EGFR exon 20 insertion mutations in advanced non-small-cell lung cancer: current status and perspectives

Platinum-based chemotherapy was previously the first-choice treatment for lung cancer. The discovery of epidermal growth factor receptor (EGFR) gene mutations and the development of EGFR tyrosine kinase inhibitors (TKIs) marked the beginning of the targeted therapy era for non-small-cell lung cancer (NSCLC). Thirty percent of NSCLC patients carry EGFR gene mutations. For these advanced NSCLC patients, EGFR-TKIs are currently preferred for their superior activity and survival benefits over platinum-based chemotherapy. However, therapeutic efficacy is quite different in patients with EGFR exon 20 insertion (ex20ins) mutations versus common mutations. Patients with ex20ins mutations are insensitive to EGFR-TKIs and have poor prognosis. Some drugs targeting EGFR ex20ins mutations have been approved. Here, we systematically reviewed the recent clinical research of and treatments used for EGFR ex20ins mutations, summarized the latest data on emerging therapies, and discussed future prospects and treatments.


Introduction
Lung cancer is the leading cause of death in cancer patients worldwide, and non-small-cell lung cancer (NSCLC) accounts for the vast majority (85%) of lung cancer cases, including the histological subtypes squamous cell carcinoma, large cell carcinoma, and adenocarcinoma (most common) [1][2][3][4]. Due to the emergence and repurposing of targeted drugs, the treatment effect in lung adenocarcinoma has improved, and the survival period of adenocarcinoma patients has been prolonged. However, unlike patients with lung adenocarcinoma, lung squamous cell carcinoma patients do not benefit from targeted therapy.
Driver gene mutations are present in two-thirds of patients with advanced NSCLC. Targeted therapy is currently available for most patients with driver gene mutations.
Epidermal growth factor receptor (EGFR) mutations are the most frequent type of mutation in NSCLC patients, with approximately 30% of NSCLC patients carrying EGFR mutations [5]. Among NSCLC patients with EGFR mutations, approximately 4-10% of patients have EGFR exon 20 insertion (ex20ins) mutations, with 46% of patients having EGFR exon 19 deletion (ex19del) mutations and 38% of patients having the EGFR L858R point mutation [6]. The demographics of patients with EGFR ex20ins mutations are similar to those of patients with classical EGFR mutations; ex20ins mutations are more common in women, nonsmokers, patients with adenocarcinoma and Asians [7][8][9][10][11].
Open Access *Correspondence: hnwl65588708@163.com; qimingwang1006@126.com An observational longitudinal cohort study in Hispanic patients reported that 36.4% of patients had concomitant common EGFR mutations (ex19del/L858R), 8% had G719X/L861Q/S768I mutations and 26% had EGFR amplification. Five patients had additional mutations in PI3K, KRAS and MEK1. Researchers have found that patients with concomitant common EGFR mutations have a better prognosis.
Currently, none of the internationally approved EGFR tyrosine kinase inhibitors (TKIs) have demonstrated adequate antitumor activity as frontline therapy for the treatment of EGFR ex20ins NSCLC. A real-world study showed that NSCLC patients with EGFR ex20ins mutations had lower overall survival (OS) and progressionfree survival (PFS) than those with common EGFR mutations (EGFR ex19del and EGFR L858R).
EGFR ex20ins mutations comprise a unique set of EGFR activating mutations. The most common EGFR ex20ins mutations are post C-helix insertions of one to four amino acids, which in aggregate account for 80-90% of all ex20ins mutations. These mutations cause inward movement of the ATP-binding pocket, limiting its binding to traditional TKIs because the insertion site is located at the rear end. The A763_Y764insFQEA isoform with the insertion point located in front of exon 20 is sensitive to erlotinib.
In addition, the results of in vitro experiments have shown that the sensitivity of A763_Y764insFQEA to first-and second-generation TKIs is significantly higher than that of Y764_V765insHH, M766_A767insAI, V769_ D770insASV, D770_N771insNPG, D770_N771insNPG, D770_N771ins_SSVD, and H773.
For NSCLC patients carrying rare mutations, timely detection of the type of driver mutation is crucial for subsequent targeted therapy. However, the heterogeneity of EGFR ex20ins mutations is high, and conventional PCR detection methods have a miss rate of more than 50%, so next-generation gene sequencing (NGS) is important for the detection of these mutations. The latest version of the National Comprehensive Cancer Network (NCCN) NSCLC guidelines also emphasizes the importance of NGS testing. Significant progress has been made in recent years in the development of effective targeted therapies for NSCLC patients with EGFR ex20ins mutations. Therefore, we describe the historical challenges and recent advances in this field.

