On January 10, 2016 Vertex Pharmaceuticals Incorporated (NASDAQ:VRTX) reported key 2016 business priorities to support the company’s efforts to discover and develop medicines for people with cystic fibrosis (CF) and other serious diseases (Press release, Vertex Pharmaceuticals, JAN 10, 2016, View Source [SID:1234508735]). Approximately 25,000 people worldwide are currently eligible for one of Vertex’s two approved medicines for CF, and Vertex today provided an update on its plans to develop new medicines that have the potential to treat all people with CF. These updates were made in advance of the 34th Annual J.P. Morgan Healthcare Conference that begins tomorrow in San Francisco. Vertex’s Chairman, President and Chief Executive Officer, Jeffrey Leiden, M.D., Ph.D., will discuss the company’s 2016 priorities as part of a live presentation on Monday, January 11 at 9:30 a.m. PT (12:30 p.m. ET). The presentation will be webcast on Vertex’s website, www.vrtx.com.

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Vertex also today provided preliminary financial results for 2015 and a financial outlook for 2016. Vertex expects to report total 2015 net product revenues of approximately $980 million, including fourth quarter 2015 net product revenues of approximately $180 million for KALYDECO (ivacaftor) and approximately $220 million for ORKAMBI (lumacaftor/ivacaftor). As of December 31, 2015 more than 4,500 people had begun treatment with ORKAMBI in the U.S. Vertex also today provided 2016 net product revenue guidance of $670 to $690 million for KALYDECO and guidance of $1.18 to $1.23 billion for non-GAAP operating expenses, excluding costs of revenues. The company expects to provide net product revenue guidance for ORKAMBI during 2016 after gaining additional information on the launch of ORKAMBI in the U.S.

"As we enter 2016, Vertex is a company with the scientific expertise and the financial strength to consistently discover and develop transformational medicines for people with cystic fibrosis and other serious diseases," said Dr. Leiden. "With the approvals of ORKAMBI in 2015, the continued expansion in the number of people eligible for KALYDECO and the advancement of our CF pipeline, we’ve made tremendous progress toward our goal of developing new medicines for all people with cystic fibrosis."

Approved Medicines for Cystic Fibrosis

With the approval of ORKAMBI in the U.S. and Europe, and continued expansion in the number of people eligible for treatment with KALYDECO, approximately 25,000 people are now eligible for KALYDECO or ORKAMBI to treat the cause of their CF. +or KALYDECO or ORKAMBI.

Vertex today provided the following updates for KALYDECO, ORKAMBI and the company’s efforts to develop new medicines with the goal of treating all people with CF:

ORKAMBI – Approximately 20,500 people in the U.S. and Europe Eligible for Treatment

In 2015, Vertex received regulatory approval for ORKAMBI for the treatment of people with CF aged 12 and older with two copies of the F508del mutation in the U.S. and European Union, where together there are approximately 20,500 people who are eligible for treatment with ORKAMBI. Following the approval in the European Union in November 2015, Vertex has now begun the country-by-country reimbursement approval process.

Ongoing Phase 3 Studies in Children Ages 6 to 11: Vertex is currently conducting two Phase 3 clinical studies of lumacaftor/ivacaftor in children 6 to 11 years of age to support potential approval in children as young as six years of age. The first study is evaluating lumacaftor/ivacaftor in approximately 50 children to support the potential FDA approval in children ages 6 to 11. The primary endpoint of this six-month study is safety. Vertex plans to submit an sNDA to the FDA in the first half of 2016, pending data from this study. There are approximately 2,400 children ages 6-11 who have two copies of the F508del mutation in the U.S. To support approval in the European Union, a six-month Phase 3 efficacy study is ongoing to evaluate lumacaftor/ivacaftor in approximately 200 children. The primary endpoint of the second study is the absolute change in lung clearance index. There are approximately 3,400 children ages 6-11 who have two copies of the F508del mutation in the European Union.

KALYDECO – Continued label-expansion efforts to increase the number of people eligible for treatment

Supplemental New Drug Application in Residual Function Mutations: On October 7, Vertex announced that a supplemental New Drug Application for the use of KALYDECO in people ages two and older with one of 23 residual function mutations was accepted for review by the FDA. The FDA granted Vertex’s request for Priority Review of this sNDA, and a target review date of February 7, 2016 was set under the Prescription Drug User Fee Act (PDUFA) for the FDA’s decision on the sNDA. More than 1,500 people with CF in the U.S. have the mutations represented in the sNDA.

Study in Children Less Than Two Years of Age: As CF-related complications can emerge early in life, Vertex is preparing to initiate a clinical study of KALYDECO in children less than two years of age to evaluate the effect of KALYDECO on markers of CF disease in young children. The study will utilize a weight-based dose of KALYDECO granules that can be mixed in soft foods or liquids. The study is expected to begin in the first quarter of 2016 and will enroll infants with one of the 10 mutations for which KALYDECO is currently approved.

