Since 2011, with the approval of crizotinib and subsequent approval of four additional targeted therapies, anaplastic lymphoma kinase (ALK) inhibitors have become important treatments for a subset of patients with lung cancer. Each generation of ALK inhibitor showed improvements in terms of central nervous system (CNS) penetration and potency against wild-type (WT) ALK, yet a key continued limitation is their susceptibility to resistance from ALK active-site mutations. The solvent front mutation (G1202R) and gatekeeper mutation (L1196M) are major resistance mechanisms to the first two generations of inhibitors while patients treated with the third-generation ALK inhibitor lorlatinib often experience progressive disease with multiple mutations on the same allele (mutations in cis, compound mutations). TPX-0131 is a compact macrocyclic molecule designed to fit within the ATP-binding boundary to inhibit ALK fusion proteins. In cellular assays, TPX-0131 was more potent than all five approv..... READ ARTICLE
Molecular Cancer Therapeutics DOI:1535-7163.MCT-21-0221
Authors: Brion W. Murray, Dayong Zhai, Wei Deng, Xin Zhang, Jane Ung, Vivian Nguyen, Han Zhang, Maria Barrera, Ana Parra, Jessica Cowell, Dong J. Lee, Herve Aloysius and Evan Rogers
Since 2011, with the approval of crizotinib and subsequent approval of four additional targeted therapies, ALK inhibitors have become important treatments for a subset of patients with lung cancer. Each generation of ALK inhibitor showed improvements in terms of CNS penetration and potency against wild-type ALK, yet a key continued limitation is their susceptibility to resistance from ALK active-site mutations. The solvent front mutation (G1202R) and gatekeeper mutation (L1196M) are major resistance mechanisms to the first two generations of inhibitors while patients treated with the third-generation ALK inhibitor lorlatinib often experience progressive disease with multiple mutations on the same allele (mutations in cis, compound mutations). TPX-0131 is a compact macrocyclic molecule designed to fit within the ATP-binding boundary to inhibit ALK fusion proteins. In cellular assays, TPX-0131 was more potent than all five approved ALK inhibitors against wild-type ALK and many types of ALK resistance mutations, e.g. G1202R, L1196M, and compound mutations. In biochemical assays, TPX-0131 potently inhibited (IC50 <10 nmol/L) wild-type ALK and 26 ALK mutants (single and compound mutations). TPX-0131, but not lorlatinib, caused complete tumor regression in ALK (G1202R) and ALK compound mutation-dependent xenograft models. Following repeat oral administration of TPX-0131 to rats, brain levels of TPX-0131 were ~66% of those observed in plasma. Taken together, preclinical studies show that TPX-0131 is a CNS-penetrant, next-generation ALK inhibitor that has potency against wild-type ALK and a spectrum of acquired resistance mutations, especially the G1202R solvent front mutation and compound mutations, for which there are currently no effective therapies. READ ARTICLE
Molecular Caner Therapeutics DOI: 10.1158/1535-7163.MCT-21-0221
Authors: Brion W. Murray, Dayong Zhai, Wei Deng, Xin Zhang, Jane Ung, Vivian Nguyen, Han Zhang, Maria Barrera, Ana Parra, Jessica Cowell, Dong J. Lee, Herve Aloysius and Evan Rogers
Read MoreAnaplastic lymphoma kinase (ALK) gene rearrangements occur in up to 7% of patients with non-small cell lung cancer (NSCLC) with the majority as EML4-ALK fusions. Crizotinib (first generation ALK inhibitor) was the first approved ALK inhibitor for the treatment of ALK-positive metastatic non-small cell lung cancer. However, development of resistance to crizotinib caused by secondary kinase domain mutations, bypass signaling, or morphology changes occurs. Second generation ALK inhibitors alectinib, ceritinib, and brigatinib were able to overcome the majority of ALK resistant mutations (L1196M, G1269A and F1174L) acquired with crizotinib. The solvent front mutation (SFM) G1202R is a common resistant mutation to crizotinib and the second generation ALK inhibitors. Lorlatinib, a third generation ALK inhibitor, can overcome G1202R resistance with moderate IC50 values of 40 - 60 nM in cell-based assays. Although, compound mutations such as ones with both gatekeeper and solvent front mutations..... READ ARTICLE
Cancer Research DOI:10.1158/1538-7445.AM2020-5226
Authors: J. Jean Cui, Evan Rogers, Dayong Zhai, Wei Deng, Jane Ung, Vivian Nguyen, Han Zhang, Xin Zhang, Ana Parra, Maria Barrera, Dong Lee and Brion Murray
Our current treatment paradigm of advanced anaplastic lymphoma kinase fusion (ALK+) non-small cell lung cancer (NSCLC) classifies the six currently approved ALK tyrosine kinase inhibitors (TKIs) into three generations. The 2nd-generation (2G) and 3rd-generation (3G) ALK TKIs are all “single mutant active” with varying potencies across a wide spectrum of acquired single ALK resistance mutations. There is a vigorous debate among clinicians which is the best upfront ALK TKI is for the first-line (1L) treatment of ALK+ NSCLC and the subsequent sequencing strategies whether it should be based on the presence of specific on-target ALK resistance mutations or not. Regardless, sequential use of “single mutant active” ALK TKIs will eventually lead to double ALK resistance mutations in cis. This has led to the creation of fourth generation (4G) “double mutant active” ALK TKIs such as TPX-0131 and NVL-655. We discuss the critical properties 4G ALK TKIs must possess to be clinically successful. We..... READ ARTICLE
Translational Oncology DOI:10.1016/j.tranon.2021.101191
Authors: Sai-Hong Ignatius Ou, Misako Nagasaka, Danielle Brazel, Yujie Hou, Viola W.Zhu