Mechanisms of tumor resistance to EGFR-targeted therapies

Background: Much effort has been devoted to development of cancer therapies targeting EGFR, based on its role in regulating cell growth. Small-molecule and antibody EGFR inhibitors have clinical roles based on their efficacy in a subset of cancers, generally as components of combination therapies. Many cancers are either initially resistant to EGFR inhibitors or become resistant during treatment, limiting the efficacy of these reagents. Objective/methods: To review cellular resistance mechanisms to EGFR-targeted therapies. Results/conclusions: The best validated of these mechanisms include activation of classic ATP-binding casette (ABC) multidrug transporters; activation or mutation of EGFR; and overexpression or activation of signaling proteins operating in relation to EGFR. We discuss current efforts and potential strategies to override these sources of resistance. We describe emerging systems-biology-based concepts of alternative resistance to EGFR-targeted therapies, and discuss their implications for use of EGFR-targeted and other targeted therapies.     

Small-molecule EGFR tyrosine kinase inhibitors for the treatment of cancer

Introduction: EGFR has been implicated in various malignancies such as NSCLC, breast, head and neck, and pancreatic cancer. Numerous drugs have been developed in order to target the tyrosine domain of EGFR as an approach in cancer treatment.

Areas covered: This article focuses on the different generations of EGFR tyrosine kinase inhibitors (TKIs). This spans from the emergence of the first-generation EGFR-TKIs to overcoming drug resistance using second-generation EGFR-TKIs and to reducing adverse effect (AE) using mutant-selective third-generation EGFR-TKIs.

Expert opinion: Current TKI treatment is frequently accompanied by drug resistance and/or serious AEs. There has been the promise of advancements in second-generation EGFR-TKIs that could overcome drug resistance, acting as second- or third-line salvage treatment, but this promise has yet to be met. That being said, both issues are currently being addressed with mutant-selective EGFR-TKIs with the expectation of bringing more EGFR-targeted therapy into the next phase of cancer therapy in the future.     

Molecular targeted therapy in recurrent glioblastoma: current challenges and future directions

Introduction: The survival of patients with glioblastoma (GBM), which is the most common primary brain malignancy, remains poor with current treatment modalities. However, an enhanced understanding of gliomagenesis is supporting the development of targeted molecular therapies with the potential for improving clinical outcomes.

Areas covered: Epidermal growth factor receptor (EGFR) and vascular endothelial growth factor receptor (VEGFR) initiate key signaling pathways in GBM; however, trials with anti-EGFR agents have failed to show improved outcomes. Bevacizumab, a monoclonal antibody targeting VEGF, remains the only FDA-approved molecular drug in GBM; yet its use has only improved progression-free survival without any improvement in overall survival. We review the evidence supporting the continued evaluation of targeted molecular therapies in recurrent GBM. In addition, newer potential therapies targeting other signaling pathways, heat shock proteins and proteosomes, as well as the concept of targeting glioma stem cells are discussed.

Expert opinion: The complex genetic origin of GBM makes it challenging to identify molecular subsets that may benefit from specific targeted therapies. Pathway inhibition, via multisite kinase inhibitors or a carefully selected combination of molecular drugs with or without cytotoxic agents, is currently undergoing evaluation in clinical trials and may improve outcomes in these patients.     

Early investigational drugs that target epidermal growth factor receptors for the treatment of head and neck cancer

Introduction: Squamous-cell carcinoma of the head and neck (SCCHN) remains a challenging clinical problem, due to the persistent high rate of local and distant failures and the occurrence of secondary primaries. For locally advanced SCCHN, a combination of chemotherapy (CT), radiation or surgery is often used, but there are limitations, which may reduce compliance. Molecular targeted therapies, namely anti-EGFR treatments, are in development with the aim of improving clinical outcomes and mitigating treatment-related toxicities.

Areas covered: This review provides an overview of early investigational drugs that target EGFR for the treatment of SCCHN and discusses the ongoing trials in this domain.