Pipeline of Investigational Medicines for CF

VX-661 – Broad Phase 3 program ongoing in multiple groups of people with CF

Four Phase 3 studies of the investigational combination of VX-661 and ivacaftor are ongoing in multiple different groups of people with CF who have at least one copy of the F508del mutation. These studies are enrolling people with CF with the following mutations:

Two Copies of the F508del Mutation
One Copy of the F508del Mutation and a Second Mutation that Results in a Gating Defect in the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Protein
One Copy of the F508del Mutation and a Second Mutation that Results in Residual CFTR Function
One Copy of the F508del Mutation and A Second Mutation that Results in Minimal CFTR Function
The study in people with two copies of the F508del mutation is expected to complete enrollment in mid-2016, and data from this six-month study are expected by early 2017. Part A of the study in people with a mutation that results in minimal CFTR function is expected to complete enrollment in mid-2016, and an interim futility analysis of efficacy data from Part A of the study is expected to be completed by the end of 2016. The two studies in people with gating or residual function mutations are expected to complete enrollment by the end of 2016, and data from these studies are expected in the first half of 2017.

In addition to evaluating the efficacy of the combination regimen, these four Phase 3 studies will also provide safety data on the combination of VX-661 and ivacaftor to support the planned development of a triple combination regimen that includes a next-generation corrector in combination with VX-661 and ivacaftor.

VX-371 – Potential for ENaC inhibitor to amplify effect of CFTR modulation and provide benefit to other groups of people with CF

Vertex is collaborating with Parion Sciences to develop the investigational epithelial sodium channel (ENaC) inhibitor VX-371 as a potential treatment for all people with CF, regardless of CFTR mutation. Parion is currently conducting an exploratory Phase 2a study (known as the CLEAN-CF study) of inhaled VX-371 (P-1037) in approximately 120 people with CF. The study is enrolling people with a confirmed diagnosis of CF and any CFTR mutation. The primary endpoint of the study is safety, and results are expected in mid-2016. Additionally, Vertex plans to conduct a placebo-controlled Phase 2a study to evaluate VX-371 in patients taking lumacaftor/ivacaftor, both with and without the addition of hypertonic saline, who have two copies of the F508del mutation. This Phase 2a study is expected to begin in the first quarter of 2016.

Preclinical evaluation in human bronchial epithelial (HBE) cells from people with CF who have two copies of the F508del mutation showed that the addition of investigational VX-371 to lumacaftor/ivacaftor resulted in an additional increase in both airway surface liquid and cilia beat frequency compared to baseline and to the use of VX-371 or lumacaftor/ivacaftor alone. Improvements in airway surface liquid height and cilia beat frequency are measures of increased hydration of the cell surface.

Next-Generation Correctors -Triple combination studies planned for second half of 2016

Vertex recently began clinical development of two next-generation correctors known as VX-152 and VX-440. Both VX-152 and VX-440 are being evaluated alone and as part of a triple combination with VX-661 and ivacaftor in ongoing Phase 1 studies in healthy volunteers. These studies are evaluating escalating doses of VX-152 and VX-440 for up to 14 days in duration. Pending results of these studies, Vertex plans to initiate Phase 2 studies in people with CF to evaluate VX-440 or VX-152 in combination with VX-661/ivacaftor in the second half of 2016. The Phase 2 studies of a triple combination (VX-152/VX-661/ivacaftor and VX-440/VX-661/ivacaftor) are expected to enroll three groups of people with CF with the following mutations:

Two Copies of the F508del Mutation
One Copy of the F508del Mutation and a Second Mutation that Results in Minimal CFTR Function
One Copy of the F508del Mutation and a Second Mutation that is Known to be Responsive to ivacaftor
The Phase 2 studies are expected to be 28 days in duration.

CRISPR Collaboration – Gene editing collaboration focused on discovering treatments to address the mutations and genes known to cause and contribute to CF

In October 2015, Vertex announced that it had entered into a strategic research collaboration with CRISPR Therapeutics focused on the use of CRISPR’s gene editing technology, known as CRISPR-Cas9, to discover and develop potential new treatments aimed at the underlying genetic causes of human disease. The collaboration will evaluate the use of CRISPR-Cas9 across multiple diseases where targets have been validated through human genetics. As part of the collaboration, Vertex and CRISPR will evaluate the use of CRISPR-Cas9 to potentially correct the mutations in the CFTR gene known to result in the defective protein that causes CF and to edit other genes that contribute to the disease.