Chemotherapy
Chemotherapy is still the main treatment option for Chinese patients with advanced EGFR ex20ins NSCLC, but the effect is not satisfactory (Table 1).
A retrospective study included a total of 105 patients with EGFR ex20ins NSCLC who received platinumbased chemotherapy as first-line treatment. The overall response rate (ORR) was 19.2%, and the disease control rate (DCR) at 6 months was 41.3%. The median PFS was 6.4 months [12]. Shi Jinpeng et al. found that 21 patients with mutations who received first-line platinum-based chemotherapy had an ORR of 19.0% and a median PFS (mPFS) of 6.5 months [13]. In a retrospective study that included 49 patients with mutations who received first-line platinum-based chemotherapy, the mPFS was 7.6 months, and the median OS (mOS) was 19.9 months [14].
In a retrospective study, a total of 77 patients received pemetrexed-based first-line chemotherapy, with an mPFS of 5.5 months and an mOS of 25 months. Researchers also found that pemetrexed-based chemotherapy can control disease better than non-pemetrexed-based chemotherapy [15].

EGFR-TKIs and combination therapy
EGFR is a tyrosine kinase receptor that is widely distributed in cell membranes in human tissues and can regulate various signaling processes, such as cell proliferation, metastasis and apoptosis. Mutations in the EGFR gene can lead to continuous activation of its downstream signaling pathways, promoting tumor cell proliferation and inhibiting tumor cell apoptosis [16,17]. For NSCLC patients carrying EGFR gene mutations, the main clinical treatment is currently TKIs, such as the first-generation TKIs gefitinib, erlotinib and icotinib; the second-generation TKIs afatinib and dacomitinib; and the third-generation TKI osimertinib [18][19][20][21][22].
These drugs covalently bind to the kinase structural domain of EGFR, thereby inhibiting the activation of aberrant signaling. EGFR mutations are mainly found in exons 18, 19, 20 and 21. EGFR ex19del mutations  Table 2). EGFR ex20ins mutations have different subtypes; 80-90% of mutations have an insertion site at the back of exon 20, and they have primary resistance to first-and second-generation TKIs. However, a small number of mutations feature an insertion site at the front end; for example, the A763_Y764insFQEA mutation is sensitive to erlotinib [32][33][34].

Erlotinib, gefitinib, and afatinib
A large multicenter study of rare EGFR mutations in France showed that among 25 patients with EGFR ex20ins mutations who received erlotinib/gefitinib, the mOS was 9.5 months, the mPFS was 2 months, and the ORR was 8% [25].
A combined post hoc analysis of LUX-Lung 2, LUX-Lung 3, and LUX-Lung 6 data showed that the mOS and mPFS in 23 patients with EGFR ex20ins mutations who received afatinib were 9.2 and 2.7 months, respectively [26].

Osimertinib
Osimertinib is a third-generation EGFR-TKI that was developed for sensitive EGFR mutations and EGFR T790M resistance mutations. Preclinical studies have reported that osimertinib is effective in EGFR ex20ins mutant cell lines and tumor xenografts with a wide therapeutic window [35][36][37][38].
In one study that included 6 patients with EGFR ex20ins mutations, the patients received 80 mg of osimertinib daily. The investigators evaluated the antitumor activity and safety of osimertinib monotherapy. They found that four patients achieved partial response (PR), and the remaining patients achieved stable disease (SD). The mPFS was 6.2 months (95% confidence interval 5.0-12.9 months; range 4.9-14.6 months) [27].
A multicenter phase II clinical trial from the Korean Cancer Research Group (LU17-19) aimed to evaluate the efficacy of osimertinib in NSCLC patients with EGFR ex20ins mutations after standard chemotherapy failed. The study enrolled 15 patients with EGFR ex20ins mutations who were treated with osimertinib; 3 patients (20%) received osimertinib as second-line treatment and 12 patients (80%) received osimertinib as third-line or beyond treatment. Among the patients, 46.7% (n = 7) achieved SD. Three patients were still receiving osimertinib at the time of data cutoff. The patients' mPFS was 3.5 months, and the DCR at 6 months was 31.1% [28].
Piotrowska Zofia et al. conducted a single-arm, phase II study of osimertinib 160 mg in NSCLC patients with EGFR ex20ins mutations. Among the 20 eligible patients, the best response was PR in 4 patients and complete response (CR) in one patient, for a confirmed ORR of 25%; 12 (60%) patients achieved SD. The mPFS was 9.7 months, and the median duration of response (DOR) was 5.7 months. Osimertinib (160 mg daily) was well tolerated and showed clinical activity in EGFR ex20ins mutant NSCLC [29]. This result suggests that high-dose osimertinib may be used as a well-tolerated treatment option for patients. Of course, the result needs to be verified in large-scale clinical trials. Increasing the dose of targeted drugs could provide more benefit for the treatment of NSCLC patients with EGFR ex20ins mutations.

