Early clinical development of epidermal growth factor receptor targeted therapy in breast cancer

Introduction: Epidermal growth factor receptor (EGFR) targeted treatment has been evaluated but has not shown a clear clinical benefit for breast cancer. This review article aims to consider the knowledge of the biological background of EGFR pathways in dissecting clinical studies of EGFR targeted treatment in breast cancer.

Areas covered: This review focuses on the role of the EGFR pathway and the investigational drugs that target EGFR for breast cancer.

Expert opinion: Recent studies have indicated that EGFR targeted therapy for breast cancer has some promising effects for patients with triple-negative breast cancer, basal-like breast cancer, and inflammatory breast cancer. However, predictive and prognostic biomarkers for EGFR targeted therapy have not been identified. The overexpression or amplification of EGFR itself may not be the true factor of induction of the canonical pathway as an oncogenic driver of breast cancer. Instead, downstream, non-canonical pathways related to EGFR may contribute to some aspects of the biological behavior of breast cancer; therefore, the blockade of the receptor could result in sufficient suppression of downstream pathways to inhibit the aggressive behavior of breast cancer. Mechanistic studies to investigate the dynamic interaction between the EGFR pathway and non-canonical pathways are warranted.     

Role of osteopontin as a predictive biomarker for anti-EGFR therapy in triple-negative breast cancer

Objective: Effective targeted therapies for patients with triple-negative breast cancer (TNBC) present an unmet clinical need. There is evidence that TNBCs often have increased expression of the epidermal growth factor receptor (EGFR) and of osteopontin (OPN). OPN-mediated signaling can activate EGFR-dependent signaling pathways. Here, we assessed OPN as a potential predictive biomarker for response to anti-EGFR therapy in TNBC.

Research design and methods: Using two different TNBC cell lines, MDA-MB-468 and MDA-MB-231, we investigated the impact of stable expression of OPN on efficacy of the EGFR inhibitor erlotinib in vitro.

Results: We observed that breast cancer cells engineered to overexpress OPN are more sensitive to growth inhibition by erlotinib than control cells. The level of response was related to the level of OPN expression, possibly due to increased phosphorylation status of EGFR Tyr1068.

Conclusions: These results indicate that OPN expression levels are related to sensitivity of TNBC cells to growth inhibition by erlotinib. OPN thus is a promising predictive biomarker for anti-EGFR therapy in breast cancer.     

Epidermal growth factor receptor gene copy number may predict lapatinib sensitivity in HER2-positive metastatic breast cancer

Objective: Lapatinib, a dual HER2/EGFR tyrosine kinase inhibitor (TKI), associated to capecitabine represents the treatment of choice in HER2-positive metastatic breast cancer (BC) patients in progression after trastuzumab-based therapy. Though lapatinib-based therapy prolongs the time to progression, its efficacy is often limited by the development of drug resistance. It is aimed to evaluate novel biomarkers predictive of lapatinib response, we analyzed EGFR protein and gene status in a series of 50 metastatic HER2-positive BC patients.

Methods: Lapatinib was given at 1250 mg/day continuously and capecitabine at 2000 mg/m²/day every 3 weeks. EGFR protein expression and gene copy number (GCN) were assessed by immunohistochemistry and FISH, respectively. Receiver operating curve (ROC) analysis identified the value of > 3.36 EGFR copies/nucleus as the cut-off point able to discriminate responders versus non-responders.

Results: A statistical significant correlation between EGFR GCN value > 3.36 and response to lapatinib (p = 0.01) was found. Cox regression analysis further supported these findings evidencing that HER2 score 3+ and EGFR GCN increase are positive predictor factors of lapatinib response.

Conclusions: Though further investigations are needed to confirm these findings, EGFR GCN could be a suitable screening to identify the subset of BC patients particularly responsive to the dual TKI lapatinib.     

Emerging drugs targeting human epidermal growth factor receptor 2 (HER2) in the treatment of breast cancer

Introduction: Human epidermal growth factor 2 (HER2) overexpression is present in 20% of breast cancer patients. It is associated with more aggressive disease and worse clinical outcome. New drugs are thus needed. Approved and future treatments will be discussed in this review.