Research and Development Programs

Beyond CF, Vertex is advancing multiple research and development programs focused on the treatment of key mechanisms in multiple serious diseases. The company today provided the following updates to its pipeline programs:

Oncology – Three investigational medicines designed to inhibit DNA repair pathways

Vertex has three investigational medicines in early development that are designed to inhibit DNA repair pathways that are fundamental to the survival and proliferation of certain cancers. These investigational medicines, which were discovered by Vertex scientists, may be applicable to the treatment of multiple tumor types.

VX-970: Multiple Ongoing and Planned Studies in People with Solid Tumors: VX-970 is Vertex’s most advanced drug candidate in oncology. By inhibiting a protein kinase known as ATR, VX-970 targets a critical regulator of the DNA damage repair system. Cancer cells often have defects in the DNA damage repair system that contribute to disease progression and drive reliance on ATR for survival from DNA damage. Inhibition of ATR may therefore selectively kill cancer cells under DNA damaging conditions.
Vertex’s strategy is to evaluate VX-970 in early-stage trials in selected tumor types and patient subtypes that are expected to be responsive to ATR inhibition based on biomarker data. These studies will be used to generate data that will inform potential late-stage clinical development. Vertex expects VX-970 to be evaluated as monotherapy and in combination with other cancer therapies, including PARP inhibitors and other targeted agents, chemotherapy, radiotherapy and immuno-oncology therapies. Vertex is currently conducting two Phase 1/2 studies that are enrolling specific cohorts of triple-negative breast cancer patients and non-small cell lung cancer patients. In these studies, VX-970 is being dosed in combination with commonly used DNA-damaging therapies. Vertex anticipates that preliminary clinical data from these studies will be available for presentation at medical meetings in 2016.

In addition to its two ongoing clinical studies of VX-970, Vertex has entered into two cooperative research and development agreements (CRADAs) with the National Cancer Institute to support evaluation of VX-970 across other types of cancers. The CRADA enables NCI to conduct multiple clinical studies that will evaluate treatment with VX-970 in people with non-small cell lung, head and neck, bladder, ovarian and other cancers. The first study conducted under the CRADA with the NCI Center for Cancer Research is ongoing, and the first of up to 7 planned studies under the NCI Division of Cancer Treatment and Diagnosis sponsorship is expected to begin in the first half of 2016.

Vertex is also developing a second ATR inhibitor known as VX-803, which is dosed orally. An ongoing Phase 1 study is evaluating escalating doses of VX-803 alone and in combination with chemotherapy.

VX-984: Phase 1 Study Ongoing: Vertex is developing VX-984, an inhibitor of DNA-dependent protein kinase that also targets the DNA damage repair system. VX-984 may be evaluated in a variety of tumor types in combination with commonly used chemotherapy and/or radiation therapy. Vertex recently initiated the first clinical study of VX-984. The study is evaluating escalating doses of VX-984 alone and in combination with pegylated liposomal doxorubicin.
Pain – Two investigational medicines designed to inhibit sodium channels involved in pain sensation

VX-150: Phase 2 Proof-of-Concept Study in Osteoarthritis: Vertex is developing VX-150 as a potential medicine for the treatment of pain. VX-150 is designed to block pain signaling through inhibition of a sodium channel known as NaV 1.8. Vertex recently completed a Phase 1 study in healthy volunteers to evaluate the safety and pharmacokinetics of VX-150. Based on data from this study, Vertex recently initiated a 14-day Phase 2 proof-of-concept study of VX-150 in approximately 100 people with symptomatic osteoarthritis of the knee. Additionally, Vertex is advancing a second investigational sodium channel inhibitor known as VX-241, which is an inhibitor of a sodium channel known as NaV 1.7. Vertex plans to begin clinical development of VX-241 in the first half of 2016. There is a strong rationale for exploring the treatment of pain through inhibition of these two sodium channels based on human genetics and well-documented roles in pain sensation.
Epithelial Sodium Channel (ENaC) Inhibition -Phase 2 study of VX-371 in primary ciliary dyskinesia (PCD)

In addition to ongoing and planned Phase 2 studies of VX-371 in cystic fibrosis, Vertex and Parion plan to begin the first study of VX-371 in people with primary ciliary dyskinesia (PCD) in the second half of 2016. PCD is a rare genetic disease that results in a loss of function in key ciliary proteins. The defective proteins lead to dysfunctional beating of cilia on the surface of cells, especially in the lungs where the accumulation of mucus can lead to chronic lung infections, bronchiectasis and progressive lung function decline.

Acute Spinal Cord Injury – Phase 2 study of VX-210 planned for first half of 2016

Vertex is developing VX-210 as a potential medicine for acute spinal cord injury. VX-210 is designed to inhibit a protein known as Rho that blocks neural regeneration after injury. A randomized, double-blind, placebo controlled Phase 2b/3 study is expected to begin in the first half of 2016 to evaluate the efficacy and safety of VX-210 in patients with certain acute cervical spinal cord injuries.

