Efficacy on symptoms and mortality day vs. night administration of EGFR-TKIs for advanced non-small cell lung cancer.

PURPOSE: This study has a purpose to investigate the side effects of three EGFR-TKIs targeted therapeutic agents (gefitinib, erlotinib, and afatinib) and all-cause mortality in patients with metastatic lung cancer. METHODS: We performed a prospective cohort study. We selected all patients with newly diagnosed metastatic lung cancer between January and November 2019. Main exposure was daytime versus nighttime use of targeted EGFR TKIs. The study outcome was a symptom change using the mobile application, and all-cause mortality between January 2019 and March 2023. RESULTS: Among the 87 study participants, 35 (40%) took their medication at night. Among the 87 study participants, 35 (40%) took their medication at night. At 6 weeks of treatment, acne (1.36; 95% confidence interval [CI] 1.09, 1.64; p for interaction = 0.04) and dry skin (1.35; 95% CI 1.09, 1.61, p for interaction = 0.01) in the day group showed a much increase from baseline compared to the night group. In contrast, the night group reported greater reductions in lung cancer-related symptoms from baseline compared to the day. During follow-up (median 43 months), the night group had a lower risk of all-cause death than the day group, especially in younger patients (adjusted hazard ratio = 0.34; 95% CI 0.13, 0.87). CONCLUSIONS: The group taking EGFR-TKIs at night experienced fewer side effects and had longer overall survival compared to the day group. Clinicians should consider recommending that lung cancer patients take their once-daily oral anticancer drugs in the evening rather than the morning to improve treatment outcomes.

Oral in vivo biodistribution of fluorescent labelled nano lipid carrier system of erlotinib using real time optical imaging technique.

This study investigates the biodistribution of a nano lipid carrier system (NLCs) containing the hydrophobic drug erlotinib (ERL-NLCs). The system was labelled with the fluorescent dye IR-780 for real-time dynamic imaging. ERL-NLCs were initially developed using the ultrasonication method with oleic acid and stearic acid. In vitro and ex vivo studies were performed to confirm the formation and penetration of NLCs within the intestine. Subsequently, the biological distribution of ERL-NLCs was monitored using a fluorescent dye through the IVIS® fluorescent optical imaging technique in whole live animals. Mice were orally administered blank IR 780 dye solution, ERL suspension, and IR 780 labelled NLCs. Fluorescence images were acquired at different time intervals up to 24 h and then total radiant efficiency was calculated through the region of interest (ROI) of the whole animal at each interval of time for all three groups. To validate the results obtained from in vivo imaging, various organs including lungs, heart, liver, both kidneys, stomach, and intestine were subsequently extracted and examined after 24 h. The ROI was found to be higher in the blank IR 780 dye solution, followed by the drug suspension and IR 780 labelled NLCs. These results confirm that the plain ERL suspension distributes across the body, and its encapsulation in NLCs facilitates passage through the lymphatic intestinal pathway, effectively avoiding first-pass metabolism. The remarkable results indicated that the NLCs formulation effectively circumvents first-pass metabolism by adopting the intestinal lymphatic pathway, thereby enhancing the oral bioavailability of the drug. This observed behaviour underscores the potential of NLCs in optimizing drug delivery and minimizing adverse effects associated with gastrointestinal and metabolic processes.

Bevacizumab Erlotinib Switch Maintenance in Chemo-Responsive Advanced Gallbladder and Cholangiocarcinoma (BEER BTC): A Multicenter, Open-Label, Randomized, Phase II Trial.