Expert opinion: Targeted therapies are increasingly used in oncology, especially in SCCHN. Cetuximab has demonstrated a significant improvement in the treatment outcome, both as a curative treatment in combination with radiation therapy and as a palliative treatment in combination with CT; however, it failed to show any benefit in combination with concomitant chemoradiotherapy. Presently, there are many new agents, including monoclonal antibodies and small-molecule tyrosine kinase inhibitors, which are either currently under investigation for or which warrant further investigation for treating SCCHN. The discovery of predictive factors that help to identify patients most likely to respond to EGFR inhibitors as well as patient-customized therapies would help to improve patient outcomes in the future.     

Targeting the epidermal growth factor receptor in solid tumors: focus on safety

Introduction: Inhibition of the EGFR has emerged as a promising anticancer strategy, offering improved efficacy and quality of life for patients affected by tumors. The overall level of toxicity associated with EGFR inhibitors is low compared to other chemotherapy drugs, although they are commonly associated with skin and gastrointestinal adverse events. Thus, patients' quality of life may be considerably affected both by a physical and a psychosocial perspective. Adverse events that lead to treatment interruption or cessation may significantly compromise their outcome.

Areas covered: This review summarizes the characteristics of the distinctive toxicities of drugs targeting EGFR, addressing their incidence, pathophysiology and clinical presentation with a focus on the management of skin rash and other relevant adverse events, according to the available clinical evidence. Data regarding the correlation between the development of skin rash and clinical outcome are also reported.

Expert opinion: Drugs targeting EGFR are associated with a lower overall incidence of systemic side effects compared to standard chemotherapeutic agents; nevertheless, an increased risk of distinct toxicities that may affect patient's quality of life and anticancer treatment compliance is observed. Thus, clinical training projects directed toward a more accurate knowledge of such adverse events are essential to maximize the progress of targeted therapies against cancer.     

Personalized treatment of EGFR mutant and ALK-positive patients in NSCLC

Introduction: The epidermal growth factor receptor (EGFR) is mutated in 15% of adenocarcinomas of the lung. In addition, the anaplastic lymphoma kinase (ALK) is altered in 8% of adenocarcinomas of the lung. Treatment of EGFR mutant and ALK translocation-positive tumors in NSCLC with tyrosine kinase inhibitors (TKI) results in a dramatic therapeutic response and has revolutionized therapy. Unfortunately, resistance to TKIs invariably develops. Many promising new therapies are under investigation to overcome the resistance.

Areas covered: We analyzed the current primary literature and recent national meetings to evaluate the clinical characteristics and therapeutic implications of relevant treatments for EGFR mutant and ALK-positive NSCLC in the first-line, acquired resistance, and adjuvant settings.

Expert opinion: Treatment with EGFR TKIs in the first-line setting of EGFR mutant NSCLC results in a significant clinical benefit. Several promising third generation EGFR TKIs are being evaluated in Phase II and III trials in the acquired resistance setting. Crizotinib is superior to chemotherapy in the first-line setting for ALK-positive NSCLC. Ceritinib is effective and approved for ALK-positive NSCLC in the acquired resistance setting. Continued investigation is needed to develop novel therapies to overcome acquired resistance to TKIs.     

Emerging EGFR antagonists for breast cancer

Introduction: The EGFR has been associated with the pathogenesis and progression of breast cancer. Treatment based on an EGFR target is emerging as a promising option, especially in combination with conventional therapies. Unfortunately, there are no validated predictor biomarkers, and combinatorial treatments are meeting new resistance.

Areas covered: The purpose of this review is to summarize the existing treatments and the current research based on targeting the EGFR pathway.

Expert opinion: The existing EGFR treatments in breast cancer have shown limited benefit. The combination of the monoclonal antibody cetuximab and platinum salts achieves a 15 – 20% response rate. The effectiveness of tyrosine kinase inhibitors is not completely clear, showing modest or no benefits. Gefitinib treatment has offered some promising results in estrogen receptor + breast cancer. However, it has not been identified as a predictive factor for the appropriate selection of patients. Radioimmunotherapy with anti-EGFR radiolabeled antibodies is a promising strategy in BRCA-mutated breast cancer, but it still requires clinical confirmation. Nevertheless, the crosstalk between pathways frequently leads to treatment resistance. Current research is focused on increasing knowledge about the mechanisms of response and the discovery of predictive markers. Targeting several pathways simultaneously and a correct selection of patients seem essential.     