Influenza – Janssen advancing novel treatment for influenza discovered by Vertex

JNJ-872 (VX-787) is an investigational medicine for the treatment of influenza discovered by Vertex scientists and being developed by Janssen. As part of the agreement with Janssen, Vertex may receive development and commercial milestone payments as well as royalties on future product sales.

CRISPR Collaboration – Gene editing collaboration focused on genetic diseases, including sickle cell disease

In addition to the focus on the discovery of treatments to address the mutations and genes known to cause and contribute to cystic fibrosis, Vertex and CRISPR Therapeutics are seeking to discover and develop multiple other gene-based treatments for other genetic diseases. The companies will initially seek to discover and develop gene-based treatments for hemoglobinopathies, including sickle cell disease. Additional discovery efforts focused on a specified number of other genetic targets will also be conducted under the collaboration. Vertex has the option to an exclusive license for up to six gene-based treatments that emerge from the four-year research collaboration.

2015 Financial Highlights and 2016 Financial Outlook

"Entering 2016, we have significantly increased the number of people being treated with our CF medicines, which results in increased revenues and positions us to deliver growing earnings while continuing to invest in the discovery of future medicines," said Ian Smith, Executive Vice President and Chief Financial Officer for Vertex. "We have now begun an important transition toward being a company that delivers earnings growth and sustained profitability as we advance multiple potential new medicines for CF and other diseases in the years ahead."

The company will announce its complete year-end and fourth quarter financial results on January 27, 2016 and today provided selected financial results for 2015, as summarized below:

Vertex expects to report 2015 operating expenses, excluding cost of revenues, (combined non-GAAP R&D and SG&A expenses) of approximately $1.06 billion. The company entered 2016 with approximately $1.04 billion in cash, cash equivalents and marketable securities. As of December 31, 2015, Vertex had $300 million outstanding from a credit agreement that provides for a secured loan of up to $500 million.

Vertex also today provided 2016 net product revenue guidance for KALYDECO, guidance for non-GAAP operating expenses, excluding cost of revenues, (combined non-GAAP R&D and SG&A expenses) and an update on the company’s expectation for providing ORKAMBI net revenue guidance in 2016, as summarized below:

2016 Financial Guidance

KALYDECO: Vertex anticipates total 2016 KALYDECO net product revenues of $670 to $690 million, which excludes any revenues related to the potential approval of KALYDECO for people in the U.S. who have residual function mutations. Anticipated 2016 KALYDECO net revenues reflect the expectation for approximately 200 patients with a gating mutation to enroll in a Phase 3 clinical study of VX-661 in combination with ivacaftor who would otherwise receive KALYDECO, which will thus reduce 2016 KALYDECO revenues.

ORKAMBI: The company expects to provide net product revenue guidance for ORKAMBI during 2016 after gaining additional information on the launch of ORKAMBI in the U.S., including:
The total proportion of the 8,500 eligible patients who begin treatment with ORKAMBI in 2016.
The rate at which patients initiate treatment in 2016.
The proportion of initiated patients who remain on treatment.
The compliance rate for patients who remain on treatment.

As of December 31, more than 4,500 people had begun treatment with ORKAMBI in the U.S. since the approval of the medicine in July 2015. Vertex expects the vast majority of eligible patients in the U.S. will begin treatment by the end of 2016.

Vertex expects to recognize revenues from sales of ORKAMBI in the U.S. and Germany in 2016. The company does not anticipate any other significant revenues from European or other countries in 2016.

— Operating Expenses, Excluding Cost of Revenues (Combined Non-GAAP R&D and SG&A Expenses): Vertex expects that its combined non-GAAP R&D and SG&A expenses in 2016 will be in the range of $1.18 to $1.23 billion. The increase as compared to 2015 is primarily a result of expanded development efforts related to the pivotal Phase 3 development program for VX-661 in combination with ivacaftor and for multiple Phase 1 and 2 studies of Vertex’s early-stage and mid-stage pipeline of potential CF medicines and anticipated costs to support the launch of ORKAMBI in new global markets. Vertex’s expected non-GAAP R&D and SG&A expenses exclude stock-based compensation expense and certain other expenses the company anticipates recording in 2016.

U.S. INDICATION AND IMPORTANT SAFETY INFORMATION FOR ORKAMBI (lumacaftor/ivacaftor) TABLETS

ORKAMBI is a combination of lumacaftor and ivacaftor indicated for the treatment of cystic fibrosis (CF) in patients age 12 years and older who are homozygous for the F508del mutation in the CFTR gene. The efficacy and safety of ORKAMBI have not been established in patients with CF other than those homozygous for the F508del mutation.