PURPOSE: Patients with chemotherapy-responsive advanced biliary tract cancers (BTCs) are usually observed after 6 months of gemcitabine-based therapy. There is limited prospective evidence for maintenance strategies after chemotherapy. METHODS: This investigator-initiated, open-label, randomized, integrated phase II-III study enrolled adult patients with advanced BTC from two cancer centers in India. Patients with histologically confirmed advanced biliary tract adenocarcinoma who had at least disease stabilization after 6 months of gemcitabine-based chemotherapy were randomly assigned (1:1) to either active surveillance or switch maintenance, which was a combination of bevacizumab 5 mg/kg intravenous once every 21 days plus erlotinib 100 mg once daily. Both arms were continued until disease progression, unacceptable toxicity, or patient decision to withdraw. The primary end point of the phase II component of the trial was investigator-evaluated progression-free survival. This trial is registered with Clinical Trials Registry of India (CTRI/2019/05/019323I). RESULTS: From May 2021 to November 2022, 98 patients were randomly assigned to active surveillance (n = 49) or bevacizumab-erlotinib (n = 49). A majority of patients had gallbladder cancer (80%). The median follow-up was 13.4 months. The median progression-free survival was 3.1 months (95% CI, 2.47 to 3.64) in the active surveillance group versus 5.3 months (95% CI, 3.53 to 7.04) in the bevacizumab-erlotinib group (hazard ratio, 0.51 [95% CI, 0.33 to 0·74]; P = .0013). The most common grade 3 class-specific adverse events associated with bevacizumab-erlotinib were acneiform rash 1 (2%) and oral stomatitis 1 (2%) with erlotinib and bleeding 1 (2%) with bevacizumab. CONCLUSION: The combination of bevacizumab and erlotinib as switch maintenance improves progression-free survival with an acceptable safety profile compared with active surveillance in patients with advanced BTCs in this phase II study. The trial moves on to the phase III component to evaluate improvement in overall survival.

Real-world outcomes of atypical EGFR-mutated metastatic non-small cell lung cancer (mNSCLC)treated with osimertinib (osi) vs. Afatinib or erlotinib.

OBJECTIVES: Limited data are available comparing the efficacy of osi versus earlier generation TKIs for mNSCLC with atypical EGFR mutations (AMs) such as L861Q, G719X, S768I and exon20. METHODS: We performed a single-institution retrospective analysis of patients with EGFR-mutated mNSCLC treated from 2007 to 2023 with 1L TKIs, comparing outcomes for AM patients treated with osi, afatinib, and erlotinib. Baseline demographics, disease characteristics, treatment history, toxicity, and clinical outcomes were abstracted from the electronic medical record and compared between TKIs using independent sample t-tests and chi-square analyses. Median progression free survival (mPFS) and overall survival (mOS) were compared via Kaplan-Meier log-rank analysis and Cox multivariable regression. RESULTS: Among 355 patients with EGFR-mutated mNSCLC, 36 (10 %) harbored AMs in G719X (N=21; 6 %), Exon 20 (N=11; 3 %), L861Q (N=7; 2 %), S768I (N=4; 1 %), C797S (N=1; 0.3 %); 6 patients had compound mutations. Patients with classical mutations (CMs) vs AMs had similar baseline demographic and disease characteristics and usage of TKIs (p = 0.124). Among AM patients, osi yielded superior mPFS (22 m) vs afatinib (12 m; p = 0.005) or erlotinib (9 m; p = 0.001). mOS was likewise superior for osi (32 m) vs afatinib (21 m; p = 0.032) or erlotinib (17 m; p = 0.011). Dose-reduction rates due to AEs were lower for osi (19 %) vs afatinib (24 %; p = 0.003) or erlotinib (23 %; p = 0.002). Discontinuation rates due to AEs were lower for osi vs afatinib (1 % vs 2 %; p < 0.001) or erlotinib (2 %; p = 0.004). CONCLUSIONS: In a large real-world analysis, osi demonstrated superior progression-free and overall survival and improved tolerability compared to afatinib or erlotinib for atypical EGFR-mutated mNSCLC.

Combination of monensin and erlotinib synergistically inhibited the growth and cancer stem cell properties of triple-negative breast cancer by simultaneously inhibiting EGFR and PI3K signaling pathways.