Lipid nanoparticles for cancer therapy: state of the art and future prospects

Introduction: Cancer is a leading cause of death worldwide and it is estimated that deaths from this disease will rise to over 11 million in 2030. Most cases of cancer can be cured with surgery, radiotherapy or chemotherapy if they are detected at an early stage. However, current cancer therapies are commonly associated with undesirable side effects, as most chemotherapy treatments are cytotoxic and present poor tumor targeting.

Areas covered: Lipid nanoparticles (LN) are one of the most promising options in this field. LN are made up of biodegradable generally recognized as safe (GRAS) lipids, their formulation includes different techniques, and most are easily scalable to industrial manufacture. LN overcome the limitations imposed by the need for intravenous administration, as they are mainly absorbed via the lymphatic system when they are administered orally, which improves drug bioavailability. Furthermore, depending on their composition, LN present the ability to cross the blood–brain barrier, thus opening up the possibility of targeting brain tumors.

Expert opinion: The drawbacks of chemotherapeutic agents make it necessary to invest in research to find safer and more effective therapies. Nanotechnology has opened the door to new therapeutic options through the design of formulations that include a wide range of materials and formulations at the nanometer range, which improve drug efficacy through direct or indirect tumor targeting, increased bioavailability and diminished toxicity.     

Erlotinib: early clinical development in brain cancer

Introduction: Glioblastoma (GBM) is the most common brain cancer in adults. It is also, unfortunately, the most aggressive type and the least responsive to therapy. Overexpression of EGFR and/or EGFRvIII is frequently found in GBM and is frequently associated with the more malignant phenotype of the disease and a poor clinical outcome. EGFR-targeted therapy represents a promising anti-GBM therapy. Two EGFR kinase inhibitors, gefitinib and erlotinib have been tested in clinical trials for malignant gliomas. However, the clinical efficacy of EGFR-targeted therapy has been only modest in GBM patients.

Areas covered: The authors provide an evaluation of erlotinib as a potential therapy for GBM. The authors highlight experiences drawn from clinical trials and discuss the challenges, which include the insufficient penetration through the blood–brain barrier (BBB) and chemoresistance.

Expert opinion: Malignant brain tumours have a very complex signalling network that is not only driven by EGFR. This complexity dictates tumour sensitivity to EGFR-targeted therapies. Alternative kinase signalling pathways may be involved in parallel with the inhibited target, so that a single target’s inactivation is not sufficient to block downstream oncogenic signalling. The use of nanocarriers offers many opportunities, such as the release of the drug to specific cells or tissues, together with the ability to overcome different biological barriers, like the BBB.     

Epidermal growth factor receptor (EGFR)-targeted therapies in mesothelioma

Introduction: Malignant mesothelioma (MM) is an aggressive malignancy arising from the mesothelial cells lining the pleura and other serosal membranes. It is associated with an extremely poor prognosis and has limited therapeutic options.

Areas covered: Epidermal growth factor receptor (EGFR) is known to be highly overexpressed in mesothelioma with reported EGFR overexpression between 44 to 97%. Given this, several anti-EGFR agents have been trialed in mesothelioma. In this review, we provide an overview of the current available data on anti-EGFR therapies in MM and future directions of investigation with these targeted agents in MM.

Expert opinion: While many anti-EGFR therapies have failed to show significant efficacy in the management of MM, the pathway is biologically active and its abrogation preclinically points toward it being a valid target. Toward targeting the pathway, many novel EGFR-based therapies are still being investigated. Current ongoing research of interest in MM include EGFR-targeted nanotechnology approach for drug delivery, antibodies targeting the extracellular EGFR and potentially anti-EGFR antibody drug conjugates.     

Targeting the RAS oncogene

Introduction: The Ras proteins (K-Ras, N-Ras, and H-Ras) are GTPases that function as molecular switches for a variety of critical cellular activities and their function is tightly and temporally regulated in normal cells. Oncogenic mutations in the RAS genes, which create constitutively-active Ras proteins, can result in uncontrolled proliferation or survival in tumor cells.

