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Several novel targeted therapies are emerging for a growing number of driver mutations in lung cancer, with multiple targeted agents now confirmed standards of care.
Tetsuya Mitsudomi, MD, PhD
Several novel targeted therapies are emerging for a growing number of driver mutations in lung cancer, with multiple targeted agents now confirmed standards of care, according to a presentation by Tetsuya Mitsudomi, MD, PhD, at the 19th Annual International Lung Cancer Congress.
There are currently 6 receptor tyrosine kinases (RTKs) that have shown promise for patients with lung cancer, with potential approvals on the horizon. These agents target RET, NTRK, and EGFR exon 20 alterations. In the RET space, both BLU667 and LOXO-292 have shown high response rates. For NTRK, entrectinib and larotrectinib have generated excitement, and for EGFR exon 20, the agents poziotinib and TAK-788 are beginning to emerge as potential options.
"Inhibition of mutated versions of EGFR, ALK, ROS, and BRAF V600E is standard of care," said Mitsudomi, professor, Thoracic Surgery, Kindai University, Osaka, Japan. "These days, many new drivers are being discovered. Most of the targetable alterations in lung cancer are fusions or alterations in receptor tyrosine kinases."
Focusing on the success with RTKs, Mitsudomi highlighted other potential targets, including FGFR, DDR2, NRG1, RIT1, and KRAS, which is a continual subject of research interest, given its high frequency in lung adenocarcinoma. "KRAS is the oldest driver, yet, targeted therapy to KRAS has been difficult," he said.
There are several phase II studies currently exploring FGFR inhibitors, although results have not yet been made available in oncogene selected populations. Additionally, trials for DDR2 inhibitors are under way, with no major results reported yet, Mitsudomi noted.
Findings for NRG1-rearranged tumors were published for the anti-ERBB3 monoclonal antibody GSK2849330.1 A phase II study is planned to further explore this agent. In a single-patient case study,1 an 86-year-old treated with GSK2849330 at 30 mg/kg had a confirmed partial response, which was ongoing at 19 months. This patient had progressed on several prior therapies, including nivolumab. This response was accompanied by resolution of dyspnea.
Others included in this phase I study without the NRG1 fusion did not have a response to GSK2849330. The unique activity of this drug in NRG1-rearranged tumors was further verified in preclinical findings. In these studies, ERBB3/ERBB2 inhibition resulted in decreased cell growth in cell lines with aberrant NRG1 expression.
In preclinical studies, metformin has shown activity in NSCLC cell lines, with targeted inhibition of proliferation along with cell cycle arrest. Phase II studies are currently exploring the impact of metformin in various settings for NSCLC, either as a single agent or in combinations. In prior phase II findings, activity with metformin plus chemotherapy was seen in a broad population, although none had LKB1 alteration. The objective response rate was 23%.2
"Many trials for LKB1 are in progress," Mitsudomi noted. "There are no results yet but it shows there are ways to cope with LKB1 mutations."
Mitsudomi said that the p53 pathway also represents a potential target, along with STK11, oxidative stress pathways, nucleosome remodeling genes, and histone modifiers. There are several agents in development that potentially impact mutant p53, through a variety of mechanisms. The search for an effective agent for p53 spans across numerous cancers, as this target is involved in several malignancies.
"p53 has been known as an important tumor suppressor for 30 years," said Mitsodomi. "Many strategies have been tried but none have been very successful."
With so many targets emerging, there is a potential role for synthetic lethal relationships, wherein treatment with one agent causes a deficiency that makes it more susceptible to another agent. Research into this type of strategy has gained popularity using PARP inhibition and platinum-based chemotherapy.
The oxidative stress pathway often causes resistance to chemotherapy, making it a unique target for synthetic lethality combinations. In early studies, the agent brusatol was found to enhance the efficacy of chemotherapy, by inhibiting the Nrf2-mediated cellular defense mechanism. These findings suggest that brusatol may prevent chemoresistance. However, research into this approach has been slow, as these initial findings were released in 2011.3
Other synthetic lethal approaches are currently in development, Mitsudomi noted. Recently, it was found that EZH2 inhibition sensitizes BRG1 and EGFR-mutant lung cancer to TopoII inhibitors, like etoposide,4 suggesting a potentially new approach.
Other synthetic lethal approaches are also intriguing, including the combination of SMARCA4 and EZH2 inhibition and ARID1A with PI3K/AKT or PARP inhibition. Trials looking at the latter combinations are currently ongoing, while SMARCA4/EZH2 trials are still being planned.
References:
<<< 2018 International Lung Cancer Congress
LKB1, which is altered in NSCLC, is another promising target in development, with several trials ongoing. This target is unique for its role in glucose homeostasis in the liver. Given this connection with glucose, metformin, which is used for type 2 diabetes and works through LKB1-dependent activation of adenosine monophosphate-activated protein kinase (AMPK), has been the topic of clinical trials.
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