INTRODUCTION: Chromosomal rearrangements involving rearranged during transfection gene (RET) occur in 1% to 2% of NSCLCs and may confer sensitivity to rearranged during transfection (RET) inhibitors. Alectinib is an anaplastic lymphoma kinase tyrosine kinase inhibitor (TKI) that also has anti-RET activity in vitro. The clinical activity of alectinib in patients with RET-rearranged NSCLC has not yet been reported. METHODS: We have described four patients with advanced RET-rearranged NSCLC who were treated with alectinib (600 mg twice daily [n = 3] or 900 mg twice daily [n = 1]) as part of single-patient compassionate use protocols or off-label use of the commercially available drug. RESULTS: Four patients with metastatic RET-rearranged NSCLC were identified. Three of the four had received prior RET TKIs, including cabozantinib and experimental RET inhibitors. In total, we observed two (50%) objective radiographic responses after treatment with alectinib (one confirmed and one unconfirmed), with durations of therapy of 6 months and more than 5 months (treatment ongoing), respectively. Notably, one of these two patients had his dose of alectinib escalated to 900 mg twice daily and had clinical improvement in central nervous system metastases. In addition, one patient (25%) experienced a best response of stable disease lasting approximately 6 weeks (the drug discontinued for toxicity). A fourth patient who was RET TKI-naive had primary progression while receiving alectinib. CONCLUSIONS: Alectinib demonstrated preliminary antitumor activity in patients with advanced RET-rearranged NSCLC, most of whom had received prior RET inhibitors. Larger prospective studies with longer follow-up are needed to assess the efficacy of alectinib in RET-rearranged NSCLC and other RET-driven malignancies. In parallel, development of more selective, potent RET TKIs is warranted.
INTRODUCTION: Chromosomal rearrangements involving rearranged during transfection gene (RET) occur in 1% to 2% of NSCLCs and may confer sensitivity to rearranged during transfection (RET) inhibitors. Alectinib is an anaplastic lymphoma kinase tyrosine kinase inhibitor (TKI) that also has anti-RET activity in vitro. The clinical activity of alectinib in patients with RET-rearranged NSCLC has not yet been reported. METHODS: We have described four patients with advanced RET-rearranged NSCLC who were treated with alectinib (600 mg twice daily [n = 3] or 900 mg twice daily [n = 1]) as part of single-patient compassionate use protocols or off-label use of the commercially available drug. RESULTS: Four patients with metastatic RET-rearranged NSCLC were identified. Three of the four had received prior RET TKIs, including cabozantinib and experimental RET inhibitors. In total, we observed two (50%) objective radiographic responses after treatment with alectinib (one confirmed and one unconfirmed), with durations of therapy of 6 months and more than 5 months (treatment ongoing), respectively. Notably, one of these two patients had his dose of alectinib escalated to 900 mg twice daily and had clinical improvement in central nervous system metastases. In addition, one patient (25%) experienced a best response of stable disease lasting approximately 6 weeks (the drug discontinued for toxicity). A fourth patient who was RET TKI-naive had primary progression while receiving alectinib. CONCLUSIONS:Alectinib demonstrated preliminary antitumor activity in patients with advanced RET-rearranged NSCLC, most of whom had received prior RET inhibitors. Larger prospective studies with longer follow-up are needed to assess the efficacy of alectinib in RET-rearranged NSCLC and other RET-driven malignancies. In parallel, development of more selective, potent RET TKIs is warranted.
Authors: Oliver Gautschi; Julie Milia; Thomas Filleron; Juergen Wolf; David P Carbone; Dwight Owen; Ross Camidge; Vignhesh Narayanan; Robert C Doebele; Benjamin Besse; Jordi Remon-Masip; Pasi A Janne; Mark M Awad; Nir Peled; Chul-Cho Byoung; Daniel D Karp; Michael Van Den Heuvel; Heather A Wakelee; Joel W Neal; Tony S K Mok; James C H Yang; Sai-Hong Ignatius Ou; Georg Pall; Patrizia Froesch; Gérard Zalcman; David R Gandara; Jonathan W Riess; Vamsidhar Velcheti; Kristin Zeidler; Joachim Diebold; Martin Früh; Sebastian Michels; Isabelle Monnet; Sanjay Popat; Rafael Rosell; Niki Karachaliou; Sacha I Rothschild; Jin-Yuan Shih; Arne Warth; Thomas Muley; Florian Cabillic; Julien Mazières; Alexander Drilon Journal: J Clin Oncol Date: 2017-03-13 Impact factor: 44.544
Authors: Jiaxiong Lu; Shan Guan; Yanling Zhao; Yang Yu; Sarah E Woodfield; Huiyuan Zhang; Kristine L Yang; Shayahati Bieerkehazhi; Lin Qi; Xiaonan Li; Jerry Gu; Xin Xu; Jingling Jin; Jodi A Muscal; Tianshu Yang; Guo-Tong Xu; Jianhua Yang Journal: Cancer Lett Date: 2017-04-26 Impact factor: 8.679
Authors: Casey J N Mathison; Donatella Chianelli; Paul V Rucker; John Nelson; Jason Roland; Zhihong Huang; Yang Yang; Jiqing Jiang; Yun Feng Xie; Robert Epple; Badry Bursulaya; Christian Lee; Mu-Yun Gao; Jennifer Shaffer; Sergio Briones; Yelena Sarkisova; Anna Galkin; Lintong Li; Nanxin Li; Chun Li; Su Hua; Shailaja Kasibhatla; Jacqueline Kinyamu-Akunda; Rie Kikkawa; Valentina Molteni; John E Tellew Journal: ACS Med Chem Lett Date: 2020-02-12 Impact factor: 4.345
Authors: Justin F Gainor; Diane Tseng; Satoshi Yoda; Ibiayi Dagogo-Jack; Luc Friboulet; Jessica J Lin; Harper G Hubbeling; Leila Dardaei; Anna F Farago; Katherine R Schultz; Lorin A Ferris; Zofia Piotrowska; James Hardwick; Donghui Huang; Mari Mino-Kenudson; A John Iafrate; Aaron N Hata; Beow Y Yeap; Alice T Shaw Journal: JCO Precis Oncol Date: 2017-08-16