BACKGROUND: Cancer stem cells (CSCs) in triple-negative breast cancer (TNBC) are recognized as a highly challenging subset of cells, renowned for their heightened propensity for relapse and unfavorable prognosis. Monensin, an ionophoric antibiotic, has been reported to exhibit significant therapeutic efficacy against various cancers, especially CSCs. Erlotinib is classified as one of the EGFR-TKIs and has been previously identified as a promising therapeutic target for TNBC. Our research aims to assess the effectiveness of combination of monensin and erlotinib as a potential treatment strategy for TNBC. METHODS: The combination of monensin and erlotinib was assessed for its potential anticancer activity through various in vitro assays, including cytotoxicity assay, colony formation assay, wound healing assay, transwell assay, mammosphere formation assay, and proportion of CSCs assay. Additionally, an in vivo study using tumor-bearing nude mice was conducted to evaluate the inhibitory effect of the monensin and erlotinib combination on tumor growth. RESULTS: The results indicated that combination of monensin with erlotinib synergistically inhibited cell proliferation, the migration rate, the invasion ability and decreased the CSCs proportion, and CSC markers SOX2 and CD133 in vivo and in vitro. Furthermore, the primary proteins involved in the signaling pathways of the EGFR/ERK and PI3K/AKT are simultaneously inhibited by the combination treatment of monensin and erlotinib in vivo and in vitro. CONCLUSIONS: The simultaneous inhibition of the EGFR/ERK and PI3K/AKT/mTOR signaling pathways by the combination of monensin and erlotinib exhibited a synergistic effect on suppressing tumor proliferation and cancer cell stemness in TNBC.

Functionalized solid lipid nanoparticles combining docetaxel and erlotinib synergize the anticancer efficacy against triple-negative breast cancer.

The goal of the study was to fabricate folic acid functionalized docetaxel (DOC)/erlotinib (ERL)-loaded solid lipid nanoparticles (SLNs) to synergistically increase the anticancer activity against triple-negative breast cancer. DOC/ERL-SLNs were prepared by the high shear homogenization - ultrasound dispersion method (0.1 % w/v for DOC, and 0.3 %w/v for ERL) and optimized using Plackett Burman Design (PBD) followed by Box Behnken Design (BBD). The optimized SLNs demonstrated particle size < 200 nm, PDI < 0.35, and negative zeta potential with entrapment and loading efficiency of ∼80 and ∼4 %, respectively. The SLNs and folic acid functionalized SLNs (FA-SLNs) showed sustained release for both drugs, followed by Higuchi and Korsemeyer-Peppas drug release models, respectively. Further, the in vitro pH-stat lipolysis model demonstrated an approximately 3-fold increase in the bioaccessibility of drugs from SLNs compared to suspension. The TEM images revealed the spherical morphology of the SLNs. DOC/ERL loaded SLNs showed dose- and time-dependent cytotoxicity and exhibited a synergism at a molar ratio of 1:3 in TNBC with a combination index of 0.35 and 0.37, respectively. FA-DOC/ERL-SLNs showed enhanced anticancer activity as evidenced by MMP and ROS assay and further inhibited the colony-forming ability and the migration capacity of TNBC cells. Conclusively, the study has shown that SLNs are encouraging systems to improve the pharmaceutical attributes of poorly bioavailable drugs.

Pharmacokinetic study of erlotinib in a pregnant woman with advanced non-small cell lung cancer and observation of the effects on the child growth.

AIMS: The aim of the study is to report the clinical and pharmacological observations from a pregnant patient treated with erlotinib in the second and third trimesters of pregnancy. METHODS: Maternal and neonatal blood levels and safety of erlotinib and its metabolites were evaluated. Child development was monitored for 6 years. RESULTS: A 31-year-old woman with stage IV lung adenocarcinoma with EGFR exon19 deletion began treatment with erlotinib 150 mg/day at 17 weeks of gestation. Although foetal growth retardation and oligohydramnios were observed at several times during the pregnancy, treatment was continued due to the severity of the maternal presentation, with ongoing foetal monitoring. The foetus seemed to tolerate and recover well without specific interventions. A healthy baby boy was delivered at 37 weeks gestation. The child grew and developed without any obvious issues. At last follow-up, at age 6 years, he was attending school at a grade appropriate for his age without health or developmental problems. Blood levels of erlotinib were 397-856 ng/mL at 18-37 weeks of gestation and 1190 ng/mL at 8 weeks postpartum. The blood concentration ratios of OSI-413-to-erlotinib ranged from 0.167 to 0.253 at 18-37 weeks of gestation, excluding 24 weeks, and 0.131 at 8 weeks postpartum. The maternal-to-foetal transfer rate of erlotinib, OSI-420 and OSI-413 were 24.5, 34.8 and 20.3%, respectively. CONCLUSION: Erlotinib use during the second and third trimester of pregnancy did not seem to cause any untoward effects on the developing foetus, or any long-lasting effects that could be detected during 6 years of follow-up of the child.