Luminespib
A preclinical study found that EGFR exon 20 mutations were dependent on Hsp90 and could be inhibited by the Hsp90 inhibitor luminespib [39]. This phase II trial enrolled 29 patients with EGFR ex20ins NSCLC. The results showed that the mPFS and OS were 2.9 months and 12.8 months, respectively, and the most common treatment-related adverse events (TRAEs) were diarrhea (83%), visual changes (76%) and fatigue (45%) [30].

Cetuximab and afatinib
A study using cytological in vitro and in vivo experiments in tumor-bearing mice found that a combination of the EGFR monoclonal antibody (mAb) cetuximab and afatinib inhibited the growth of cells or transplanted tumors carrying EGFR exon 20 partial insertion mutations and promoted apoptosis of cancer cells [40]. A study in Finland used afatinib combined with cetuximab in four patients, and three of the four patients achieved PR. The mPFS was 5.4 months. Preliminary clinical studies have shown that afatinib combined with cetuximab is more effective than monotherapy [31].

Mechanisms of the poor efficacy of conventional EGFR-TKIs
Previous studies have found that the reason for the poor efficacy of conventional EGFR-TKIs is alterations in the drug-binding pocket of exon 20. Jacqulyne P. Robichaux et al. visualized these changes through 3D modeling. Their modeling showed that EGFR ex20ins mutations result in a shift of the phosphate-binding loop (P-loop) into the drug-binding pocket and increased affinity for ATP. The steric hindrance caused by these shifts reduces the binding of first-generation inhibitors, thereby making these mutants resistant to noncovalent inhibitors. In addition, a large terminal 1-methylindole group is attached to the pyrimidine core of osimertinib, which reduces the ability of osimertinib to efficiently reach the Cys797 residue in the EGFR ex20ins mutation. In vitro data and computer simulations suggest that small, flexible quinazoline derivatives may be able to target EGFR ex20ins mutants.

