Targeted therapy of hepatocellular cancer

Importance of the field: Hepatocellular cancer (HCC) is the fifth most common malignancy worldwide and third leading cause of cancer death. HCC is highly resistant to conventional systemic therapies, and prognosis for advanced HCC patients remains poor. However, identification of signaling pathways responsible for HCC growth and progression such as RAS/RAF/MEK/ERK or PI3K/AKT/mTOR has determined crucial molecular targets and led to development of novel promising targeted therapies.

Areas covered in this review: This article presents molecular mechanisms responsible for development and progression of HCC and strategies aimed to block important molecules involved in signal transduction. It also reviews the clinical studies evaluating efficacy and safety of novel targeted approaches for treatment of this malignancy.

What the reader will gain: Inhibition of molecular targets (ligands, membrane receptors and receptor-associated kinases) represents a promising strategy for treatment of HCC; in the case of sorafenib, this has already been demonstrated to significantly improve survival of advanced HCC patients. This article reviews novel therapeutic approaches that are based on combinations of different targeted agents with or without classic cytotoxic drugs.

Take home message: Despite significant progress, advanced HCC remains an incurable disease, and the overall efficacy of recently approved targeted therapy (sorafenib) remains moderate. It is to be hoped that several ongoing clinical trials evaluating novel targeted approaches for treatment of HCC will lead to further improvement in the management of advanced disease.     

Molecular targeted therapy of advanced hepatocellular carcinoma beyond sorafenib

Importance of the field: With the recent advances in the knowledge of molecular biology of hepatocellular carcinoma (HCC), there have been encouraging developments in targeted therapy for advanced HCC.

Areas covered in this review: This review discusses the development of targeted therapy for advanced HCC patient since 2006. Among the newly identified targets, promising results have been shown in targeting the anti-angiogenic pathway. Pure anti-angiogenic agents such as bevacizumab and PTK 787 demonstrate modest activity in treating patients with advanced HCC. Sorafenib, a multi-targeted tyrosine kinase inhibitor with both anti-angiogenic and anti-proliferative effects, has been shown to prolong the overall survival of patients with advanced HCC in two Phase III randomized trials. Like sorafenib, other anti-angiogenic multi-targeted tyrosine kinase inhibitors, such as sunitinib, pazopanib, brivanib and linifanib, also show promising activity in various stages of clinical trials. Other on-going early-phase studies are exploring the activities of drugs targeting novel pathways, such as PI3K/AKT/m TOR, hepatocyte growth factor/mesenchymal epithelial transition factor and insulin-like growth factor.

What the reader will gain: After reading this review, the reader should have an in-depth understanding of the latest developments in the molecular targeted therapy of advanced HCC.

Take home message: The development of sorafenib in the treatment of advanced HCC proves the concept that molecular targeted therapies, especially anti-angiogenic agents, play a pivotal role in the treatment of this otherwise chemoresistant neoplasm. Future progress depends on further unraveling more molecular mechanisms of HCC for therapeutic intervention.     

Emerging drugs for squamous cell lung cancer

Introduction: The management of advanced NSCLC has been shifted by histology-driven treatment and molecularly targeted therapy, especially in lung adenocarcinoma. However, as the second most common histology in NSCLC, the treatment options for squamous cell lung cancer (SQCLC) remain very limited.

Areas covered: The review first discusses the role of histology in management of NSCLC and new cytotoxic agents in SQCLC, and then addresses genomic characterization and potential molecular targets in SQCLC. The article then provides an overview for several major categories of novel molecularly targeted therapies and immune-based strategies with particular attention to ongoing SQCLC trials.

Expert opinion: The key challenges in drug development are to uncover novel actionable targets and to identify predictive biomarkers. Progress in genomic analysis has identified some promising targetable genes and oncogenic pathways in SQCLC with a wave of targeted agents being tested in clinical trials. Immunotherapy has also raised great interest in management of SQCLC, especially agents targeting immune check points, cytotoxic T-lymphocyte antigen-4, programmed death-1 receptor and its ligands. Better understanding of tumor biology and development of novel targeted therapies will help to facilitate more effective personalized therapy for patients with this devastating illness.     

Targeting integrins in hepatocellular carcinoma

Introduction: Integrins, which are heterodimeric membrane glycoproteins, consist of a family of cell-surface receptors mediating cell–matrix and cell–cell adhesion. Analysis of tumor-associated integrins has revealed an important relationship between integrins and tumor development, bringing new insights into integrin-based cancer therapies. Hepatocellular carcinoma (HCC) is one of the most malignant tumors worldwide and integrins appeal to be a novel group of potential therapeutic targets for HCC.

Areas covered: This review summarizes the current knowledge of integrins involved in HCC and the potential of integrin-targeted drugs in HCC therapy. A brief introduction on the structure, biological function and regulatory mechanism of integrins is given. The distinct expression patterns and biological functions of HCC-associated integrins are described. Finally, the current situation of integrin-based therapies in HCC and other tumor types are extensively discussed in the light of their implications in preclinical and clinical trials.

Expert opinion: To date, increasing numbers of integrin-targeted drugs are undergoing development and they exhibit diverse effects in cancer clinical trials. Tumor heterogeneity should be emphasized in developing effective integrin-targeted drugs specific for HCC. A better understanding of how integrins cooperatively function in HCC will assist in designing more successful integrin-targeted therapeutic drugs and corresponding approaches.     

The development of biomarkers to reduce attrition rate in drug discovery focused on oncology and central nervous system

ABSTRACT

Introduction: The task of discovery and development of novel therapeutic agents remains an expensive, uncertain, time-consuming, competitive, and inefficient enterprise. Due to a steady increase in the cost and time of drug development and the considerable amount of resources required, a predictive tool is needed for assessing the safety and efficacy of a new chemical entity.