Central composite design augmented quality-by-design-based systematic formulation of erlotinib hydrochloride-loaded chitosan-poly (lactic-co-glycolic acid) nanoparticles.

Aim: This study aimed to formulate erlotinib hydrochloride (ERT-HCL)-loaded chitosan (CS) and poly (lactic-co-glycolic acid) (PLGA) nanoparticles (NPs) using Quality-by-Design (QbD) to optimize critical quality attributes (CQAs). Materials & methods: Quality target product profile (QTPP) and CQAs were initially established. Based on L8-Taguchi screening and risk assessments, central composite design (CCD) design was used to optimize NPs. Results: ERT-HCL-loaded CS-PLGA NPs had a mean particle diameter, zeta potential and entrapment efficiency of 226.50 ± 1.62 d.nm, 27.66 ± 0.64 mV and 78.93 ± 1.94 %w/w, respectively. The NPs exhibited homogenous spherical morphology and sustained release for 72 h. Conclusion: Using systematic QbD approach, ERT-HCL was encapsulated in CS-PLGA NPs, optimizing CQAs. These findings propel future research for improved NSCLC treatment.

Innovative erlotinib-loaded chitosan-PLGA nanoparticles, developed through a systematic QbD approach, promise enhanced drug delivery for NSCLC. Optimized for size, potential and entrapment efficiency, these particles demonstrate sustained release over 72 h. #DrugDelivery #QBD #NSCLC.

A phase 1b study of erlotinib and momelotinib for the treatment of EGFR-mutated, tyrosine kinase inhibitor-naive metastatic non-small cell lung cancer.

INTRODUCTION: Preclinical evidence suggests the feedforward cytokine loop of interleukin-6/Janus kinases (JAK)/STAT3 plays a role in epidermal growth factor receptor tyrosine kinase inhibitor (EGFR TKI) resistance in EGFR-mutated non-small cell lung cancer (NSCLC). METHODS: In this phase 1b study, the JAK1/2 and TANK-binding kinase 1 (TBK1) inhibitor momelotinib was evaluated in combination with erlotinib in patients with EGFR TKI-naive, EGFR-mutated NSCLC. After erlotinib lead-in (50, 75, 100, or 150 mg oral daily [QD]), momelotinib was combined and dose escalated in a 3 + 3 study design. The primary endpoint of maximum tolerated dose (MTD) of momelotinib was determined based on the incidence of dose-limiting toxicities (DLTs) during the first 28-day cycle. Secondary endpoints included efficacy and pharmacokinetics (PK). RESULTS: Eleven patients were enrolled across 3 dose levels of momelotinib (100 mg QD, 200 mg QD, and 100 mg twice daily [BID]). The MTD was momelotinib 200 mg QD in combination with erlotinib. Two DLTs of grade 4 neutropenia without fever and grade 3 diarrhea occurred at momelotinib 100 mg BID. Most common treatment-emergent adverse events included diarrhea, dry skin, fatigue, and decreased appetite; the vast majority being grades 1-2. The overall response rate was 54.5% (90% CI 27.1-80.0; all partial) and median progression-free survival was 9.2 months (90% CI 6.2-12.4). Momelotinib did not affect the PK of erlotinib. CONCLUSIONS: The JAK1/2 and TBK1 inhibitor momelotinib in combination with erlotinib did not appear to enhance benefit over the historical data of erlotinib monotherapy in patients with EGFR-mutated NSCLC. CLINICALTRIALS. GOV IDENTIFIER: NCT02206763.

A Rare Presentation of a Non-Asian Female With Metastatic Non-small-cell Lung Cancer Harboring EGFR L747P Mutation With Clinical Response to Multi-targeted Epigenetic and EGFR Inhibition.