Worsening of liver function, including hepatic encephalopathy, in patients with advanced liver disease has been reported in some patients with CF while receiving ORKAMBI.

Serious adverse reactions related to elevated transaminases have been reported in patients with CF receiving ORKAMBI and, in some instances, associated with concomitant elevations in total serum bilirubin.

Respiratory events (e.g., chest discomfort, shortness of breath, and chest tightness) were observed more commonly in patients during initiation of ORKAMBI compared to those who received placebo. Clinical experience in patients with percent predicted FEV1 < 40 is limited, and additional monitoring of these patients is recommended during initiation of therapy.

Co-administration of ORKAMBI with sensitive CYP3A substrates or CYP3A substrates with a narrow therapeutic index is not recommended as ORKAMBI may reduce their effectiveness. ORKAMBI may substantially decrease hormonal contraceptive exposure, reducing their effectiveness and increasing the incidence of menstruation-associated adverse reactions. Co-administration with strong CYP3A inducers is not recommended as they may reduce the therapeutic effectiveness of ORKAMBI.

Abnormalities of the eye lens (cataracts) have been reported in pediatric patients treated with ivacaftor, a component of ORKAMBI.

The most common adverse reactions associated with ORKAMBI include shortness of breath, sore throat, nausea, diarrhea, upper respiratory tract infection, fatigue, chest tightness, increased blood creatinine phosphokinase, rash, flatulence, runny nose, and influenza.

Please see the full prescribing information for ORKAMBI.

U.S. INDICATION AND IMPORTANT SAFETY INFORMATION FOR KALYDECO (ivacaftor)

KALYDECO is a cystic fibrosis transmembrane conductance regulatory (CFTR) potentiator indicated for the treatment of cystic fibrosis (CF) in patients age 2 years and older who have one of the following mutations in the CFTR gene: G551D, G1244E, G1349D, G178R, G551S, S1251N, S1255P, S549N, S549R or R117H.

KALYDECO is not effective in patients with CF with 2 copies of the F508del mutation (F508del/F508del) in the CFTR gene. The safety and efficacy of KALYDECO in children with CF younger than 2 years of age have not been studied. The use of KALYDECO in children under the age of 2 years is not recommended.

High liver enzymes (transaminases; ALT and AST) have been reported in patients with CF receiving KALYDECO.

Use of KALYDECO with medicines that are strong CYP3A inducers substantially decreases exposure of KALYDECO and may diminish effectiveness. Therefore, co-administration is not recommended. The dose of KALYDECO must be adjusted when used concomitantly with strong and moderate CYP3A inhibitors or when used in patients with moderate or severe hepatic disease.

Cases of non-congenital lens opacities/cataracts have been reported in pediatric patients treated with KALYDECO.

The most common side effects associated with KALYDECO include headache; upper respiratory tract infection (common cold), including sore throat, nasal or sinus congestion, and runny nose; stomach (abdominal) pain; diarrhea; rash; nausea; and dizziness.

Please see the full prescribing information for KALYDECO.

On January 11, 2016 Sanofi and Warp Drive Bio, a privately held biotechnology company using the molecules and mechanisms of nature to discover and develop transformative medicines, reported that they have extended and reshaped their existing collaboration utilizing Warp Drive’s proprietary SMART(TM) (Small Molecule Assisted Receptor Targeting) and Genome Mining platforms to discover novel oncology therapeutics and antibiotics (Press release, Sanofi, JAN 10, 2016, View Source [SID:1234508727]).

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Sanofi, who has been a major investor and strategic partner since Warp Drive’s inception in 2012, and Warp Drive have entered into a research collaboration and exclusive license focused on the development of drugs targeting important human oncogenes including RAS, which has one of the highest mutation rates in cancer – and new antibiotics targeting Gram-negative bacteria. Warp Drive Bio retains the rights to deploy its platforms to pursue discovery and development against all other targets, both alone and in collaboration with other companies.

The collaboration is an outgrowth of Sanofi’s Sunrise initiative, a strategic partnership model that seeks to invest in early stage opportunities that align with Sanofi’s expert development and commercialization abilities.

"Our partnership with Warp Drive is a perfect example of open innovation which allows Sanofi to collaborate with innovative companies and combine unique areas of expertise to advance drug development in a meaningful way", said Elias Zerhouni, M.D., President, Sanofi, Global R&D. "This is an exciting collaboration for Sanofi as it could yield potentially lifesaving oncology and antibiotic therapies for patients by utilizing cutting-edge technology platforms."

