On January 26, 2022 Vertex Pharmaceuticals Incorporated (Nasdaq: VRTX) reported consolidated financial results for the fourth quarter and full year ended December 31, 2021 and provided full year 2022 financial guidance (Press release, Vertex Pharmaceuticals, JAN 26, 2022, View Source [SID1234607401]).

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"In 2021, Vertex delivered exceptional financial performance, including 22% revenue growth, coupled with important progress across our business. We expanded our leadership in cystic fibrosis– treating more patients than ever before and advancing our next-in-class triple regimen into pivotal studies. In addition, our pipeline beyond CF accelerated and delivered important clinical data in new disease areas," said Reshma Kewalramani, M.D., Chief Executive Officer and President of Vertex. "As we move into 2022, with multiple programs in mid- and late-stage development, there are important milestones ahead. With continued innovation in CF and progress across our pipeline, we are poised to serve many more patients and drive revenue and earnings growth in 2022 and many years into the future."

Full Year 2021 Results
Product revenues increased 22% to $7.57 billion compared to 2020, primarily driven by the launch of KAFTRIO in multiple countries internationally and the performance of TRIKAFTA in the U.S., including the launch of TRIKAFTA in children 6-11 years old in the U.S. Net product revenues in 2021 increased 10% to $5.29 billion in the U.S. and increased 66% to $2.29 billion outside the U.S., compared to 2020.

GAAP net income decreased compared to 2020, primarily due to a $900 million payment in connection with the amendment of Vertex’s collaboration with CRISPR Therapeutics that was recorded as a GAAP R&D expense in the second quarter of 2021.
Non-GAAP net income increased compared to 2020, driven by strong product revenue growth.
Cash, cash equivalents and marketable securities as of December 31, 2021 were $7.5 billion, an increase of approximately $0.9 billion compared to December 31, 2020. The increase was primarily driven by strong operating cash flow partially offset by repurchases of our common stock authorized under our share repurchase programs and the $900 million payment to CRISPR Therapeutics.

Combined GAAP R&D and SG&A expenses increased compared to 2020, primarily due to the $900 million payment to CRISPR in the second quarter of 2021.

Full Year 2021 Results
Product revenues increased 22% to $7.57 billion compared to 2020, primarily driven by the launch of KAFTRIO in multiple countries internationally and the performance of TRIKAFTA in the U.S., including the launch of TRIKAFTA in children 6-11 years old in the U.S. Net product revenues in 2021 increased 10% to $5.29 billion in the U.S. and increased 66% to $2.29 billion outside the U.S., compared to 2020.

GAAP net income decreased compared to 2020, primarily due to a $900 million payment in connection with the amendment of Vertex’s collaboration with CRISPR Therapeutics that was recorded as a GAAP R&D expense in the second quarter of 2021.
Non-GAAP net income increased compared to 2020, driven by strong product revenue growth.
Cash, cash equivalents and marketable securities as of December 31, 2021 were $7.5 billion, an increase of approximately $0.9 billion compared to December 31, 2020. The increase was primarily driven by strong operating cash flow partially offset by repurchases of our common stock authorized under our share repurchase programs and the $900 million payment to CRISPR Therapeutics.

Combined GAAP R&D and SG&A expenses increased compared to 2020, primarily due to the $900 million payment to CRISPR in the second quarter of 2021.

Combined Non-GAAP R&D and SG&A expenses increased compared to 2020, primarily due to the advancement and expansion of Vertex’s pipeline and incremental investment to support the launches of Vertex’s medicines globally.
GAAP income taxes decreased compared to 2020, primarily due to the income tax impact of the $900 million payment to CRISPR and the impact of discrete tax events in 2021 compared to 2020 (Note 1).
Non-GAAP income taxes increased compared to 2020, primarily due to Vertex’s increased operating income.
Fourth Quarter 2021 Results
Product revenues increased 27% to $2.07 billion compared to the fourth quarter of 2020, primarily driven by the strong launches of KAFTRIO in Europe and the performance of TRIKAFTA in the U.S. Net product revenues in the fourth quarter of 2021 increased 16% to $1.39 billion in the U.S. and increased 61% to $679 million outside the U.S., compared to the fourth quarter of 2020.
GAAP and Non-GAAP net income increased compared to the fourth quarter of 2020, driven by strong product revenue growth.