BACKGROUND: Activating mutations of the epidermal growth factor receptor (EGFR) gene have been utilized to predict the effectiveness of EGFR tyrosine kinase inhibitor (TKI) therapy. The most common EGFR mutations are exon 19 deletion and exon 21-point mutation, which are sensitive to EGFR TKI. However, rare/complex EGFR mutations still exist, data of which are scarce and controversial. Hence, their role in response to standard therapy remains uncertain. CASE REPORT: We present the case of a patient diagnosed with stage IV lung adenocarcinoma for whom standard chemotherapies, including platinum agents, had failed. The patient was found to have an EGFR exon 19 (L747P) mutation, as evident in her liquid biopsy. This alteration has not been described before in the literature on non-Asian females. Data from the current case study highlight the aggressive nature of this type of EGFR mutation as indicated by the complete resistance to erlotinib. Using standard first-generation EGFR inhibitors in treating this point mutation was considered inadequate. However, this patient showed a substantial response when treated with erlotinib combined with epigenetic therapies, consisting of DNA methyltransferase and histone deacetylase inhibitors. For more than 8 years, the patient has been responding to combination therapy with a normal quality of life. CONCLUSION: This case represents a possible novel approach to reducing resistance in patients harboring this rare EGFR mutation which may translate to better outcomes.

A phase i study of ixazomib and erlotinib in patients with advanced solid tumors.

BACKGROUND: Preclinical studies have shown that the combined inhibition of EGFR and NF-kB pathways to target the RalB/TBK1 pathway led to synergistic antitumor activity. Based on this rationale, we conducted a Phase I dose-escalation study combining the EGFR inhibitor erlotinib with the NF-kB inhibitor ixazomib in advanced solid tumors. Patients and methods. Patients with advanced solid tumors were eligible. The bayesian optimal interval phase I dose escalation design was used to establish the maximum tolerated dose and recommended phase 2 dose (RP2D). Results. Nineteen patients with a range of solid tumors were enrolled. The most common treatment-related adverse events of any grade were diarrhea (42.1%, 8/19), followed by rash (36.8%, 7/19) and nausea (21.1%, 4/19). The combination RP2D for oral ixazomib was 4.0 mg on days 1, 8, and 15 of a 28-day cycle, with oral erlotinib 150 mg daily. While no patient achieved RECIST v1.1 objective responses, 3 patients with advanced sarcoma experienced durable RECIST v1.1 stable disease ≥ 6 months (8.4, 10.6, and 15.7 months) and the best response was -13% decrease in clear cell sarcoma. Conclusions. The combination of erlotinib and ixazomib was safe and well tolerated among patients with advanced cancer, with preliminary signals of antitumor activity in patients with advanced sarcoma.

Acquired Resistance Mechanism of EGFR Kinase Domain Duplication to EGFR TKIs in Non-Small Cell Lung Cancer.

PURPOSE: Epidermal growth factor receptor kinase domain duplication (EGFR-KDD) is a rare and poorly understood oncogenic mutation in non-small cell lung cancer (NSCLC). We aimed to investigate the acquired resistance mechanism of EGFR-KDD against EGFR-TKIs. MATERIALS AND METHODS: We identified EGFR-KDD in tumor tissue obtained from a patient with stage IV lung adenocarcinoma and established the patient-derived cell line SNU-4784. We also established several EGFR-KDD Ba/F3 cell lines: EGFR-KDD wild type (EGFR-KDDWT), EGFR-KDD domain 1 T790M (EGFR-KDDD1T), EGFR-KDD domain 2 T790M (EGFR-KDDD2T), and EGFR-KDD both domain T790M (EGFR-KDDBDT). We treated the cells with EGFR tyrosine kinase inhibitors (TKIs) and performed cell viability assays, immunoblot assays, and ENU (N-ethyl-N-nitrosourea) mutagenesis screening. RESULTS: In cell viability assays, SNU-4784 cells and EGFR-KDDWT Ba/F3 cells were sensitive to 2nd generation and 3rd generation EGFR TKIs. In contrast, the T790M-positive EGFR-KDD Ba/F3 cell lines (EGFR-KDDT790M) were only sensitive to 3rd generation EGFR TKIs. In ENU mutagenesis screening, we identified the C797S mutation in kinase domain 2 of EGFR-KDDBDT Ba/F3 cells. Based on this finding, we established an EGFR-KDD domain 1 T790M/domain 2 cis-T790M+C797S (EGFR-KDDT/T+C) Ba/F3 model, which was resistant to EGFR TKIs and anti-EGFR monoclonal antibody combined with EGFR TKIs. CONCLUSION: Our study reveals that the T790M mutation in EGFR-KDD confers resistance to 1st and 2nd generation EGFR TKIs, but is sensitive to 3rd generation EGFR TKIs. In addition, we identified that the C797S mutation in kinase domain 2 of EGFR-KDDT790M mediates a resistance mechanism against 3rd generation EGFR TKIs.