Areas covered: The paper discusses three therapeutic approaches targeting the Ras pathway in cancer: i) Ras itself, ii) Ras downstream pathways, and iii) synthetic lethality. The most adopted approach is targeting Ras downstream signaling, and specifically the PI₃K-AKT-mTOR and Raf-MEK pathways, as they are frequently major oncogenic drivers in cancers with high Ras signaling. Although direct targeting of Ras has not been successful clinically, newer approaches being investigated in preclinical studies, such as RNA interference-based and synthetic lethal approaches, promise great potential for clinical application.

Expert opinion: The challenges of current and emerging therapeutics include the lack of “tumor specificity” and their limitation to those cancers which are “dependent” on aberrant Ras signaling for survival. While the newer approaches have the potential to overcome these limitations, they also highlight the importance of robust preclinical studies and bidirectional translational research for successful clinical development of Ras-related targeted therapies.     

Towards a targeted multi-drug delivery approach to improve therapeutic efficacy in breast cancer

Importance of the field: Significant improvements in breast cancer treatments have resulted in a significant decrease in mortality. However, current breast cancer therapies, for example, chemotherapy, often result in high toxicity and nonspecific side effects. Other treatments, such as hormonal and antiangiogenic therapies, often have low treatment efficacy if used alone. In addition, acquired drug resistance decreases further the treatment efficacy of these therapies. Intra-tumor heterogeneity of the tumor tissue may be a major reason for the low treatment efficacy and the development of chemoresistance. Therefore, targeted multi-drug therapy is a valuable option for addressing the multiple mechanisms that may be responsible for reduced efficacy of current therapies.

Areas covered in this review: In this article, different classes of drugs for treating breast cancer, the possible reasons for the drug resistance in breast cancer, as well as different targeted drug delivery systems are summarized. The current targeting strategies used in cancer treatment are discussed.

What the reader will gain: This article considers the current state of breast cancer therapy and the possible future directions in targeted multi-drug delivery for treating breast cancer.

Take home message: A better understanding of tumor biology and physiological responses to nanoparticles, as well as advanced nanoparticle design, are needed to improve the therapeutic outcomes for treating breast cancer using nanoparticle-based targeted drug delivery systems. Moreover, selective delivery of multi-drugs to tumor tissue using targeted drug delivery systems may reduce systemic toxicity further, overcome drug resistances, and improve therapeutic efficacy in treating breast cancer.     

EGFR–PI3K–AKT–mTOR signaling in head and neck squamous cell carcinomas: attractive targets for molecular-oriented therapy

Importance of the field: Recent advances in the understanding of the oncogenesis of head and neck squamous cell carcinomas (HNSCC) have revealed multiple dysregulated signaling pathways. One frequently altered axis is the EGFR–PI3K–Akt–mTOR pathway. This pathway plays a central role in numerous cellular processes including metabolism, cell growth, apoptosis, survival and differentiation, which ultimately contributes to HNSCC progression.

Areas covered in this review: Books, journals, databases and websites have been searched to provide a current review on the subject.

What the reader will gain: This article reviews the current understanding of EGFR–PI3K–Akt–mTOR signaling in HNSCC, including the impact of both genetic and epigenetic alterations. This review further highlights the potential of targeting this signaling cascade as a promising therapeutic approach in the treatment of HNSCC.

Take home message: Genetic alterations of several nodes within this pathway, including both genetic and epigenetic changes, leading to either oncogene activation or inactivation of tumor suppressors have frequently been implicated in HNSCC. Consequently, drugs that target the central nodes of this pathway have become attractive for molecular oriented cancer therapies. Numerous preclinical and clinical studies are being performed in HNSCC; however, more studies are still needed to better understand the biology of this pathway.     

Update on emerging drug therapies for systemic lupus erythematosus

Importance of the field: Despite the improvement in survival of systemic lupus erythematosus (SLE), a cure for this chronic and disabling disease is still a myth. Refractory manifestations and treatment-related complications are still major causes for mortality and morbidity. More effective but less toxic therapies through modification of existing regimens, combination strategies or more specific targeting at the immunopathogenetic pathways are necessary.

Areas covered in this review: The availability of biotechnology has led to the emergence of targeted therapies for SLE. In the past 5 years, there have been a number of clinical trials in the pipeline that involve existing drugs or novel biological agents. This article updates different novel therapeutic approaches in SLE that have emerged since 2006.

What the readers will gain: Readers will read the latest information and critical appraisals regarding recent clinical trials in lupus. Expert opinions on future directions of SLE treatment trials are also provided.