Areas covered: The monoclonal antibodies trastuzumab and pertuzumab, the tyrosine kinase inhibitor lapatinib and the antibody-drug conjugate trastuzmab emtansine are approved for HER2 positive breast cancer. The combination of trastuzumab, pertuzumab and docetaxel is currently the first-line treatment in the metastatic setting. New therapies are still needed due to frequent relapse and resistance. These include mammalian target of rapamycin inhibitors, heat shock protein 90 inhibitors, pan-HER2 tyrosine kinase inhibitors, antibody-drug conjugates, immunotherapy agents (antibodies and vaccines), radioimmunotherapy and HER2 specific affinity proteins. Possible developmental issues are the complexity of the molecular biology of the HER2 positive cancer cell, the occurrence of resistance, toxicity and the high cost.

Expert opinion: The determination of the right sequence of use of old and new therapies remains a challenging issue. The selection of patients who do or don’t benefit from potentially toxic chemotherapy is also difficult. Central nervous system metastases are a common problem in HER2 positive breast cancer that needs to be addressed in future trials.     

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.     

Emerging PARP inhibitors for treating breast cancer

ABSTRACT

Introduction: Some breast cancers harbor defects in DNA repair pathways, including BRCA1 and BRCA2 mutations, leading to a genomic instability. Compromised DNA-damage repair response is found in 11 to 42% of triple negative breast cancers, with a frequency varying according to family history and ethnicity. The oral PARP inhibitors are a promising strategy in breast cancer exploiting Homologous Deficient Recombination deficiency (HRD) by a synthetic lethal approach. Several PARP inhibitors have currently reached early phase trials with studies on going in the adjuvant, neoadjuvant and metastatic setting.

Area covered: Here, we review completed and ongoing trials with PARP inhibitors as well as their mechanisms of activity and acquired resistance.

Expert opinion: PARP inhibitors show promising results in breast cancer. However, several issues are raised including the identification of biomarkers to predict treatment response and strategies to counteract emerging resistance.     

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.     

mTOR inhibition in breast cancer: unraveling the complex mechanisms of mTOR signal transduction and its clinical implications in therapy

Introduction: The mammalian target of rapamycin (mTOR)/PI3K/Akt pathway is altered in breast cancer cells, as demonstrated by mutations in both the upstream and downstream regulators of mTOR, including phosphatase and tensin homolog deleted in chromosome 10 (PTEN) loss or Akt/PI3K activation, and potentially in the mTOR protein itself. This contributes to increased cell proliferation, as well as growth-factor independence and endocrine resistance. Thus, mTOR inhibition holds considerable promise as a rational therapeutic strategy in breast cancer.

Areas covered: This review describes how dysregulation of the mTOR pathway in breast cancer may contribute to breast cancer pathogenesis, as well as discussing preclinical and clinical data that support mTOR inhibitor therapy.

Expert opinion: Direct blockade of the mTOR pathway is a new and intriguing area in breast cancer therapy, with the potential to modulate growth-factor and estrogen-dependent and -independent pathways, that contribute to the pathogenesis and progression of breast tumors. mTOR inhibitors demonstrate significant biologic activity with manageable toxicities, in combination with hormonal therapy and chemotherapy, in both the neoadjuvant and metastatic breast cancer settings.     

Safety of mTOR inhibitors in breast cancer

ABSTRACT

Introduction: Despite advances in the treatment of metastatic breast cancer, the lack of response or relapse/progression during the course of therapy continue to present a challenge towards deeper understanding of dysregulated signaling pathways in breast cancer. Consequently, there is an unmet medical need for the development of new agents to overcome the resistance to therapy and improve the treatment outcome.

Areas covered: In this review, the mechanism of action and the role of intracellular PI3K/AKT/mTOR signaling pathway inhibition in breast cancer patients are described. Everolimus has been approved in combination with exemestane for the treatment of hormone-receptor-positive advanced breast cancer after failure of nonsteroidal aromatase inhibitor therapy. The aim of this paper is to focus on the safety and efficacy of mTOR inhibitors in the treatment of breast cancer. Current strategies of major adverse event management and prevention are delineated.

Expert opinion: Study results demonstrate clearly that the inhibition of the PI3K/AKT/mTOR pathway represents a promising approach to improve the efficacy of other targeted therapies in estrogen receptor-positive breast cancer patients with an acceptable safety profile. Although side effects are not uncommon, these are usually mild to moderate in severity and manageable with supportive care and dose adjustments.     

Targeting TRAIL in the treatment of cancer: new developments

Introduction: While apoptosis is critical for maintaining homeostasis in normal cells, defective apoptosis contributes to the survival of cancer cells. TNF-related apoptosis-inducing ligand (TRAIL)-targeted therapy has attracted significant effort for treating cancer, but the clinical results have revealed limitations. The authors review the current status of development of TRAIL-targeted therapy with an outlook towards the future.

