May 31, 2021

Basilea provides updates on efficacy data with derazantinib in bile duct cancer and on ongoing clinical programs in urothelial and gastric cancer

 

 

 

  • An updated analysis shows further improvement of progression-free survival, disease control rate and objective response rate in the cohort of FGFR2 gene fusion-positive patients with bile duct cancer (iCCA) in FIDES-01 study
  • Pursuing intensified dose regimen in FIDES-02 urothelial cancer study and
    FIDES-03 gastric cancer study

Basel, Switzerland, May 31, 2021

Basilea Pharmaceutica Ltd. (SIX: BSLN) today reported updated response data from cohort 1 of the FIDES-01 study. The cohort is assessing the anti-tumor efficacy of the orally administered fibroblast growth factor receptor (FGFR) inhibitor, derazantinib, in patients with FGFR2 gene fusion-positive intrahepatic cholangiocarcinoma (iCCA), a form of bile duct cancer.1 The positive efficacy data further substantiate the clinical proof-of-concept of derazantinib as monotherapy in iCCA.

FIDES-01: ICCA

Topline results for cohort 1 of the FIDES-01 study were presented in early February 2021.2 An updated analysis based on a data cut-off in April 2021 has now been completed and shows that the objective response rate (ORR) increased from 20.4% to 21.4%, the disease control rate (DCR) from 72.8% to 74.8% and the median progression-free survival (PFS) from 6.6 to 7.8 months, further supporting the clinically relevant efficacy for derazantinib monotherapy in this indication.

Dr. Marc Engelhardt, Chief Medical Officer, said: “We are very pleased with the more mature results from the first fully enrolled patient cohort of the FIDES-01 study. The progression-free survival of 7.8 months is in the upper range reported for this endpoint with FGFR-inhibitors in this patient population. Derazantinib also continues to show a well-manageable safety profile, with low rates of retinal side effects, stomatitis, hand-foot syndrome and nail toxicity. Overall, these results underscore the favorable benefit to risk profile of derazantinib as a monotherapy in bile duct cancer.”

He added: “We are also making good progress in cohort 2 of the study, which is enrolling iCCA patients with FGFR2 gene mutations or amplifications. We have achieved about 50% of target enrolment and are aiming to report topline results in the first half of 2022. If the encouraging results from the recently reported interim results are confirmed upon completion of the study, this will further strengthen the evidence of a differentiated efficacy and safety profile for derazantinib in bile duct cancer.”

FIDES-02: Urothelial cancer

Basilea had decided to explore an intensified dose regimen in several cohorts with derazantinib monotherapy and combination therapy in the FIDES-02 study in patients with urothelial cancer.3 Based on interim efficacy data from the ongoing cohort of FGFR-inhibitor naive patients in a second-line or later setting receiving derazantinib monotherapy at a dose of 300 mg per day, this cohort will not be further expanded and Basilea will focus patient enrolment on the intensified dose regimen of 400 mg per day, with the goal to maximize efficacy in this patient population. The approach is based on the available clinical data and supported by pharmacology data.

Dr. Engelhardt commented: “Derazantinib monotherapy at a dose of 300 mg per day has shown to be efficacious and safe in patients with iCCA, and has also provided signs of clinical benefit in the ongoing FIDES-02 urothelial cancer study. The unmet medical need in advanced urothelial cancer remains high. At the same time new standard-of-care treatment options are evolving and the benchmarks of anticancer efficacy for new treatments are increasing. Derazantinib dose levels above 300 mg per day have previously been studied and we believe that the intensified dose regimen of 400 mg per day could provide additional overall clinical benefit in advanced urothelial cancer.”

FIDES-03: Gastric cancer

Dr. Engelhardt added: “We believe that patients with advanced gastric cancer may also benefit from an intensified dose regimen of derazantinib. We will therefore amend the FIDES-03 study to explore a dose of 400 mg per day going forward.”

Future data readouts

Basilea continues to expect the first interim efficacy results from the FIDES-02 urothelial cancer study, in patients at a dose of 300 mg per day, refractory to prior FGFR-inhibitor treatment, in both monotherapy and in combination with atezolizumab, in the second half of 2021.

Initial results from cohorts utilizing the intensified dose regimen of derazantinib 400 mg per day are expected in the first half of 2022. For FIDES-02 in urothelial cancer, this will include interim efficacy data as monotherapy, in a second- and post-second-line setting, as well as atezolizumab combination data in the first-line treatment of cisplatin-ineligible patients. For FIDES-03 in gastric cancer, this will include interim efficacy data with derazantinib in monotherapy and the recommended phase 2 dose (RP2D) of derazantinib combined with ramucirumab and paclitaxel.

The results from cohort 1 of FIDES-01 and the interim results from the 300 mg per day monotherapy cohort in FGFR-inhibitor naive patients in a second-line or later setting of FIDES-02 will be published upon completion of the cohorts at future scientific conferences.