Hypoxia-responsive pullulan-based nanoparticles as erlotinib carriers.

A hypoxia-responsive pullulan-based co-polymer was developed to assess its efficacy to deliver erlotinib (ERL) to the cervical cancer cells. Upon exposure to hypoxic condition, the synthesized and structurally characterized co-polymer i.e. succinyl pullulan-g-6-(2-nitroimidazole) hexylamine (Pull-SA-HA-NI) exhibited a hypochromic shift in the UV spectra and alteration in its self-assembled structures as compared to the control co-polymer, succinyl pullulan-g-hexylamine (Pull-SA-HA). Its corresponding ERL-loaded nanoparticles (NPs) displayed an attenuated crystallinity of pure ERL with excellent drug-trapping capacity (DEE, 94.23 ± 1.36%) and acceptable zeta potential (+39.21 ± 1.09 mV) and diameter (84.10 ± 2.10 nm) values. These also evidenced a faster drug release profile under hypoxic condition relative to the normoxic condition. The cellular internalization of the NPs was mediated through the energy-dependent endocytic process, which could utilize its multiple pathways (i.e., macropinocytosis, clathrin- and caveolae-mediated endocytosis). The ERL-loaded NPs suppressed HeLa cell proliferation and induced apoptosis more efficiently than the pristine drug.

Investigation of Biomarkers and Handling Strategy of Erlotinib-Induced Skin Rash in Rats.

Skin rash is a common adverse event associated with erlotinib therapy. In severe conditions, the rash could affect patients' QOL. If the rash occurrence can be predicted, erlotinib treatment failures can be prevented. We designed an in vivo study that applied erlotinib regimens resembling its clinical application to evaluate possible erlotinib-induced skin rash biomarkers for humans and simultaneously observe the effects of erlotinib discontinuation, followed with or without dose reduction, on rash development. Rats were divided into four groups: placebo, constant (erlotinib 35 mg/kg on d1-d21), intermittent (erlotinib 70 mg/kg on d1-d7 and d15-d21), and mimic (erlotinib 70 mg/kg on d1-d7 and erlotinib 35 mg/kg on d15-d21). Blood sampling was performed on d1, d8, d15, and d22. The samples were used to measure erlotinib concentrations, the level of hepatic and renal function markers, immune cell percentages, and immune cells' CD45 expression levels. Erlotinib 70 mg/kg generated high mean circulating erlotinib concentrations (>1800 ng/mL) that led to severe rashes. Erlotinib dose reduction following rash occurrence reduced circulating erlotinib concentration and rash severity. After the treatment, the escalation of neutrophil percentages and reduction of neutrophils' CD45 expression levels were observed, which were significantly correlated with the rash occurrence. This study is the first to show that erlotinib-induced skin rash may be affected by the reduction of neutrophils' CD45 expression levels, and this is a valuable finding to elucidate the erlotinib-induced skin rash formation mechanism.

Bevacizumab plus erlotinib in Chinese patients with untreated, EGFR-mutated, advanced NSCLC (ARTEMIS-CTONG1509): A multicenter phase 3 study.