Areas covered: Recombinant human proteins, small molecules and agonistic monoclonal antibodies targeting death receptors that trigger TRAIL-mediated apoptosis are covered in this article. The authors review both intrinsic and extrinsic apoptotic pathways, highlighting how the apoptosis serves as a promising therapeutic target. They also review different categories of TRAIL pathway targeting agents and provide a brief overview of clinical trials using these agents. The authors discuss the limitations of conventional approaches for targeting the TRAIL pathway as well as future directions.

Expert opinion: The development of better combination partners for pro-apoptotic TRAIL pathway modulators including novel agents inhibiting anti-apoptotic molecules or targeting alternative resistance pathways may improve the chances for anti-tumor responses in the clinic. Developing predictive biomarkers via circulating tumor cells/DNA, apoptosis signal products, and genetic signatures/protein biomarkers from tumor tissue are also suggested as future directions.     

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.     

Current status and future perspectives in the endocrine treatment of postmenopausal,hormone receptor-positive metastatic breast cancer

Introduction: Endocrine therapy is a fundamental component of the therapeutic repertoire for treatment of metastatic, hormone receptor-positive breast cancer. Inevitably, however, tumors develop resistance to these compounds, and overcoming this phenomenon is a key motivator of research in this field.

Areas covered: This review summarizes the current status of endocrine therapy for the treatment of metastatic disease, with a main focus on postmenopausal patients. Furthermore, strategies that could potentially sustain endocrine resistance and future perspectives in this direction are also to be described. Relevant references were identified by PubMed searches and from the abstract books of the annual meetings of The European Society of Clinical Oncology (ESMO), The American Society of Clinical Oncology (ASCO) and from the San Antonio Breast Cancer Symposia.

Expert opinion: Combinations of endocrine therapy with HER2 targeting agents, as well as with compounds that can interfere with PI3K/Akt/mTOR signaling, are two promising strategies for delaying or overcoming endocrine resistance, mediated by these relevant biological pathways. Due to increased costs and the burden of toxicity associated with these combination therapies, compared to endocrine therapy alone, it is imperative to concentrate efforts on establishing biomarkers that can predict efficacy.     

cMET in triple-negative breast cancer: is it a therapeutic target for this subset of breast cancer patients?

Introduction: The identification and validation of a targeted therapy for triple-negative breast cancer (TNBC) is currently one of the most urgent needs in breast cancer therapeutics. The cMET oncogene encodes a membrane-bound tyrosine kinase implicated in the formation and/or progression of several cancer types, including TNBC. Currently, inhibitors targeting cMET are undergoing clinical trials for a variety of cancers, including TNBC. These include anti-cMET and anti-hepatocyte growth factor (HGF) monoclonal antibodies and tyrosine kinase inhibitors.

Areas covered: This article reviews the structure and mode of action of cMET, the role of cMET in cancer formation/development, with particular emphasis on its role in basal/TNBC and its potential as a therapeutic target for this subtype of breast cancer.

Expert opinion: Due to cancer heterogeneity, it is unlikely that all TNBC patients will be responsive to anti-cMET drugs. Therefore, if cMET is to be used as a target for treatment, it will be important to identify predictive biomarkers to select, upfront, those patients likely to benefit. Potential predictive biomarkers for anti-cMET treatments in basal/TNBC include cMET, phospho-cMET, downstream signaling proteins or HGF. These putative predictive biomarkers should be evaluated in a large panel of basal/TNBC cell lines before incorporation into clinical trials involving anti-cMET drugs.     

Monoclonal antibody‐based therapeutics,targeting the epidermal growth factor receptor family: from herceptin to Pan HER

Objectives

Monoclonal antibody‐based of cancer therapy has been considered as one of the most successful therapeutic strategies for both haematologic malignancies and solid tumours in the last two decades. Epidermal growth factor receptor (EGFR ) family signalling pathways play a key role in the regulation of cell proliferation, survival and differentiation. Hence, anti‐EGFR family mA bs is one of the most promising approaches in cancer therapy.

Key findings

Here, recent advances in anti‐EGFR mA b including approved or successfully tested in preclinical and clinical studies have been reviewed. Although we focus on monoclonal antibodies against the EGF receptor, but the mechanisms underlying the effects of EGFR ‐specific mA b in cancer therapy, to some extend the resistance to existing anti‐EGFR therapies and some therapeutic strategies to overcome resistance such as combination of mA bs on different pathways are briefly discussed as well.