Immunotherapy
Immune checkpoint inhibitors (ICIs), such as PD-1/ PD-L1 mAbs, have brought unprecedented and lasting clinical benefits for NSCLC patients, but the response rate for patients with driver gene mutations is still relatively low [4].
One meta-analysis included studies such as Check-Mate 057, KEYNOTE-010, and POPLAR. The analysis compared nivolumab, pembrolizumab, and atezolizumab with docetaxel, and the results showed that 186 patients with EGFR mutations did not seem to benefit from immunotherapy, which is in sharp contrast with the 1362 patients with wild-type EGFR who did benefit [41].
For patients with EGFR ex20ins mutations, the underlying mechanism of the PD-1/PD-L1 inhibitor response remains unclear. In one study, 24 patients with EGFR mutations were treated with nivolumab. Analysis of the results showed that rare mutations were a predictor of better efficacy [42].
ICIs are not effective in NSCLC with EGFR ex20ins mutations, especially as a first-line treatment. A retrospective study included 30 NSCLC patients with EGFR ex20ins mutations, of whom 15 had been treated with ICIs. Compared with patients who did not receive immunotherapy, patients who received ICIs had a shorter mOS [43].
A real-world study in the United States showed that regardless of treatment line, the treatment endpoints (ORR, OS, and PFS) of patients who received single-agent immunotherapy were not as good as those of patients who received platinum-containing chemotherapy or immunotherapy combined with platinum-containing chemotherapy [44] (Table 3).
In patients with EGFR mutations, higher PD-L1 expression seems to be related to longer PFS. However, the immune environment of EGFR mutant tumors is very complex, and the use of factors such as PD-L1 to predict immune efficacy is far from sufficient. A variety of immune parameters have been found to be related to the response of EGFR mutant tumors to immunotherapy, including PD-L1 expression, tumor mutation burden (TMB), the human leukocyte antigen (HLA)-T-cell receptor (TCR) axis, tumor metabolic factors, tumorinfiltrating lymphocytes (TILs), immune cell infiltration, and soluble molecules [45].
A retrospective study in China included 35 NSCLC patients with EGFR ex20ins mutations and reported their immune microenvironment features. A total of 48.6% of the patients (17/35) had positive PD-L1 expression, and PD-L1 was identified as an independent predictive factor [46]. An observational longitudinal cohort study enrolled 88 Hispanic NSCLC patients with EGFR ex20ins mutations. The results of the study showed that the average PD-L1 expression in this population appeared to be higher than that of patients with common EGFR mutations, and 81.7% of the patients had positive PD-L1 expression (1-50%) [47]. A recent study described the treatment outcomes and immunophenotypic characteristics of 6290 NSCLC patients. The proportion of tumors with PD-L1 expression ≥1% (22% vs. 60%; p < 0.001) was lower in patients with EGFR ex20ins mutations than in patients with other forms of NSCLC [48]. In different studies of EGFR ex20ins mutations, the expression of PD-L1 varies greatly, which may be related to the antibody and detection technology employed. However, these discrepancies seem to imply that the PD-L1 expression level alone cannot predict the response of patients with EGFR ex20ins mutations to immunotherapy.
Previous studies have shown that a higher TMB can enhance the immunogenicity of tumors by increasing the number of new antigens, which is related to better immunotherapy effects [49][50][51][52]. Compared with wildtype patients, patients with genetic driver mutations such as EGFR mutations have significantly lower TMB [53]. Analysis of The Cancer Genome Atlas (TCGA) TMB data showed that the mutation load was relatively lower in patients with EGFR mutation than in patients with wild-type EGFR (median TMB: 56 vs. 181, p < 0.001). The median TMB was lower in EGFR ex20ins patients than in other NSCLC patients (3.5 vs. 5.9, 10 p < 0.001) [48]. Lower TMB levels also seem to predict poor immunotherapy response.
TILs are important cells that can infiltrate tumor nests and stroma to exert a killing effect. A higher density of CD8+ TILs is associated with better clinical outcomes [54,55]. However, in patients with EGFR ex20ins mutations, neither CD4+ TILs nor CD8+ TILs show predictive value (p = 0.503 and p = 0.095, respectively) [46].
However, clinical trials of immunotherapy in patients with EGFR ex20ins mutations are lacking. Determining whether PD-1/PD-L1 inhibitors can bring greater benefits to patients with EGFR ex20ins mutations than chemotherapy requires further clinical studies.

Emerging therapies and ongoing clinical trials
For patients with EGFR ex20ins mutations, a variety of new drugs are currently in development. Combination therapy has become a trend in drug development, and some clinical trials are ongoing. Currently known and relatively mature drugs include mobocertinib (TAK-788), amivantamab (JNJ372), poziotinib and furmonertinib (Tables 4 and 5 and Fig. 1).

Poziotinib
Poziotinib is an orally available quinazoline-based EGFR inhibitor. Jacqulyne P. Robichaux et al. used in vitro and in vivo experiments to simulate the structural changes caused by exon 20 mutations, and 3D modeling showed a decreased size of the drug-binding pocket. Poziotinib has advantages in size and structure compared to other EGFR-TKIs. Its smaller terminal and substituent linkers make it more flexible. Moreover, poziotinib can overcome the effects of steric hindrance and bind tightly to the drug-binding pocket. In xenograft models derived from patients with EGFR or HER2 exon 20 mutant NSCLC and genetically engineered NSCLC mouse models in vitro, poziotinib showed stronger activity than approved EGFR-TKIs [62]. ZENITH20, a multicenter, multicohort phase II clinical trial, was designed to evaluate the efficacy and safety of poziotinib in NSCLC patients with EGFR or HER2 ex20ins mutations. The cohort 1 study included 115 NSCLC patients with EGFR ex20ins mutations who had previously received treatment with poziotinib. The ORR and DCR were 14.8 and 69%, respectively. The mPFS and median DOR were 4.2 and 7.4 months, respectively. Although the ZENITH20 cohort 1 study did not meet the primary endpoint of ORR, poziotinib did shrink tumors in most (65%) patients. The cohort 3 study included 79 patients with EGFR ex20ins mutations who were treated with first-line poziotinib. The ORR was 27.8%, the DCR was 86.1%, the mPFS was 7.2 months, and the median DOR was 9.2 months [56].