About derazantinib

Derazantinib is an investigational orally administered small-molecule FGFR inhibitor with strong activity against FGFR1, 2, and 3.4 FGFR kinases are key drivers of cell proliferation, differentiation and migration. FGFR genetic aberrations, e.g. gene fusions, mutations or amplifications, have been identified as potentially important therapeutic targets for various cancers, including intrahepatic cholangiocarcinoma (iCCA), urothelial, breast, gastric and lung cancers.5 In these cancers, FGFR genetic aberrations are found in a range of 5% to 30%.6
Derazantinib also inhibits the colony-stimulating-factor-1-receptor kinase (CSF1R).4, 7 CSF1R-mediated signaling is important for the maintenance of tumor-promoting macrophages and therefore has been identified as a potential target for anti-cancer drugs.8 Pre-clinical data has shown that tumor macrophage depletion through CSF1R blockade renders tumors more responsive to T-cell checkpoint immunotherapy, including approaches targeting PD-L1/PD-1.9, 10
Derazantinib has demonstrated antitumor activity and a manageable safety profile in a previous biomarker-driven phase 1/2 study in iCCA patients,11 and has received U.S. and EU orphan drug designation for iCCA. Basilea is currently conducting three clinical studies with derazantinib. The first study, FIDES-01, is a phase 2 study in patients with inoperable or advanced iCCA. It comprises one cohort of patients with FGFR2 gene fusions and another cohort of patients with mutations or amplifications.1 The second study, FIDES-02, is a phase 1/2 study evaluating derazantinib alone and in combination with Roche's PD-L1 checkpoint inhibitor, atezolizumab, in patients with advanced urothelial cancer, including metastatic, or recurrent surgically unresectable disease, expressing FGFR genetic aberrations.12 The third study, FIDES-03, is a phase 1/2 study evaluating derazantinib alone and in combination with Lilly’s anti-VEGFR2 antibody ramucirumab and paclitaxel, or with Roche’s PD-L1 checkpoint inhibitor atezolizumab, in patients with advanced gastric cancer with FGFR genetic aberrations.13 Basilea has in-licensed derazantinib from ArQule Inc., a wholly-owned subsidiary of Merck & Co., Inc., Kenilworth, N.J., U.S.A.

About intrahepatic cholangiocarcinoma

Intrahepatic cholangiocarcinoma (iCCA) is a cancer originating from the biliary system. The age-adjusted incidence rate of iCCA in the United States has been increasing over the past decade and is currently estimated to be approximately 1.2 per 100,000.14 Patients are often diagnosed with advanced or metastatic disease that cannot be surgically removed. Current first-line standard of care is the chemotherapy combination of gemcitabine and platinum-derived agents. The prognosis for patients with advanced disease is poor, with a median survival of less than one year.15

About urothelial cancer

These cancers start in the urothelial cells that line the inside of the bladder. 80,000 new cases of bladder cancer have been estimated in the U.S. for 2017. Up to 20% of patients will have muscle-invasive disease and present with or will later develop metastases.16 FGFR gene aberrations occur in about 15-20% of advanced urothelial cancers.17, 18 For patients with advanced urothelial cancer, outcomes can be poor due to the often rapid progression of the tumor and the lack of efficacious treatments, especially in relapsed or refractory disease.

About gastric cancer

Gastric cancer is the fifth most common cancer worldwide and the third most lethal cancer type.19 Median survival rarely exceeds twelve months and the five-year-survival is less than 10%.20 Basilea estimates that there are approximately 190,000 new cases of gastric cancer per year in total across the EU top 5 countries, Japan and the U.S. FGFR genetic aberrations have been observed in about 10% of gastric cancers.21

About Basilea

Basilea is a commercial-stage biopharmaceutical company founded in 2000 and headquartered in Switzerland. We are committed to discovering, developing and commercializing innovative drugs to meet the medical needs of patients with cancer and infectious diseases. We have successfully launched two hospital brands, Cresemba for the treatment of invasive fungal infections and Zevtera for the treatment of severe bacterial infections. We are conducting clinical studies with two targeted drug candidates for the treatment of a range of cancers and have a number of preclinical assets in both cancer and infectious diseases in our portfolio. Basilea is listed on the SIX Swiss Exchange (SIX: BSLN). Please visit basilea.com.

Disclaimer

This communication expressly or implicitly contains certain forward-looking statements, such as "believe", "assume", "expect", "forecast", "project", "may", "could", "might", "will" or similar expressions concerning Basilea Pharmaceutica Ltd. and its business, including with respect to the progress, timing and completion of research, development and clinical studies for product candidates. Such statements involve certain known and unknown risks, uncertainties and other factors, which could cause the actual results, financial condition, performance or achievements of Basilea Pharmaceutica Ltd. to be materially different from any future results, performance or achievements expressed or implied by such forward-looking statements. Basilea Pharmaceutica Ltd. is providing this communication as of this date and does not undertake to update any forward-looking statements contained herein as a result of new information, future events or otherwise. Derazantinib and its uses are investigational and have not been approved by a regulatory authority for any use. Efficacy and safety have not been established. The information presented should not be construed as a recommendation for use. The relevance of findings in nonclinical/preclinical studies to humans is currently being evaluated.