Summary

The EGFR family receptors, is considered as an attractive target for mA b development to inhibit their consecutive activities in tumour growth and resistance. However, due to resistance mechanisms, the combination therapies may become a good candidate for targeting EGFR family receptors.

     

Therapeutic targeting of EGFR in malignant gliomas

Importance of the field: Despite the improved prognosis for many cancer patients, the survival of those with malignant gliomas (MGs) remains dismal. Even with aggressive intervention, including surgery, chemotherapy and radiotherapy, the overall 2-year survival rate is only 25% in the most optimistic series, and 5-year survival rates are consistently in the low single digits. Therefore, it is evident that novel therapeutic paradigms are necessary to overcome the inherent limitations of conventional treatments. EGFR gene overexpression can be found in 40 – 50% of patients with MGs, whereas its expression is very low in normal brain. Therapeutic targeting of EGFR has indicated clinical success in the treatment of MGs.

Areas covered in this review: The purpose of this review is to discuss the current status of several EGFR-targeted therapies in MGs patients and address the efficacy of these drugs as monotherapy or in combination with other drugs and/or treatments. We also emphasize the lessons learned and the future perspectives in the development of EGFR-targeted therapies for MGs.

What the reader will gain: A more comprehensive understanding of the molecular, structural and biological characteristics of EGFR and the mechanisms of action of EGFR-targeted antagonists will most likely contribute to the successful use of strategies of EGFR-targeted therapy in the clinic.

Take home message: Therapeutic targeting of EGFR include anti-EGFR mAbs, small-molecule EGFR tyrosine kinase inhibitors, peptide vaccination therapy and other therapeutic strategies. Each EGFR antagonist has its own advantages and limitations in terms of BBB crossing, ease of delivery, combination therapies and potential toxicity. Therefore, a multiple approach combining different agents that target EGFR signaling at multiple levels seems to have potential as future therapeutics for MGs, once the technical and safety issues unique to each of the approaches are overcome.     

mPEG-b-PCL/TPGS mixed micelles for delivery of resveratrol in overcoming resistant breast cancer

Objective: Drug resistance remains a major challenge for effective breast cancer chemotherapy. Resveratrol (Res) is a promising candidate for overcoming cancer chemoresistance, but it has low bioavailability due to poor absorption, and ready metabolism limits its application. This study aims to develop a Res-loaded mixed micelle system to be effective on drug resistance of breast cancer cells.

Methods: A mixed micelle system made of methoxy poly (ethylene glycol)-b-polycaprolactone (mPEG-PCL) and d-α-Tocopherol polyethylene glycol succinate was prepared and Res was encapsulated to form Res-loaded mixed micelles. Furthermore, the antitumor activity against doxorubicin (Dox)-resistant breast cancer MCF-7/ADR cells was studied and the possible mechanism was elucidated.

Results: The mixed micellar formulation increased drug uptake efficiency of Res by Dox-resistant breast cancer MCF-7/ADR cells, and induced higher rates of apoptotic cell death, as assessed by the accumulation of Sub G1 phases of cell cycle, nucleus staining and Annexin-FITC/propidium iodide assay. Moreover, Res-loaded mixed micelles also markedly enhanced Dox-induced cytotoxicity in MCF-7/ADR cells and increased the cellular accumulation of Dox by downregulating the expression of P-glycoprotein (P-gp) and inhibiting the activity thereof.

Conclusion: The cumulative evidence indicates that Res-loaded mixed micelles hold significant promise for the treatment of drug-resistant breast cancer.     

Lapatinib for breast cancer: a review of the current literature

Importance of the field: The identification of HER-2 expression as a predictive and prognostic marker revolutionized breast cancer. Trastuzumab, a humanized mAb, improves survival in both early and advanced HER-2 overexpressing breast cancer. However, many cancers either do not respond or develop resistance to this agent. Lapatinib is an oral tyrosine kinase inhibitor which has both HER-1 and -2 activities and has been licensed for use in recurrent breast cancer that overexpresses HER-2. Studies of lapatinib in early breast cancer are ongoing.