Combined GAAP R&D and SG&A expenses increased compared to the fourth quarter of 2020, primarily due to the advancement and expansion of Vertex’s pipeline, incremental investment to support

the launches of Vertex’s medicines globally, increased collaborative payments related to our business development activities and increased stock-based compensation expenses.
Combined Non-GAAP R&D and SG&A expenses increased compared to the fourth quarter of 2020, primarily due to the advancement and expansion of Vertex’s pipeline and incremental investment to support the launches of Vertex’s medicines globally.
GAAP income taxes decreased compared to the fourth quarter of 2020, primarily due to the impact of discrete tax events recognized in the fourth quarter of 2021 (Note 1) and the income tax impact on sales of certain strategic investments in the fourth quarter of 2020.
Non-GAAP income taxes increased compared to the fourth quarter of 2020, primarily due to Vertex’s increased operating income.
Full Year 2022 Financial Guidance
Vertex today provided full year 2022 financial guidance. Vertex’s product revenue guidance is primarily based on expectations for continued strong performance of TRIKAFTA in the U.S., and KAFTRIO outside the U.S. Vertex’s product revenue guidance reflects management’s expectations for approved products in countries where Vertex has already secured reimbursement.

Key Business Highlights

Cystic Fibrosis (CF) Marketed Products
Vertex anticipates the number of CF patients treated with our medicines will continue to grow as the uptake of TRIKAFTA in the U.S. and the launches of KAFTRIO outside the U.S. continue, we enter into additional reimbursement agreements and achieve new approvals for the treatment of younger patients. Recent progress includes:

•In January 2022, the European Commission and the UK’s Medicines and Healthcare Products Regulatory Agency (MHRA) approved a label extension for KAFTRIO (ivacaftor/tezacaftor/

elexacaftor) in a combination regimen with ivacaftor, for the treatment of CF in children ages 6 through 11 years old who have at least one F508del mutation in the CF transmembrane conductance regulator (CFTR) gene. With these approvals, approximately 1,900 children will be newly eligible for KAFTRIO.
•In the fourth quarter of 2021, we secured additional reimbursement approvals for KAFTRIO (ivacaftor/tezacaftor/elexacaftor) in a combination regimen with ivacaftor for the treatment of CF for eligible patients, including national reimbursement agreements in Spain and the Netherlands. The agreements generally cover people with CF ages 12 years and older who have at least one copy of the F508del mutation and allow us to introduce KAFTRIO in these markets.
•The Phase 3 study of ORKAMBI in patients 12 to 24 months of age met its primary endpoint. ORKAMBI was well tolerated in this patient population, and no new safety concerns were identified. Substantial improvements were seen in sweat chloride, the secondary endpoint of the study. Based on these data, Vertex intends to submit regulatory filings in the U.S. in Q1 and in Europe in Q2 2022.

TRIKAFTA/KAFTRIO is now approved and reimbursed or accessible in more than 20 countries.

R&D pipeline
Vertex is delivering on a diversified pipeline of potentially transformative small molecule, cell and genetic therapies aimed at serious diseases. Recent and anticipated progress for key pipeline programs is noted below.

Cystic Fibrosis
Vertex continues to pursue next-in-class CFTR modulator therapies as well as new treatment options for the approximately 10% of patients who cannot benefit from CFTR modulators alone.
•Enrollment is underway in two Phase 3 global, randomized, double-blind, active-controlled clinical trials (SKYLINE 102 and SKYLINE 103) evaluating Vertex’s new once-daily investigational triple combination of VX-121/tezacaftor/VX-561 in patients with CF. The SKYLINE 102 and SKYLINE 103 trials are expected to include 950 patients in total and will compare the performance of VX-121/tezacaftor/VX-561 to TRIKAFTA. Enrollment in both trials is expected to be completed by late 2022 or early 2023.
•In collaboration with Moderna, Vertex is evaluating CF mRNA therapeutics designed to treat the underlying cause of CF by enabling cells in the lungs to produce functional CFTR protein for the treatment of the approximately 10% of CF patients who do not produce any CFTR protein. IND-enabling studies are underway, and we plan to submit an IND for this program in 2022.

Beta Thalassemia and Sickle Cell Disease (SCD)
The CTX001 program employs a non-viral ex vivo CRISPR gene-editing therapy, which is being developed as a potential functional cure for transfusion-dependent thalassemia (TDT) and severe sickle cell disease (SCD).
•Enrollment is complete in the ongoing Phase 3 clinical trials in TDT and SCD, with more than 70 patients dosed to date. Vertex anticipates submitting global regulatory filings for CTX001 in TDT and SCD in late 2022.

