prior to initiating Vectibix treatment, periodically during Vectibix treatment, and for up to 8 weeks after the completion of treatment. Other electrolyte disturbances, including hypokalemia, have also been observed. Replete magnesium and other electrolytes as appropriate.

In Study 20020408, 4% of patients experienced infusion reactions and 1% of patients experienced severe infusion reactions (NCI-CTC grade 3-4). Infusion reactions, manifesting as fever, chills, dyspnea, bronchospasm, and hypotension, can occur following Vectibix administration. Fatal infusion reactions occurred in postmarketing experience. Terminate the infusion for severe infusion reactions.

Severe diarrhea and dehydration, leading to acute renal failure and other complications, have been observed in patients treated with Vectibix in combination with chemotherapy.

Fatal and nonfatal cases of interstitial lung disease (ILD) (1%) and pulmonary fibrosis have been observed in patients treated with Vectibix. Pulmonary fibrosis occurred in less than 1% (2/1467) of patients enrolled in clinical studies of Vectibix. In the event of acute onset or worsening of pulmonary symptoms interrupt Vectibix therapy. Discontinue Vectibix therapy if ILD is confirmed.

In patients with a history of interstitial pneumonitis or pulmonary fibrosis, or evidence of interstitial pneumonitis or pulmonary fibrosis, the benefits of therapy with Vectibix versus the risk of pulmonary complications must be carefully considered.

Exposure to sunlight can exacerbate dermatologic toxicity. Advise patients to wear sunscreen and hats and limit sun exposure while receiving Vectibix.

Keratitis and ulcerative keratitis, known risk factors for corneal perforation, have been reported with Vectibix use. Monitor for evidence of keratitis or ulcerative keratitis. Interrupt or discontinue Vectibix for acute or worsening keratitis.

In an interim analysis of an open-label, multicenter, randomized clinical trial in the first-line setting in patients with mCRC, the addition of Vectibix to the combination of bevacizumab and chemotherapy resulted in decreased OS and increased incidence of NCI-CTC grade 3-5 (87% vs 72%) adverse reactions. NCI-CTC grade 3-4 adverse reactions occurring at a higher rate in Vectibix-treated patients included rash/acneiform dermatitis (26% vs 1%), diarrhea (23% vs 12%), dehydration (16% vs 5%), primarily occurring in patients with diarrhea, hypokalemia (10% vs 4%), stomatitis/mucositis (4% vs < 1%), and hypomagnesemia (4% vs 0).

NCI-CTC grade 3-5 pulmonary embolism occurred at a higher rate in Vectibix-treated patients (7% vs 3%) and included fatal events in three (< 1%) Vectibix-treated patients. As a result of the toxicities experienced, patients randomized to Vectibix, bevacizumab, and chemotherapy received a lower mean relative dose intensity of each chemotherapeutic agent (oxaliplatin, irinotecan, bolus 5-FU, and/or infusional 5-FU) over the first 24 weeks on study compared with those randomized to bevacizumab and chemotherapy.

Vectibix can cause fetal harm when administered to a pregnant woman. Advise pregnant women and females of reproductive potential of the potential risk to a fetus. Advise females of reproductive potential to use effective contraception during treatment, and for at least 2 months after the last dose of Vectibix.

In monotherapy, the most commonly reported adverse reactions (≥ 20%) in patients with Vectibix were skin rash with variable presentations, paronychia, fatigue, nausea, and diarrhea.

The most commonly reported adverse reactions (≥ 20%) with Vectibix + FOLFOX were diarrhea, stomatitis, mucosal inflammation, asthenia, paronychia, anorexia, hypomagnesemia, hypokalemia, rash, acneiform dermatitis, pruritus, and dry skin. The most common serious adverse reactions (≥ 2% difference between treatment arms) were diarrhea and dehydration.

To see the Vectibix Prescribing Information, including Boxed Warning visit www.vectibix.com.

On June 29, 2017 Aduro Biotech, Inc. (Nasdaq:ADRO), a biopharmaceutical company with three distinct immunotherapy technologies, reported the initiation of the Phase 2 clinical study designed to evaluate the tolerability, safety and efficacy of CRS-207, Aduro’s lead listeria-based immunotherapy construct (LADD), in combination with KEYTRUDA (pembrolizumab), an anti-PD-1 therapy marketed by Merck (known as MSD outside the United States and Canada), for the treatment of patients with gastroesophageal adenocarcinoma who have failed two prior chemotherapy treatments (Press release, Aduro Biotech, JUN 29, 2017, View Source [SID1234519730]).

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Clinical trial sites have been activated and the study is open for enrollment. "Gastroesophageal adenocarcinoma is an aggressive, difficult to treat cancer for which there is currently no FDA-approved therapy for those in need of a third-line treatment option," stated Natalie Sacks, M.D., chief medical officer of Aduro Biotech. "We are pleased to be evaluating the CRS-207/KEYTRUDA combination in this Phase 2 clinical trial for late-stage gastroesophageal cancer patients and hope to see similar synergistic anti-cancer activity as observed in preclinical studies with this investigational treatment regimen." The multicenter, single-arm, open-label Phase 2 study is designed to evaluate the safety and efficacy of CRS-207 with KEYTRUDA in adults with gastric, gastroesophageal junction, or esophageal adenocarcinoma who have received two prior systemic chemotherapy treatment regimens for advanced disease. The trial will be conducted at up to 15 sites and will enroll approximately 70 patients. The primary efficacy endpoint is objective response rate, defined as the proportion of patients with either complete or partial responses. For additional information about the study, please visit www.clinicaltrials.gov (search identifier NCT03122548). About Gastroesophageal Adenocarcinoma Gastroesophageal adenocarcinoma is an aggressive form of cancer effecting the esophagus and/or stomach. In 2015, the National Cancer Institute estimated 16,980 new diagnoses of esophageal cancer and 24,590 new diagnoses of gastric cancer will occur in the United States, with an overall five-year survival rate of 20 percent and 30 percent, respectively. Approximately 50 percent of patients present with unresectable or locally advanced disease at the time of diagnosis. Up to approximately 50 percent of these cancer tumor types are known to express mesothelin, a tumor-associated antigen with limited expression on the surface of normal tissues. Currently, there is no U.S. Food and Drug Administration-approved therapy for the third-line treatment of gastroesophageal adenocarcinoma. About LADD and CRS-207 LADD is Aduro’s proprietary platform of live, attenuated double-deleted Listeria monocytogenes strains that have been engineered to generate an innate immune response and to express tumor-associated antigens to induce tumor-specific T cell-mediated immunity. CRS-207, the company’s lead LADD product candidate, has been engineered to express the tumor-associated antigen mesothelin, which is over-expressed in many cancers including gastric cancer and esophageal adenocarcinoma, as well as mesothelioma, pancreatic, non-small cell lung, ovarian and endometrial cancers.