Areas covered in this review: A PubMed search was conducted using ‘lapatinib’ and ‘breast cancer’ as the key words. All published works up to July 2010 were reviewed. A manual review of abstracts presented at the ASCO Annual meeting and the San Antonio Breast Cancer Symposium was conducted for the last 2 years. In this review, we summarize the current knowledge of lapatinib and pose questions which need to be addressed as we further expand our knowledge of the HER-2 subtypes of breast cancer.

What the reader will gain: The reader will gain an up-to-date and comprehensive review of the current literature as it pertains to the safety and efficacy of lapatinib in the treatment of breast cancer.

Take home message: Lapatinib has provided an alternative for the treatment of advanced HER-2 overexpressing breast cancer and is currently being assessed in early disease.     

Pharmacokinetic drug evaluation of palbociclib for the treatment of breast cancer

Introduction: Cyclin-dependent kinases (CDKs) 4 and 6 regulate the transition from G0/G1-phase to S-phase of the cell cycle and have been identified as key drivers of proliferation in hormone receptor (HR)-positive breast cancer. The CDK4/6 inhibitor palbociclib in combination with endocrine therapy has been approved for treatment of HR-positive/HER2-negative breast cancer patients.

Areas covered: In this article, we provide an update of the data on pharmacodynamics, pharmacokinetics, preclinical, and clinical studies of palbociclib in breast cancer. We performed a search of data on palbociclib in the PubMed and the clinicaltrials.gov databases, in the FDA website and in the ASCO and AACR proceedings.

Expert opinion: In order to optimize the clinical outcome of HR-positive breast cancer patients treated with palbociclib, predictive biomarkers allowing patient selection are urgently needed. A recent study suggested that early dynamics of PIK3CA mutations in circulating tumor DNA might be a potential predictive biomarker for CDK4/6 inhibitors. Several clinical trials are ongoing with the aim to explore the activity of combinations of palbociclib with targeted agents and/or immunotherapy in the different subtypes of breast cancer in both metastatic and early phases of the disease. These combinations might allow improving the sensitivity and overcoming mechanisms of resistance.     

Emerging drugs for prostate cancer

Introduction: Androgen deprivation therapy is the mainstay treatment for patients with prostate cancer who are not candidates for definitive treatment, are diagnosed with advanced disease on initial presentation or progress after primary treatment. Patients who stop responding to androgen deprivation therapy develop castration resistant prostate cancer (CRPC). Emerging drugs undergoing clinical evaluation and drugs that have recently received FDA approval for the treatment of CRPC are reviewed.

Areas covered: As the natural history and signaling pathways of prostate cancer are better understood, new treatments and targeted therapies will be developed. The FDA recently approved 5 medications that increase survival in patients with CRPC. Additional medications and drug classes are being explored that may eventually lead to new treatment options. Articles were identified using a PubMed database search.

Expert opinion: Recent FDA medication approvals and the development of emerging treatments are promising for the future of patients with prostate cancer. The addition of new medications challenges physicians to identify the optimal sequence and/or combination in which newer and older medications should be administered. Physicians treating patients with prostate cancer have a growing responsibility to keep pace with these new medications so that they may counsel and treat patients appropriately.     

Targeting EGFR-PI3K-AKT-mTOR signaling enhances radiosensitivity in head and neck squamous cell carcinoma

Introduction: Head and neck squamous cell carcinoma (HNSCC) is frequently characterized by high resistance to radiotherapy, which critically depends on both altered signaling pathways within tumor cells and their dynamic interaction with the tumor microenvironment.

Areas covered: This review covers EGFR-phosphoinositide 3-kinase (PI3K)-protein kinase B (AKT)-mechanistic target of rapamycin (mTOR) signaling in HNSCC. The role of each pathway node in radioresistance is discussed. Preclinical and clinical innovative aspects of targeting EGFR-PI3K-AKT and mTOR are demonstrated. Ongoing clinical trials and future perspectives are presented.

Expert opinion: Different cellular signaling pathways seem to mediate radioresistance in advanced HNSCC and various molecular targeted therapies are currently being investigated to sensitize tumor cells to radiotherapy. Recently, new insights in the mutational landscape of HNSCC unraveled critical alterations in putative oncogenes and tumor suppressor genes and have emphasized the importance of PI3K and the corresponding upstream and downstream signaling pathways in pathogenesis and treatment response. The frequent activation of the EGFR-PI3K-AKT-mTOR pathway in HNSCC and its implication in the context of radiosensitivity make this pathway one of the most promising targets in the therapy of HNSCC patients. Clinical studies targeting EGFR and mTOR in combination with radiotherapy are under investigation.