APOL1-Mediated Kidney Disease (AMKD)
Vertex is evaluating the potential of oral, small molecule inhibitors of APOL1 function to treat people with AMKD.
•In December, Vertex announced that, in a Phase 2 proof-of-concept (POC) study in patients with APOL1-mediated focal segmental glomerulosclerosis (FSGS), VX-147 achieved a statistically significant and clinically meaningful mean reduction of 47.6% in the urine protein to creatinine ratio (UPCR) at Week 13 compared to baseline, on top of standard of care. VX-147 was well tolerated, with no treatment discontinuations due to adverse events and no serious adverse events considered related to study drug. These results provided the first clinical evidence and POC that an oral small molecule APOL1 inhibitor can decrease proteinuria in patients with APOL1-mediated kidney disease. Vertex anticipates completing its end of Phase 2 meeting with regulators and initiating pivotal development of VX-147 in AMKD in the first quarter of 2022.

Type 1 Diabetes (T1D)
Vertex is evaluating cell therapies designed to replace insulin-producing islet cells that are destroyed in people with T1D with the goal of developing a potential functional cure for this disease.
•VX-880 is a stem cell-derived, fully differentiated islet replacement therapy, using standard immunosuppression to protect the implanted cells. VX-880 is being evaluated in a Phase 1/2 clinical trial for the treatment of T1D.
•In January, Vertex announced Day 150 data for the first T1D patient in the Phase 1/2 clinical trial, treated with a single infusion of VX-880 at half the target dose. These data demonstrated robust improvements in fasting C-peptide (levels increased to 404 pmol/L) and glycemic control, with HbA1c reaching 6.7% and daily exogenous insulin requirement at 2 units, providing evidence of a clinically meaningful therapeutic effect of this single treatment with VX-880.
•The VX-880 Phase 1/2 study is ongoing in the U.S. and Canada. Enrollment and dosing continues and Vertex expects to share data from more patients and report longer-term follow up in 2022.
•Vertex is pursuing additional programs in T1D, in which these stem cell-derived islets are encapsulated and implanted in an immunoprotective device or modified to produce hypoimmune stem cell islets. IND-enabling studies for the cells plus device program are underway, and we plan to submit an IND in 2022.

Pain (NaV1.8)
Vertex has discovered multiple selective small molecule inhibitors of NaV1.8 with the objective of creating a new class of medicines that have the potential to be highly effective for both acute and chronic pain, without the limitations of opioids and other existing pain medications.
•Vertex is conducting two Phase 2 dose ranging acute pain studies with VX-548, one following bunionectomy surgery and the other following abdominoplasty surgery. Vertex expects to obtain data from both studies in Q1 2022.

Alpha-1 Antitrypsin (AAT) Deficiency
•Vertex plans to advance one or more novel small molecule zAAT correctors into the clinic in 2022.

Consistent with its overall strategy, Vertex takes a portfolio approach to all of its programs, with additional assets in CF, SCD, Beta Thalassemia, AMKD, T1D, Pain, and AATD in earlier stages of development.

On January 26, 2022 CellCentric, a clinical stage, private biotechnology company pioneering small molecule inhibition of p300/CBP to treat cancer, reported it has received funding from BrightEdge, the impact venture capital fund of the American Cancer Society (Press release, CellCentric, JAN 26, 2022, View Source [SID1234607400]). The funding will be used to further progress the clinical development of its ground-breaking, targeted treatment, inobrodib (formerly known as CCS1477) and are accompanied by additional significant investment from existing lead investor, Morningside Investments Limited.

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Inobrodib is a first-in-class small molecule inhibitor that impacts twin regulatory proteins p300 and CBP and thus affects a number of established, yet elusive to treat oncogenes (including Myc, IRF4 and the Androgen Receptor). The orally bioavailable drug is transitioning into Phase II clinical trials in multiple indications; castration resistant prostate cancer (mCRPC), haematological malignancies as well as specifically targeted tumours driven by genomic alterations.

CellCentric recently received confirmation from the World Health Organisation for inobrodib as a new International Non-proprietary Name (INN) for CCS1477. The -brodib suffix represents the new class of drug; p300/CBP bromodomain inhibitors. Any subsequent follower drugs with a similar mechanism of action will bear the same novel drug class stem, -brodib.

Alice Pomponio, Managing Director of the American Cancer Society’s BrightEdge said: "We are delighted to be supporting CellCentric’s mission to bring a novel targeted therapy to people with cancer. At BrightEdge we invest in ground-breaking cancer research with the goal to translate them into commercially accessible solutions that put patients front and centre."