Mobocertinib (TAK-788)
Mobocertinib is an oral TKI specifically designed to selectively target EGFR ex20ins mutations. Determining which of the residues to target was difficult due to the absence of amino acid substitutions at the binding site. However, the researchers found in a docking model that an unoccupied pocket remains after binding of the EGFR ex20insNPG mutant to osimertinib, which can be accessed by substitution at the pyrimidine ring. Therefore, the isopropyl ester in mobocertinib was specifically designed to interact with the gatekeeper residues within this pocket. Furthermore, mobocertinib binds irreversibly to the Cys797 residue in EGFR, forming a covalent interaction. This bond has a higher affinity. In October 2020, mobocertinib was awarded "Breakthrough Therapy Certification" in China. In July 2021, the results of a phase 1/2 trial of mobocertinib were accepted by the Center for Drug Evaluation (CDE) of the National Medical Products Administration of China and are under review. On September 15, 2021, the US Food and Drug Administration (FDA) approved the application of mobocertinib for adult patients with locally advanced or metastatic NSCLC with EGFR ex20ins mutations. The   approval was based on data from patients who had previously received platinum-based chemotherapy in a phase 1/2 trial of mobocertinib. The trial enrolled 114 patients with EGFR ex20ins mutation-positive NSCLC who had previously received platinum-based chemotherapy. These patients received treatment at a dose of 160 mg. The results of the phase 1/2 trial were announced at the 2021 American Society of Clinical Oncology (ASCO) annual meeting. The ORR confirmed by the Independent Review Committee (IRC) was 28% (the ORR determined by the investigators was 35%). The median DOR confirmed by the IRC was 17.5 months, the mOS was 24 months, the mPFS confirmed by the IRC was 7.3 months, and the DCR reached 78%. The safety was similar to that of other EGFR-TKIs. A total of 22-25% of the patients developed adverse events (AEs) that required dose adjustment. A total of 10-17% of the patients stopped treatment due to AEs [57].

Amivantamab (JNJ-372)
Amivantamab is a fully human EGFR/MET bispecific mAb. It has two binding arms (a monovalent arm that binds to EGFR and another monovalent arm that binds to MET). Amivantamab is capable of blocking ligandinduced phosphorylation of EGFR and cMet, thus blocking the activation of the signaling pathway, transmitting signals downstream, and inhibiting the proliferation of tumor cells expressing relevant molecules. Amivantamab also has immune cell-targeting activity and is designed to interfere with two different signaling pathways. By binding to the extracellular domain of each receptor, amivantamab can inhibit ligand binding, promote the endocytosis and degradation of receptor-antibody complexes, and induce Fc-dependent phagocytosis of macrophages and antibody-dependent natural killer cell cytotoxicity [63][64][65].
CHRYSALIS was the first phase I clinical trial conducted in humans to evaluate the efficacy, safety and pharmacokinetics of amivantamab in patients with advanced NSCLC. Patients with EGFR ex20ins mutations who had previously received platinum-containing chemotherapy were recruited for the study. The results showed that the mOS was 22.8 months, the mPFS was 8.3 months, and the ORR was 40% in the amivantamab group [58,66]. Based on these results, the FDA approved amivantamab for the treatment of adult patients with EGFR ex20ins mutations who experience progression after failure of platinum-containing chemotherapy.

CLN-081
CLN-081 is a new oral EGFR-TKI that has a wide range of activities against clinically relevant EGFR mutations (including ex20ins mutations). In vitro, the activity of wild-type EGFR is weaker than that of EGFR ex20ins mutants, suggesting that CLN-081 has a more favorable clinical treatment window [67,68]. In a trial evaluating CLN-081, patients with EGFR ex20ins who had previously received platinum-based therapy were enrolled and received CLN-081 twice a day (BID) for 21 days as a cycle. The doses included 30 mg, 45 mg, 65 mg, 100 mg, and 150 mg. Ninety-eight percent (41/42) of patients achieved a best response of SD or PR. Seventy-six percent of Combination therapy has become a trend in some clinical trials. Currently known and relatively mature drugs include mobocertinib, amivantamab, poziotinib and furmonertinib patients had tumor shrinkage at the first assessment. Responses were also seen in the group of patients who had previously received ICIs or EGFR-TKIs.
Moreover, the symptoms reported by patients, such as dyspnea, shortness of breath, and coughing, could be rapidly improved [59].