Dual inhibition of epidermal growth factor receptor (EGFR) and vascular endothelial growth factor (VEGF) pathways may delay therapeutic resistance in advanced non-small cell lung cancer (NSCLC). This phase 3 study investigated the efficacy and safety of an erlotinib plus bevacizumab regimen in untreated patients with advanced NSCLC. In total, 311 patients received bevacizumab plus erlotinib (n = 157) or erlotinib only (n = 154). Progression-free survival (PFS) was 17.9 months (95% confidence interval [CI], 15.2-19.9) for bevacizumab plus erlotinib and 11.2 months (95% CI, 9.7-13.8) for erlotinib only (hazard ratio [HR] = 0.55; 95% CI, 0.41-0.73; p < 0.001). A brain metastases subgroup treated with bevacizumab plus erlotinib also showed improved PFS (HR = 0.48; 95% CI, 0.27-0.84; p = 0.008). Grade ≥3 treatment-related adverse events occurred in 86 (54.8%) and 40 (26.1%) patients, respectively. Bevacizumab plus erlotinib significantly improved PFS in patients with untreated metastatic EGFR-mutated NSCLC, including those with brain metastases at baseline.

Doxazosin and erlotinib have anticancer effects in the endometrial cancer cell and important roles in ERα and Wnt/ß-catenin signaling pathways.

ERα and Wnt/ß-catenin pathways are critical for the progression of most endometrial cancers. We aimed to investigate the cytotoxic and apoptotic effects of tamoxifen and quinazoline derivative drugs of doxazosin and erlotinib, and their roles in ERα and Wnt/ß-catenin signaling pathways in human endometrial cancer RL 95-2 cell. 3-(4,5-Dimethylthiazol-2yl)-2,5-diphenyltetrazolium bromide assay and xCELLigence systems were performed to evaluate cytotoxicity. Furthermore, apoptotic induction was tested by Annexin V analysis. Caspase-3 and -9 activity and changes in the mitochondrial membrane potential were evaluated. The level of reactive oxygen species was measured by incubating with dichlorofluorescein diacetate. Protein ratios of p-ERα/ERα, GSK3ß/p-GSK3ß, and p-ß-catenin/ß-catenin and expression levels of ESR1, EGFR, c-Myc genes were evaluated to elucidate mechanisms in signaling pathways. We found that the tested drugs showed cytotoxic and apoptotic effects in the cells. Doxazosin significantly reduced ESR1 expression, slightly reduced the p-ß-catenin/ß-catenin ratio and c-Myc expression. Erlotinib significantly increased c-Myc expression while significantly decreasing the p-ß-catenin/ß-catenin and p-ERα/ERα ratio, and ESR1 expression. However, we observed that the cells develop resistance to erlotinib over a certain concentration, suggesting that ERα, ESR1, EGFR, and c-Myc may be a new target for overcoming drug resistance in the treatment of endometrial cancer. We also observed that erlotinib and doxazosin play an important role in the ERα signaling pathway and can act as potent inhibitors of PKA and/or tyrosine kinase in the Wnt/ß-catenin signaling pathway in RL 95-2 cell. In conclusion, doxazosin and erlotinib may have a possible therapeutic potential in human endometrial cancer.

Erlotinib complexation with randomly methylated ß-cyclodextrin improves drug solubility, intestinal permeability, and therapeutic efficacy in non-small cell lung cancer.

The purpose of this study was to investigate the impact of anticancer drug erlotinib-randomly methylated-ß-cyclodextrin complex (ERL-RAMEB CD) on drug solubility and dissolution rate. Phase solubility study showed erlotinib displayed maximum solubility in RAMEB CD solution and the stability constant (Kc) was calculated to be 370 ± 16 M-1. The optimal formulation was obtained with ERL-RAMEB CD in a 1:1 molar ratio using the co-lyophilization technique. Differential scanning calorimetry (DSC) and Scanning electron microscopy (SEM) verified the inclusion of complex formation. In vitro dissolution study confirmed ERL-RAMEB CD as a favorable approach to increase drug dissolution with a 1.5-fold increase than free ERL at 1 h. An improved dissolution with ∼88.4% drug release at 1 h was observed, in comparison with Erlotinib with ∼58.7% release in 45 min. The in vitro cytotoxicity results indicated that the ERL-RAMEB CD inclusion complex reduced cell viability than free erlotinib. Caco-2 cell uptake that is indicative of drug intestinal permeability resulted in a 5-fold higher uptake of ERL-RAMEB CD inclusion complex than the ERL solution. Hence, ERL-RAMEB CD complexation displays a strong potential to increase dissolution and permeability of erlotinib leading eventually to enhanced oral bioavailability.