Jason Dinges of Morningside Technology Advisory, and CellCentric Board member, added: "We are proud to continue our support of CellCentric and its mission to bring the first p300/CBP inhibitor to patients. At Morningside we are committed to investing in companies with strong teams and clear plans to deliver on their goals."

Will West, Chief Executive Officer of CellCentric, commented: "We are very pleased to welcome BrightEdge, alongside our cornerstone investor Morningside, as we continue to pioneer targeted cancer treatment through inhibiting p300/CBP. We now know that our drug can be well tolerated and deliver clear signals of efficacy. The task ahead is to build on that, maximising its impact as a monotherapy and in combination with existing standard of care agents, to treat specific cancer types."

On January 26, 2022 Servier, an independent international pharmaceutical company, reported that it has partnered with French start-up Epigene Labs to develop an artificial intelligence-based application that prioritizes new cancer drug targets to determine the best therapeutic pathway to treat cancer patients (Press release, Servier, JAN 26, 2022, View Source;utm_medium=rss&utm_campaign=oncology-servier-collaborates-to-create-innovative-application-for-researchers [SID1234607399]). The application will be deployed within Servier R&D in the first quarter of 2022.

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Founded in January 2019, French startup Epigene Labs has developed the mCUBE platform with augmented intelligence for aggregating and analyzing genomic data in oncology to derive biomarkers and prioritize new cancer drug targets.

Based on Epigene Labs’ mCUBE platform, the application is perfectly suited for oncology projects and Servier R&D users. The mCUBE platform allows users to cross-analyze clinical and molecular data (omics data) through a suite of dynamic dashboards, accelerating the decision-making process in the early phases of oncology projects.

Epigene Labs has developed this application based on specifications provided by Servier’s teams from several fields of expertise (Bioinformatics, IT/data, oncology, Digital Information and Data System – DIDS). The mCUBE platform is widely deployed among Servier R&D users. In order to ensure continuous improvement, users will regularly share their feedback with Epigene Labs teams.

According to Céline Lefebvre, Ph.D., who leads the computational medicine team at Servier R&D and who is in charge of this project: "Epigene Labs has delivered a solution that is perfectly adapted to Servier’s projects in the field of oncology and that is in line with Servier’s Data&IA R&D strategy. The mCUBE platform will accelerate our decision making. It is a great lever for improving our working methods for the benefit of cancer patients.

Akpéli Nordor, Pharm.D., Ph.D., co-founder and CEO of Epigene Labs, added, "Epigene Labs is pleased to work with Servier to demonstrate the utility of its tools. As oncologists, we have a unique understanding of the tools other oncologists need to accelerate data-driven drug discovery, biomarker identification and patient selection. We look forward to continuing our collaboration with Servier to rapidly deliver the best treatments to cancer patients."

The partnership with Epigene Labs illustrates Servier’s open and collaborative innovation dynamic, which aims to surround itself with a network of diversified partners to accelerate therapeutic innovation and offer patients innovative and personalized treatments.

Céline Triquel, Open Innovation Project Manager at Servier, concludes: "This project called for collaborative work methods, agility, courage and perseverance, with the objective of developing innovations for the patient. I would like to thank all the contributors to this project, which illustrates our willingness and ability to access and integrate cutting-edge technologies, driven by open innovation and supported by the startup@servier program. "*

* The startup@servier program aims to create value for the startup and Servier with the objective of accelerating therapeutic innovation for the benefit of patients. A first phase of joint work allows the startup to conduct a key study or pilot application of a technology, before entering into a classic collaboration.

On January 26, 2022 Sysmex Inostics, a global leader in the liquid biopsy revolution for oncology, reported the use of their HPV-SEQ test in the prospective University of Chicago clinical trial,1 "Pilot Study of Chemotherapy for HPV-Associated Oropharyngeal Cancer (Press release, Sysmex Inostics, JAN 26, 2022, View Source [SID1234607397])."

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"The ability to reliably detect HPV-DNA in plasma at such low frequency shows HPV-SEQ could be a promising non-invasive biomarker test for effectively assessing treatment response, appropriately de-intensifying treatment using real-time dynamic HPV quantification, and monitoring HPV-positive OPC patients’ post-treatment," said Dr. Nishant Agrawal, Professor of Surgery at the University of Chicago. "Therefore, the HPV-SEQ test has the potential to be an important tool for oncologists in treating patients with HPV-associated head and neck cancer," he concluded.

Current standard therapy used to treat OPC patients is associated with acute and long-term toxicities from chemotherapy, radiation, and surgery.2 In the trial, Dr. Agrawal and team will dynamically assess the level of cfHPV-DNA in patients’ blood and use this information to de-intensify treatment which would improve therapeutic outcome while minimizing treatment-associated toxicity.

