ALK inhibitor
ALK inhibitors are anti-cancer drugs that act on tumours with variations of anaplastic lymphoma kinase such as an EML4-ALK translocation. They fall under the category of tyrosine kinase inhibitors, which work by inhibiting proteins involved in the abnormal growth of tumour cells. All the current approved ALK inhibitors function by binding to the ATP pocket of the abnormal ALK protein, blocking its access to energy and deactivating it.
A majority of ALK-rearranged NSCLC harbour the EML4-ALK fusion, although as of 2020, over 92 fusion partners have been discovered in ALK+ NSCLC. For each fusion partner, there can be several fusion variants depending on the position the two genes were fused at, and this may have implications on the response of the tumour and prognosis of the patient.
Approved inhibitors
First generation
was approved in Aug 2011 by the US FDA for ALK-positive NSCLC. At the time of the discovery of ALK translocations as a molecular driver in NSCLC, crizotinib was being investigated by Pfizer as a potential c-MET inhibitor. Its activity against ALK being known, Pfizer shifted its investigations to focus on this indication, and obtained a full approval 4 years later. Crizotinib's efficacy was proven in phase III trial, PROFILE 1007, when it was compared to then-standard second-line pemetrexed or docetaxel chemotherapy. It induced tumour stabilisation or shrinkage in 90% of patients. Its lack of penetrance in the brain and non-optimal specificity for ALK meant resistance mostly arose within a year, with the brain being a common site of progression. Blockade of ALKAL2 with crizotinib has been shown to produce analgesic effects in animal models.Second generation
Despite the excitement of crizotinib's therapeutic success, there was a need to conceive new drugs with better brain penetrance, higher specificity and targeting a broader set of resistance mutations.As such, Novartis' ceritinib was approved by the FDA in April 2014 for treatment of NSCLC. It provided good brain penetrance and a significant progression-free survival benefit against chemotherapy in the first line as demonstrated in the ASCEND-4 trial.
Roche's alectinib was FDA approved Dec 2015 for patients who had progressed on crizotinib, with full approval in 2017 as a first-line treatment for ALK-positive NSCLC. Like ceritinib, it provided excellent brain penetrance and high response rates. It demonstrated a clear benefit against both first-line chemotherapy and first-line crizotinib. This was based on the phase 3 ALEX trial comparing it with crizotinib.
Ariad's and Takeda's brigatinib was the latest second-generation inhibitor and was approved in April 2017 by the US FDA for ALK-positive NSCLC. It is very similar to alectinib in efficacy, while being active against some resistant mutations such as the common G1202R mutation that provides resistance to alectinib.
Third generation
Pfizer's lorlatinib was the first third-generation inhibitor and was approved in 2018 by the US FDA for ALK-positive NSCLC after progression on a first or second-generation inhibitor. Its macrocyclic structure was designed specifically to address some of the most recalcitrant resistance mutations. Still, most tumours eventually develop resistance through various mechanisms, namely compound-mutations or activation of alternative pathways, such as the c-MET pathway.Clinical trials
Additional ALK inhibitors currently undergoing clinical trials include:- Ensartinib
- Entrectinib
- Repotrectinib
- Envonalkib, approved in China for the treatment of non-small cell lung cancer
- Belizatinib
- Alkotinib
- Foritinib
- CEP-37440
- TQ-B3139
- PLB1003
- Zotizalkib — a next generation ALK inhibitor, shown to work even against compound mutations resistant to lorlatinib
- Conteltinib - multi-kinase inhibitor that specifically targets ALK, FAK and Pyk2
- ASP-3026
Investigational combinations