Kaempferol potentiates the sensitivity of pancreatic cancer cells to erlotinib via inhibition of the PI3K/AKT signaling pathway and epidermal growth factor receptor.

Erlotinib (ERL) is an epidermal growth factor receptor (EGFR) tyrosine kinase inhibitor (TKI) of pancreatic cancer (PC). However, the clinical efficacy of ERL is limited due to the activation of alternative pathways that bypass the EGFR signaling. Kaempferol (KAE), a natural flavonoid compound, has been reported to possess potent anti-tumor and anti-inflammatory properties, and in this study, we aimed at identifying the sensitization effect of KAE on ERL monotherapy in PC cells and mouse models. Briefly, the CCK-8, colony formation, and flow cytometry were used to assess the proliferation and apoptosis of two PC cell lines in response to a treatment combination of KAE and ERL. Additionally, the drug-disease targets and related anti-PC mechanisms of KAE and ERL were predicted with a network pharmacology method. The survival outcome for PC patients with EGFR differential expression was evaluated through survival analysis. The molecular docking technique predicted the affinity between KAE and EGFR. Moreover, western blot (WB) and immunohistochemistry (IHC) analyses were applied to verify the expression levels of related proteins. As a result, in vitro results showed that the combination of KAE and ERL significantly inhibited cell proliferation and promoted cell apoptosis compared to that with ERL alone. Network pharmacology results demonstrated that KAE sensitized PC to ERL treatment may likely be related to the PI3K/AKT signaling pathway and EGFR TKI resistance. Survival analysis illustrated that PC patients with high expression of EGFR had a relative lower survival rate. Molecular docking results further suggested that KAE had a high binding affinity of - 8.9 kcal/mol with EGFR. WB results indicated that the combination of KAE and ERL dramatically downregulated the expression levels of p-EGFR, p-AKT, p-ERK1/2, and Bcl-2, and upregulated the expression levels of cleaved caspase-9, cleaved PARP, and Bax. The in vivo results revealed that treatment combination of KAE and ERL further reduced the volume and weight of subcutaneous grafted tumors. IHC results confirmed the WB results. These data imply that KAE may be a valid therapeutic candidate to potentiate PC cell sensitivity to ERL via inhibiting PI3K/AKT and EGFR signaling.

EGFR Alterations Influence the Cetuximab Treatment Response and c-MET Tyrosine-Kinase Inhibitor Sensitivity in Experimental Head and Neck Squamous Cell Carcinomas.

Background: Anti-EGFR antibody therapy is still one of the clinical choices in head and neck squamous cell carcinoma (HNSCC) patients, but the emergence of cetuximab resistance questioned its effectiveness and reduced its applicability. Although several possible reasons of resistance against the antibody treatment and alternative therapeutic proposals have been described (EGFR alterations, activation of other signaling pathways), there is no method to predict the effectiveness of anti-EGFR antibody treatments and to suggest novel therapeutics. Our study investigated the effect of EGFR R521K alteration on efficiency of cetuximab therapy of HNSCC cell lines and tried to find alternative therapeutic approaches against the resistant cells. Methods: After genetic characterization of HNSCC cells, we chose one wild type and one R521K+ cell line for in vitro proliferation and apoptosis tests, and in vivo animal models using different therapeutic agents. Results: Although the cetuximab treatment affected EGFR signalization in both cells, it did not alter in vitro cell proliferation or apoptosis. In vivo cetuximab therapy was also ineffective on R521K harboring tumor xenografts, while blocked the tumor growth of EGFR-wild type xenografts. Interestingly, the cetuximab-resistant R521K tumors were successfully treated with c-MET tyrosine kinase inhibitor SU11274. Conclusion: Our results suggest that HNSCC cell line expressing the R521K mutant form of EGFR does not respond well to cetuximab treatment in vitro or in vivo, but hopefully might be targeted by c-MET tyrosine kinase inhibitor treatment.