Take home message: SLE is a clinically and immunologically heterogeneous disease. Targeted therapies are currently available but to the disappointment of the lupus community, data from many recent clinical trials are unfavorable. While flaws and limitations in the study design and outcome measures may contribute to the futility of these trials, selection of SLE subsets by serum and cellular biomarkers may identify those who will benefit from these targeted therapies.     

Standard of care and future pharmacological treatment options for malignant glioma: an urgent need for screening and identification of novel tumor-specific antigens

Introduction: Malignant gliomas (MGs) represent the most common primary brain tumors in adults, the most deadly of which is grade IV glioblastoma. Patients with glioblastoma undergoing current standard-of-care therapy have a median survival of 12 – 15 months.

Areas covered: Over the past 25 years, there have been modest advancements in the treatment of MGs. Assessment of therapeutic responses has continued to evolve to account for the increasing number of agents being tested in the clinic. Currently approved therapies for primary tumors have been extended for use in the setting of recurrent disease with modest efficacy. Agents initially approved for recurrent gliomas have begun to demonstrate efficacy against de novo tumors but will ultimately need to be evaluated in future studies for scheduling, timing and dosing relative to chemotherapy.

Expert opinion: Screening and identification of tumor-specific mutations is critical for the advancement of effective therapy that is both safe and precise for the patient. Two unique antigens found in glioblastoma are currently being employed as targets for immunotherapeutic vaccines, one of which has advanced to Phase III testing. Whole genome sequencing of MGs has yielded two other novel mutations that offer great promise for the development of molecular inhibitors.     

An update: emerging drugs to treat squamous cell carcinomas of the head and neck

ABSTRACT

Introduction: Subsequent to the 2006 FDA approval of cetuximab, a variety of molecular targeting agents have been evaluated in head and neck squamous cell carcinoma (HNSCC). The treatment outcomes of recurrent and/or metastatic (R/M) HNSCC, in particular, remain dismal. The 2016 FDA approval of PD-1 immune checkpoint inhibitors has expanded the treatment options for R/M HNSCC and highlights the potential for immune-based therapies.

Areas covered: We will review the clinical application of EGFR-targeted agents, alone and in combination with other drugs. Molecular targeting agents directed against the IL6/PI3K/STAT3 signaling pathway will be covered. In addition, evaluation of immune checkpoint inhibitors in HNSCC, along with ongoing combination trials incorporating these agents, will be discussed. The expanded indications of emerging drugs and the potential clinical benefit of new drugs and treatment combinations will be summarized.

Expert opinion: In recent years, there has been a major shift toward immunotherapy-based approaches for the treatment of HNSCC, leading to significant improvements in outcomes for a subset of patients. Leveraging the increased understanding of the genetic alterations that characterize individual HNSCC tumors will facilitate precision medicine approaches using targeted agents, immunotherapies, as well as standard chemotherapy and radiation.     

Current investigational drugs in psoriasis

Introduction : The advent of biologic therapies has revolutionized the treatment of psoriasis. Increased understanding of immunogenetic pathways has allowed for the development of more selective targeted biologic therapies. Multiple new treatments are currently in development for the treatment of psoriasis. Preliminary data for many of these agents, particularly with regard to agents targeting the IL-23/Th17 pathway, are promising. Proven long-term safety, however, is an absolute necessity with newly developed drugs, and should, therefore, still be considered second-line agents to current established treatments with long-term safety data.

Areas covered : This review details the mechanisms of action of drugs currently in development or in clinical trials for the treatment of psoriasis, using clinical trial registries and associated publications. Readers will gain a comprehensive overview about the mechanism of action of emerging treatments targeting various immune pathways deeply involved in psoriasis. Pathogenesis, clinical efficacy and safety data for these treatments are discussed where available.

Expert opinion : Psoriasis remains a heavily undertreated systemic immune-mediated disease despite increased understanding of immunopathogenesis of the disease and advent of a multitude of novel therapeutic agents with potentially improved bioavailability and safety profiles. Limitations, however, remain in the realm of topical agents for treatment of mild to moderate psoriasis, which has seen little progress over the years. A concerted effort will need to be made among researchers, clinicians and patient advocacy groups to ensure new therapeutic agents are developed and gain proper exposure.     