"This reshaped alliance enables joint and independent product development by Warp Drive, an important step in our evolution as we advance a therapeutic pipeline using our proprietary platforms," said Laurence Reid, Ph.D., Chief Executive Officer, Warp Drive Bio. "Since our inception, Sanofi has been highly supportive of our progress and we are very pleased to reshape our strategic collaboration to focus on novel therapeutics in areas of great unmet need."

Under the terms of the Agreement, Warp Drive will lead the research collaboration for a period of five years and Sanofi will receive worldwide exclusive licenses to develop and commercialize the candidates discovered during the research term.

Warp Drive is eligible to receive from Sanofi cumulative payments in excess of $750 million across four successful collaboration programs, including an equity investment by Sanofi, research, clinical, and regulatory milestones, and research and development services.

The companies will initially focus on three defined oncology programs targeting different mutants and states of the RAS oncogenic protein. Warp Drive has the option to lead development of the therapeutic candidates from post IND filing up to phase 2 clinical studies, with Sanofi leading development through the filing of new drug applications. Sanofi will lead global commercial activities on product(s) resulting from the collaboration and Warp Drive has the option to co-commercialize oncology therapeutics in the U.S. market. Sanofi will manage all ex-US commercial activities and Warp Drive will receive commercial milestones and tiered royalties on product sales.

The antibiotic collaboration will focus on the discovery and development of novel Gram-negative therapeutics and Sanofi will lead all development activities. Sanofi will be responsible for global commercialization of the antibiotic products and will pay Warp Drive research, clinical, and regulatory milestones, plus tiered royalties and commercial milestones based on global sales.

A review of Warp Drive’s SMART platform and its application to RAS and other important disease targets was discussed in a plenary session at the recent AACR (Free AACR Whitepaper)-NCI-EORTC AACR-NCI-EORTC (Free AACR-NCI-EORTC Whitepaper) International Conference on Molecular Targets and Cancer Therapeutics (EORTC-NCI-AACR) (Free ASGCT Whitepaper) (Free EORTC-NCI-AACR Whitepaper). Warp Drive believes that novel therapeutics targeting RAS will represent a significant advance in the future of oncology drug development. Moreover, creating a new modality for currently undruggable targets by deploying the company’s SMART platform has the potential to open up new avenues for additional therapeutics in oncology and other important disease areas.

On January 11, 2016 Novartis reported that it is adding to its diverse and deep immuno-oncology pipeline through a strategic alliance and licensing agreement with Surface Oncology (Press release, Novartis, JAN 10, 2016, View Source [SID:1234508724]). The agreement gives Novartis access to four pre-clinical programs that target regulatory T cell populations, inhibitory cytokines, and immunosuppressive metabolites in the tumor microenvironment. These programs will be explored as monotherapies and in combination with other complementary therapies in Novartis’ immuno-oncology and targeted therapy portfolios.

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"We have several programs now in the clinic that aggressively address the complexities of the tumor microenvironment," said Mark Fishman, President of the Novartis Institutes for BioMedical Research. "This alliance with Surface Oncology is another building block in our strategy to develop a portfolio of programs that we believe will lead the next wave of immuno-oncology medicines."

At the start of 2015 Novartis launched a new immuno-oncology research team led by cancer vaccine pioneer Glenn Dranoff. In a short period of time, this team has rapidly built a broad portfolio of clinical and pre-clinical programs focused on stimulating the body’s immune system to combat cancers through targeting critical regulatory steps in the anti-tumor immune response. Today the company’s immuno-oncology portfolio includes novel checkpoint inhibitors, chimeric antigen receptor T-cell (CART) technology, myeloid cell targeting agents, the T cell stimulating factor IL-15, STING agonists that enhance immune recognition of cancers, and adenosine receptor antagonists and TGF-beta blocking antibodies that overcome immunosuppression in the tumor microenvironment.

Seven of these candidates are already in clinical trials and five more are expected to enter the clinic individually and as combinations by the end of 2016. Novartis’ myeloid cell targeting program (MCS110), anti-TIM-3 program (MGB453), IL-15-agonist (NIZ985) checkpoint inhibitors targeting PD-1 (PDR001) and LAG-3 (LAG525), and a small molecule adenosine receptor antagonist (NIR178) are now in phase 1 clinical trials. The CART program (CTL019) is in phase 2 clinical trials. A STING agonist (MIW815), a GITR agonist, and an anti-TGF-beta antibody are progressing toward first-in-human clinical trials in 2016.

This rich immuno-oncology pipeline together with a deep targeted therapy portfolio provides Novartis with the opportunity to attack cancer in powerful and complementary ways: through enhancing immune-mediated tumor destruction and promoting direct tumor cell killing. Together, these synergistic approaches may accomplish more durable clinical benefits for a larger proportion of cancer patients.