Sysmex Inostics senior director of medical affairs, Fred Jones, noted, "The University of Chicago trial is a strong step forward in showing the clinical utility of HPV-SEQ test as a tool in treating patients with HPV-associated head and neck cancer. We look forward to the results of the trial."

HPV-associated OPC has increased dramatically over the last decade. In the United States HPV is thought to cause 70% of oropharyngeal cancers, back of the throat, including the base of the tongue and tonsils.3

Approximately 10 percent of men and 3.6 percent of women in the U.S. have HPV in their mouths and HPV infection is more commonly found with older age. While most people clear the infections on their own within a year or two, in some people HPV infection persists.4 Patients with HPV-driven disease respond better to treatment and demonstrate a more favorable prognosis, compared to patients with HPV negative head and neck cancer.

HPV-SEQ, Sysmex Inostics ultra-sensitive quantitative, CLIA-validated, blood test for the detection of cell-free HPV 16/18 DNA (cfHPV-DNA), will be used in the trial to monitor personalized treatment and de-escalation of HPV positive oropharyngeal cancer (OPC) patients. HPV-SEQ, which can detect as few as 5 HPV 16/18 molecules in a background of 20,000 wild-type molecules (0.025% allele frequency), empowers this ground-breaking trial. The protocol was published in the recent BMC Cancer paper,5 "Prospective study evaluating dynamic changes of cell-free HPV-DNA in locoregional viral-associated oropharyngeal cancer treated with induction chemotherapy and response-adaptive treatment."

The trial is a follow-on to the poster6 presented at the 2021 ASCO (Free ASCO Whitepaper) Annual Meeting in which Dr. Agrawal described how HPV-SEQ exhibits robust quantitative detection of cfHPV-DNA across a broad dynamic range, thus enabling high-resolution monitoring for patients with HPV positive OPC.

HPV-SEQ is available as a testing service provided by the Sysmex Inostics CLIA lab in Baltimore. MD.

On January 26, 2022 Panbela Therapeutics, Inc. (Nasdaq: PBLA), a clinical stage biopharmaceutical company developing disruptive therapeutics for the treatment of patients with cancer, reported the initiation of the company’s global Phase 2 clinical trial of SBP-101 in combination with Gemcitabine and Nab-Paclitaxel in patients with metastatic pancreatic ductal adenocarcinoma, which is referred to as the ASPIRE trial (Press release, Panbela Therapeutics, JAN 26, 2022, View Source [SID1234607396]).

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Arvind Chaudhry MD, PhD, Principal Investigator at Summit Cancer Centers in Spokane, Washington was the first clinical site activated, with approximately 60 additional sites expected to be activated in 2022. Panbela has commenced screening for eligible patients, with enrollment expected to complete in approximately 12 months.

The ASPIRE trial is designed as a randomized double-blind placebo-controlled trial, with a primary endpoint of overall survival. The design includes a futility analysis after 104 progression-free survival events. Panbela is seeking to conduct the trial at leading cancer centers in the United States, Europe, and the Asia-Pacific region.

"Pancreatic cancer is one of the most common causes of cancer deaths in the United States and represents a significant unmet medical need, as is underscored by SBP-101’s Fast Track and Orphan Drug designations," said Jennifer K. Simpson, PhD, MSN, CRNP, President & Chief Executive Officer. "We are enthusiastic about having initiated the ASPIRE global randomized Phase 2 trial. Given the rigor of the trial design, we expect the resulting data to support our registration effort."

About SBP-101
SBP-101 is a proprietary polyamine analogue designed to induce polyamine metabolic inhibition (PMI) by exploiting an observed high affinity of the compound for pancreatic ductal adenocarcinoma and other tumors. The molecule has shown potential signals of tumor growth inhibition in clinical studies of US and Australian metastatic pancreatic cancer patients, suggesting potential complementary activity with an existing FDA-approved standard chemotherapy regimen, if SPB-101 receives approval in the US. In data evaluated from clinical studies to date, SBP-101 has not shown exacerbation of bone marrow suppression and peripheral neuropathy, which can be chemotherapy-related adverse events. Serious visual adverse events observed in the Company’s recently completed Phase 1a/1b clinical trial have been evaluated and patients with a history of retinopathy or at risk of retinal detachment will be excluded from future SBP-101 studies. The safety data and PMI profile observed in the current Panbela sponsored clinical trial provides support for continued evaluation of SBP-101 in a randomized clinical trial. For more information, please visit View Source .