For further information, please contact:

Peer Nils Schröder, PhD

Head of Corporate Communications & Investor Relations
Phone+41 61 606 1102
E-mailmedia_relations@basilea.com
investor_relations@basilea.com

This press release can be downloaded from www.basilea.com.

References

  1. FIDES-01: ClinicalTrials.gov identifier: NCT03230318
  2. Topline results of cohort 1 of the FIDES-01 study were published on February 10, 2021 (see press release). Interim results of cohort 2 of the FIDES-01 study were published on March 24, 2021 (see press release)
  3. Results from the dose-finding part of FIDES-02 were published on February 12, 2021 (see press release)
  4. T. G. Hall, Y. Yu, S. Eathiraj et al. Preclinical activity of ARQ 087, a novel inhibitor targeting FGFR dysregulation. PLoS ONE 2016, 11 (9), e0162594
  5. R. Porta, R. Borea, A. Coelho et al. FGFR a promising druggable target in cancer: Molecular biology and new drugs. Critical Reviews in Oncology/Hematology 2017 (113), 256-267
  6. T. Helsten, S. Elkin, E. Arthur et al. The FGFR landscape in cancer: Analysis of 4,853 tumors by next-generation sequencing. Clinical Cancer Research 2016 (22), 259-267
  7. P. McSheehy, F. Bachmann, N. Forster-Gross et al. Derazantinib (DZB): A dual FGFR/CSF1R-inhibitor active in PDX-models of urothelial cancer. Molecular Cancer Therapeutics 2019 (18), 12 supplement, pp. LB-C12
  8. M. A. Cannarile, M. Weisser, W. Jacob et al. Colony-stimulating factor 1 receptor (CSF1R) inhibitors in cancer therapy. Journal for ImmunoTherapy of Cancer 2017, 5:53
  9. Y. Zhu, B. L. Knolhoff, M. A. Meyer et al. CSF1/CSF1R Blockade reprograms tumor-infiltrating macrophages and improves response to T cell checkpoint immunotherapy in pancreatic cancer models. Cancer Research 2014 (74), 5057-5069
  10. E. Peranzoni, J. Lemoine, L. Vimeux et al. Macrophages impede CD8 T cells from reaching tumor cells and limit the efficacy of anti–PD-1 treatment. Proceedings of the National Academy of Science of the United States of America 2018 (115), E4041-E4050
  11. V. Mazzaferro, B. F. El-Rayes, M. Droz dit Busset et al. Derazantinib (ARQ 087) in advanced or inoperable FGFR2 gene fusion-positive intrahepatic cholangiocarcinoma. British Journal of Cancer 2019 (120), 165-171. ClinicalTrials.gov identifier: NCT01752920
  12. FIDES-02: ClinicalTrials.gov identifier: NCT04045613
  13. FIDES-03: ClinicalTrials.gov identifier: NCT04604132
  14. S. K. Saha, A. X. Zhu, C. S. Fuchs et al. Forty-year trends in cholangiocarcinoma incidence in the U.S.: intrahepatic disease on the rise. The Oncologist 2016 (21), 594-599
  15. A. Lamarca, D. H. Palmer, H. S. Wasa et al. Second-line FOLFOX chemotherapy versus active symptom control for advanced biliary tract cancer (ABC-06): a phase 3, open-label, randomised, controlled trial. Lancet Oncology 2021 (22):690-701
  16. B. Dietrich, S. Srinivas. Urothelial carcinoma: the evolving landscape of immunotherapy for patients with advanced disease. Research and reports in urology 2018 (10), 7-16
  17. A. O. Siefer-Radtke, A. Necchi, E. Rosenbaum et al. Efficacy of programmed death 1 (PD-1) and programmed death 1 ligand (PD-L1) inhibitors in patients with FGFR mutations and gene fusions: Results from a data analysis of an ongoing phase 2 study of erdafitinib (JNJ-42756493) in patients with advanced urothelial cancer. Journal of Clinical Oncology 2018 (36), supplement, abstract 450
  18. Y. Loriot, A. Necchi, S. H. Park et al. Erdafitinib in locally advanced or metastatic urothelial carcinoma. New England Journal of Medicine 2019 (381), 338-348
  19. F. M Johnston, M. Beckman. Updates on management of gastric cancer. Current Oncology Reports 2019 (21), 67
  20. M. Orditura, G. Galizia, V. Sforza et al. Treatment of gastric cancer, World Journal of Gastroenterology 2014 (20), 1635-1649
  21. A. Bass, V. Thorsson, I. Shmulevich et al. Comprehensive molecular characterization of gastric adenocarcinoma. Nature 2014 (513), 202-209

Attachment

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