On January 10, 2015 Innate Pharma and OREGA Biotech reported that they have entered into an exclusive licensing agreement by which OREGA Biotech grants Innate Pharma full worldwide rights to its program of first-in-class anti-CD39 checkpoint inhibitors (Press release, Innate Pharma, JAN 10, 2016, View Source [SID:1234508721]). This license agreement arose from a fruitful research collaboration between the two companies initiated in 2014.

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CD39, initially discovered as a checkpoint inhibitor by OREGA Biotech’s cofounder Dr. Armand Bensussan in collaboration with INSERM, is expressed on both regulatory T cells and tumor cells. It plays a major role in promoting immunosuppression through the pathway degrading adenosine triphosphate (ATP) into adenosine. Within the tumor microenvironment, ATP promotes immune cell-mediated killing of cancer cells. In contrast, adenosine accumulation causes immune suppression and dysregulation of immune cell infiltrates resulting in tumor spreading.

Blockade of CD39 may therefore stimulate anti-tumor immunity across a wide range of tumors by preventing the production of adenosine and by promoting the accumulation of ATP in the tumor microenvironment . OREGA Biotech’s program to develop a CD39-blocking antibody thus aims at restoring a pro-inflammatory micro-environment. It is currently in preclinical development.

Yannis Morel, Chief Business Officer of Innate Pharma, said: "CD39 is an exciting target to counteract the immunosuppressive tumor microenvironment and may complement other therapies that act to boost anti-tumor activities of T cells and NK cells". He added: "We are very pleased of the work we have done with OREGA Biotech. Their scientific expertise was key to this collaboration. It was a very efficient and successful way to advance this new first-in-class antibody program, which could become part of the next generation of checkpoint inhibitors. In the very competitive field of immuno-oncology, this kind of agreement is important to further strengthen our unique position in the field and our long term development perspectives".

Jeremy Bastid, Chief Operating Officer of OREGA Biotech, added: "We are delighted to enter into this licensing agreement with Innate Pharma. The involvement of this pathway in human tumors is broad and we believe that this CD39-blocking agent could become a valuable immune checkpoint inhibitor in the future". Gilles Alberici, Chief Executive Officer and cofounder of OREGA Biotech, further commented: "It is a major step forward for OREGA Biotech as it represents the accomplishment of our business model, which relies on our capacity to discover novel immune checkpoint inhibitors and partner early with larger biotech or pharma companies for the preclinical development. We have been impressed by Innate Pharma’s expertise and we are convinced that they will successfully bring this program to the clinic".

Innate Pharma and OREGA Biotech will present data on this program at an upcoming scientific meeting.

Under the terms of the agreement, OREGA Biotech will receive undisclosed upfront payment, milestone payments for preclinical, clinical and regulatory achievements as well as royalties on net sales.

On January 10, 2016 ImmunoGen, Inc. (Nasdaq: IMGN), a biotechnology company that develops targeted anticancer therapeutics using its antibody-drug conjugate (ADC) technology, reported recent product program advancements and anticipated 2016 events in advance of the 34th Annual J.P. Morgan Healthcare Conference (Press release, ImmunoGen, JAN 10, 2016, View Source [SID:1234508718]).

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"ImmunoGen made significant progress in 2015 that is anticipated to lead to a number of meaningful events in 2016 and beyond," commented Daniel Junius, President and CEO. "For mirvetuximab soravtansine, our lead program, these include completing patient enrollment in three disease-specific cohorts that can provide informative data in 2016. They also include putting in place the FORWARD I trial intended to support an Accelerated Approval pathway as well as the FORWARD II combination trial. Additionally, we put in place a trial to assess our IMGN529 in combination with rituximab, established a development strategy for coltuximab ravtansine, and submitted an IND for IMGN779, the first ADC to utilize one of our new DNA-acting cancer-killing agents."

Mr. Junius continued, "Our partners, too, made important progress, with Roche reporting global growth in Kadcylasales, encouraging initial clinical findings reported with Bayer’s anetumab ravtansine, Novartis, Lilly, Sanofi, and Amgen all advancing ADCs with ImmunoGen technology into the clinic, and a new collaboration established with Takeda. We expect several key partner events in 2016, including the advancement of two programs into trials designed to support product registration."

Mirvetuximab soravtansine – the first folate receptor α (FRα)-targeting ADC.

2015 accomplishments include:

Presentation of the first clinical data from assessment in a disease-specific patient population that demonstrated the potential of mirvetuximab soravtansine, used alone, to make a meaningful difference for patients with heavily pretreated FRα-positive ovarian cancer.
Activity was most notable among patients with high or medium amounts of FRα on their cancer cells, the majority of the patients.
Completion of patient enrollment in three disease-specific Phase I cohorts (enrollment target):
Patients with platinum-resistant FRα-positive ovarian cancer (40 patients);
Patients with platinum-resistant FRα-positive ovarian cancer consenting to the required biopsies (20 patients); and
Patients with relapsed/refractory FRα-positive endometrial cancer (20 patients).
Establishment of a development strategy that includes:
Assessment as single-agent therapy for patients with FRα-positive ovarian cancer treated with 3-4 prior regimens. This Phase 2 trial, FORWARD I, is intended to support an Accelerated Approval pathway.