Molecular targeted therapy for patients with melanoma: the promise of MAPK pathway inhibition and beyond

Importance of the field: Recent discoveries have expanded the understanding of the molecular signaling events critical to melanomagenesis and led to the development of targeted therapeutic agents that are revolutionizing the treatment of patients with advanced melanoma.

Areas covered in this review: This article reviews current therapy and its limitations, describes the key pathogenic mechanisms in melanoma for which inhibitors have been tested, and summarizes the results of clinical trials involving molecularly targeted agents in this disease.

What the reader will gain: There has been an explosion of preclinical and clinical research aimed at targeting the key molecular alterations in melanoma for therapeutic benefit. These findings will be presented and placed in the proper clinical context, affording information regarding the current molecular targets in the melanoma and the activity and limitations of therapeutic agents directed against them.

Take home message: Greater understanding of the pathogenic mechanisms underlying melanoma development has prompted the development of new therapeutic approaches aimed at counteracting these processes. While progress made over the past few years has generated considerable excitement, the benefits of these new therapies are still limited by incomplete and transient tumor regressions. It is hoped that with further investigation, particularly into mechanisms of treatment de novo and acquired treatment resistance, these limitations can be overcome.     

Cytotoxic enhancement of hexapeptide-conjugated micelles in EGFR high-expressed cancer cells

Objectives: The aim of this study was to develop the hexapeptide-conjugated active targeting micelles for delivery of doxorubicin (DOX) and paclitaxel (PTX) to EGFR high-expressed cancer cells.

Methods: A hexapeptide, which mimicked the EGFR, was applied as a targeting ligand. The active targeting micelles were prepared using the synthesized poly(D,L-lactide-co-glycolide)–PEG copolymer conjugated with the hexapeptide. The micelles were used for encapsulating DOX and/or PTX, and the cellular uptake, in vitro drug release and cellular viability of drug-loaded peptide-conjugated and peptide-free micelles were investigated.

Results: The particle size of drug-loaded peptide-conjugated and peptide-free micelles was < 150 nm with narrow size distribution. The uptake of peptide-conjugated micelles was more efficient in EGFR high-expressed MDA-MB-468 and SKOV3 cells than in EGFR low-expressed HepG2 cells. The in vitro release of DOX and PTX was faster in pH 4.0 (500 U lipase) than in pH 7.4 release medium. The cytotoxicity in terms of IC₅₀ of DOX/PTX-loaded peptide-conjugated micelles was 4.8-folds lower than that of peptide-free micelles and 18.2-folds lower than DOX/PTX drug solution in SOKV3 cells.

Conclusion: The peptide-conjugated micelles acted as a nanocarrier to increase intracellular accumulation of anticancer drugs in EGFR high-expressed SKOV3 cancer cells to enhance cell cytotoxicity.     

Emerging protein kinase inhibitors for non-small cell lung cancer

Introduction: In the current paradigm of precision medicine in non-small cell lung cancer (NSCLC), the therapeutic strategy is determined by the molecular characteristics. The best examples of this approach are the kinase inhibitors that selectively target tumors bearing an epidermal growth factor receptor (EGFR) mutation or an anaplastic lymphoma kinase (ALK) rearrangement. Emerging protein kinase inhibitors may enhance our ability to effectively treat these and other genomic subtypes of NSCLC.

Areas covered: This article reviews the next-generation kinase inhibitors targeting EGFR and ALK-positive NSCLC. In addition, targeted kinase inhibitors in clinical development for other specific molecular subtypes of NSCLC are covered, including ROS1, BRAF, RET, HER2, KRAS (upstream of the MEK kinase), MET, PIK3CA, FGFR1, DDR2, VEGFR and AAK.

Expert opinion: In EGFR-mutant NSCLC, there are several kinase inhibitors with promising activity, most notably dacomitinib and CO-1686 in tumors with acquired resistance to EGFR-targeted therapy. Next-generation ALK inhibitors appear to have greater potency than crizotinib and several ongoing trials may shed light on their role in both ALK- and ROS1-positive NSCLC. While there is optimism regarding the role of kinase inhibitors in other molecular subtypes, the available evidence is too immature to make recommendations and results from prospective trials are needed.