DZD9008
DZD9008 is a small molecule compound designed for EGFR/HER2 ex20ins mutant cancer. James Chih-Hsin Yang et al. explored the efficacy and safety of DZD9008 in NSCLC patients with EGFR ex20ins mutation, and the results showed that DZD9008 has good safety and antitumor efficacy in EGFR ex20ins NSCLC patients. Overall, 56 patients with EGFR ex20ins mutations who underwent efficacy evaluation had more than 16 [60]. The researchers plan to further explore the impact of the two doses (200 mg and 300 mg) on the survival benefits of patients.

Furmonertinib
Furmonertinib has a more innovative structure than osimertinib. Compared with osimertinib, which contains an anisole, furmonertinib has a more hydrophobic trifluoroethoxypyridine structure. In the binding region, the concave hydrophobic pocket composed of the hydrophobic amino acids L792 and M793 has higher affinity, which improves the activity of the drug itself. The initial results of the FAVOUR study showed that in advanced EGFR ex20ins NSCLC patients treated with first-line furmonertinib, the IRC-confirmed ORR was 60%, the ORR determined by the investigators was 70%, and the DCR was 100%. Preliminary reports of furmonertinib therapy have shown good efficacy and safety. Based on these findings, further clinical research on furmonertinib combined with chemotherapy, drugs targeting other pathways and antiangiogenic drugs should be carried out in the future. In addition, further exploration of the study data is ongoing [61].

Other combination therapies and ongoing research
At present, platinum-based chemotherapy is still the most commonly used first-line treatment for patients with EGFR ex20ins NSCLC, and the efficacy of existing TKIs is not satisfactory. Several clinical trials designed to evaluate the safety and efficacy of combination therapy are underway. For example, osimertinib combined with bevacizumab, afatinib plus cetuximab, and amivantamab plus chemotherapy are being tested. The final results of these studies are still awaited (Table 5).

Summary and prospects
The proportion of patients with EGFR ex20ins mutations is not large. Regardless, given the number of lung cancer patients in China and the world, these patients still represent a substantial group that cannot be ignored. If an effective treatment strategy can be found, it will undoubtedly improve the overall quality of life of lung cancer patients.
In recent years, antibody−drug conjugates (ADCs) have achieved substantial progress in the treatment of solid tumors, especially for lung cancer. ADCs exploit three main components: antigens, antibodies and small molecule toxic drugs. Antigens have high homogeneous expression in tumor cells, and antibodies have high affinity for tumor antigens and reduced immunogenicity through chimerism or humanization. ADCs selectively deliver effective cytotoxic drugs to antigen-expressing tumor cells by exploiting the properties of mAbs. MRG003 is a novel ADC composed of a humanized anti-EGFR mAb conjugated to MMAE via a vclinker. A phase I study of MRG003 demonstrated a manageable safety profile and showed encouraging antitumor activity in patients with advanced pretreated solid tumors, including patients with nasopharyngeal carcinoma and squamous cell carcinoma of the head and neck. If population stratification can be achieved, it will be possible to develop new treatments for patients with EGFR ex20ins mutations in the future. A double-dose osimertinib regimen was well tolerated and demonstrated clinical activity. Although the results need to be verified in large-scale clinical trials, increasing the dose of targeted drugs undoubtedly provides benefits for the treatment of NSCLC patients with EGFR ex20ins mutations. In addition, combination therapy is worthy of basic and clinical exploration in these patients.
Both amivantamab and mobocertinib are FDAapproved for the treatment of adult patients with locally advanced or metastatic NSCLC harboring EGFR ex20ins mutations that has progressed after prior chemotherapy. Although these two drugs are currently approved for the second-line treatment of EGFR ex20ins mutant NSCLC, chemotherapy is still the standard first-line treatment commonly used globally. More treatment strategies, especially first-line treatment strategies, still need to be explored.
The treatment of patients with EGFR ex20ins mutations is still challenging. On the one hand, there are problems related to the detection of EGFR ex20ins mutations. The detection rate is low due to the diversity and complex structures of the insertions. Data from Foundation Medicine showed that 51.4% of mutations were missed by PCR compared to NGS. NGS provides more comprehensive detection of EGFR ex20ins mutations, but there are not yet detection standards or specifications. On the other hand, most of the currently approved indications and completed clinical studies have been in second-line and later settings, and there is a substantial unmet need for first-line treatments for patients. Finally, the mechanisms of targeted drug resistance, for example, the mechanism of resistance to first-line/second-line mobocertinib, are worthy of attention, as are the incidences of AEs and the treatment options after drug resistance. In view of the above problems, further in-depth basic research is needed.