In December, ImmunoGen and the GOG Foundation, Inc. entered into a partnership designed to help patients with ovarian cancer learn about FORWARD I and, if appropriate, enroll in the study. Patient dosing in trial is poised to start.
Assessment for FRα-positive ovarian cancer in three doublet combinations – with either pegylated liposomal doxorubicin (Doxil), bevacizumab (Avastin), or carboplatin; additional cohorts are possible. ImmunoGen is conducting this Phase 1b/2 trial, FORWARD II, to potentially expand the number of patients able to benefit from mirvetuximab soravtansine. Patient dosing is underway.
Preclinical evaluation of additional types of cancers for potential clinical assessment.
Events anticipated in 2016 include:

Meeting with regulators in 1H2016 on the mirvetuximab soravtansine development program, including the design of the second stage of the FORWARD I trial.
Presentation of clinical data from the 40-patient ovarian cancer cohort at a medical meeting in 2Q2016.
Presentation of clinical data from additional expansion cohorts.
Advancing FORWARD I and FORWARD II. ImmunoGen plans to ultimately have more than 50 centers open in the US, Canada, and Western Europe for FORWARD I patient enrollment.
IMGN529 – CD37-targeting ADC for diffuse-large B-cell lymphoma (DLBCL) and potentially other non-Hodgkin lymphoma (NHL) subtypes.

2015 accomplishments include:

Completion of dosing-finding Phase 1 evaluation of IMGN529 used as monotherapy. IMGN529 demonstrated encouraging single-agent activity in patients with heavily pretreated NHL, particularly ones with DLBCL.
Establishment of strategy to evaluate IMGN529 in combination with rituximab (Rituxan) in a Phase 2 trial based on distinctive synergy seen in preclinical models.
Design and start of implementation of this Phase 2 trial, with patient dosing expected to start shortly.

Anticipated in 2016:

Advancing Phase 2 combination trial.
Potentially other program updates.
Coltuximab ravtansine – CD19-targeting ADC for DLBCL and potentially other NHL subtypes.

2015 accomplishments include:

Regaining coltuximab ravtansine rights from Sanofi.
Establishment of strategy to advance in a combination regimen.
Preclinical evaluation of alternatives for selection of regimen to be assessed clinically.

Events anticipated in 2016 include:

Disclosure of combination regimen to be assessed in 1H2016.
Initiation of Phase 2 combination study midyear.
IMGN779 – Novel CD33-targeting ADC for acute myeloid leukemia (AML) and potentially other malignancies. IMGN779 is the first ADC utilizing one of ImmunoGen’s new DNA-acting IGNs as the cancer-killing agent.

2015 accomplishments include:

IND submitted and active, ImmunoGen’s fourth IND in four years.
Events anticipated in 2016 include:

Initiation of Phase 1 testing for the treatment of AML in 1H2016.
Partner Programs – ImmunoGen has a distinctive record of successful partnerships.

There are now ten novel anticancer compounds, including Kadcyla, in the clinic for a broad range of solid and liquid cancers through ImmunoGen partnerships with Amgen, Bayer, Biotest, Lilly, Novartis, Roche and Sanofi.

2015 accomplishments include:

Amgen, Lilly, Novartis and Sanofi each advanced a novel ADC with ImmunoGen technology into clinical testing.
Study investigators presented encouraging Phase 1 clinical findings with Bayer’s anetumab ravtansine in pretreated mesothelioma.
A collaboration was established with Takeda in early 2015, and in December, Takeda took its first license for the exclusive right to develop ADCs to an undisclosed target using ImmunoGen technology. The taking of this license triggers ImmunoGen recognition of approximately $8.6 million of (non-cash) revenue in its quarter ending December 31, 2015.
In December, CytomX announced it is advancing a novel anticancer agent targeting CD166 using its ProbodyTM technology and ImmunoGen’s ADC technology under a strategic collaboration established between the companies in early 2014. This event does not impact ImmunoGen financial results.
Events anticipated in 2016 include:

Two partner compounds begin testing in trials designed to support product registration.
At least one additional partner compound disclosed and/or advances into clinical testing.
Cash Position

ImmunoGen will report the financial results for the quarter ended December 31, 2015 on January 29, 2016. The Company noted that it ended the quarter with approximately $212 million in cash and cash equivalents and had no debt.