Areas covered: This study is focused on the high attrition rate in discovery and development of oncology and central nervous system (CNS) medicines, because the failure rate of these medicines is higher than others. Some approaches valuable in reducing attrition rates are proposed and the judicious use of biomarkers is discussed.

Expert opinion: Unlike the significant progress made in identifying and characterizing novel mechanisms of disease processes and targeted therapies, the process of novel drug development is associated with an unacceptably high attrition rate. The application of clinically qualified predictive biomarkers holds great promise for further development of therapeutic targets, improved survival, and ultimately personalized medicine sets for patients. Decisions such as candidate selection, development risks, dose ranging, early proof of concept/principle, and patient stratification are based on the measurements of biologically and/or clinically validated biomarkers.     

Novel inhibitors in development for hepatocellular carcinoma

Importance of the field: The multikinase inhibitor sorafenib was the first agent to demonstrate a survival benefit for patients with locally advanced or metastatic hepatocellular carcinoma (HCC). Although sorafenib represents a landmark in the treatment of HCC and proved molecularly targeted therapy to be effective in this disease, it represents just the first step towards an improvement in systemic therapy. Since then, novel inhibitors have been evaluated in early clinical trials, showing potential activity.

Areas covered in this review: This article aims to review novel inhibitors emerging in the field of advanced HCC. An Internet-based search was performed to identify abstracts, clinical trials (www.clinicaltrials.gov, last accessed 30 November 2009), and original research and review articles.

What the reader will gain: Readers will gain a comprehensive survey of current molecularly targeted therapy approaches in advanced HCC. In addition, challenges such as the design of clinical trials, the assessment of radiological response, the role of combination therapy, and future developments in molecularly targeted therapy are discussed.

Take home message: Sorafenib is the standard of care in patients with advanced HCC. However, promising novel inhibitors are under investigation. Combined molecularly targeted therapies according to an individual genomic and proteomic profiling will probably lead to more personalised medicine in advanced HCC.     

New and emerging treatments for Alzheimer's disease

Introduction: Alzheimer's disease and other dementias represent a significant and increasing clinical challenge. Dementia is also associated with a substantial economic cost and burden to health service provision. Existing treatments slow the progression of symptoms of the disease, but their efficacy does not extend to all patients and is not sustained beyond an average of 6 months. It is, therefore, critical to address the current lack of effective treatments to target the underlying pathology and disease process in Alzheimer's disease.

Areas covered: This review aims to highlight the main areas of new therapeutic development and discuss some of the main therapies currently being evaluated in clinical trials. Despite a number of promising rationales for therapeutic treatments in Alzheimer's disease, very few of these avenues have been developed beyond preclinical studies. The predominant focus of the current article is on treatments currently in Phase II and Phase III clinical trials, but some other promising areas of development are also discussed. There are currently only three therapeutics being investigated in Phase III clinical trials. This emphasizes the substantial caution and underinvestment in treatment development in this area.

Expert opinion: There is a distinct lack of novel approaches in the pipeline, and whether there is a new disease-modifying therapy for Alzheimer's disease in the next 5 years almost entirely depends on the success of currently ongoing immunotherapy studies. Importantly, there is potential benefit in exploring existing licensed treatments alongside novel drug development to increase the focus on novel targets within this time frame.     

Current and emerging treatment options in the management of advanced ovarian cancer

Introduction: Epithelial ovarian cancer is the most lethal gynecologic malignancy. Recent advances in understanding the biology and its molecular and histological diversity have led to mechanism based therapeutic strategies such as poly-ADP-ribose polymerase inhibitors (PARP) targeting homologous recombination deficient tumor cells and anti-angiogenic therapies. Clinical trial designs in ovarian cancer have to evolve to incorporate assessment of the genomic complexity and identify predictive biomarkers to improve precision of treatment and outcome.

Areas covered: This review summarizes present-day strategies used in the management of ovarian cancer and novel promising therapeutic approaches in development. The article is based on English peer-reviewed articles located on MEDLINE and related abstracts presented at major international meetings.

Expert opinion: Two types of molecular targeted therapies, anti-angiogenics and PARP inhibitors, have been shown to be active in randomized clinical trials and approved by regulatory agencies. Management of ovarian cancer is poised to change with the continued advancement of precision medicine that is founded upon improved understanding of disease biology; separation into histologically and molecularly defined subgroups; and the incorporation of this new knowledge into early phase drug development and novel clinical trial design.     

Drug delivery technologies for autoimmune disease

Importance of the field: Targeting autoimmune disease poses two main challenges. The first is to identify unique targets to suppress directly or indirectly autoreactive cells exclusively. The second is to penetrate target tissues to deliver specifically drugs to desired cells that can achieve a therapeutic outcome.

Areas covered in this review: Herein, the range of drug delivery methods available and under development and how they can be useful to treat autoimmune diseases are discussed. Polymer delivery methods, as well as biological methods that include fusion proteins, targeted antibodies, recombinant viruses and cell products are compared.

What the reader will gain: Readers will gain insight into the progression of clinical trials for different technologies and drug delivery methods useful for targeting and modulating the function of autoreactive immune cells.

Take home message: Several tissue-specific polymer-based and biologic drug delivery systems are now in Phase II/III clinical trials. Although these trials are focused mainly on cancer treatment, lessons from these trials can guide the use of the same agents for autoimmunity therapeutics.     

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.     

A retrospective review of the progress in amyotrophic lateral sclerosis drug discovery over the last decade and a look at the latest strategies

Introduction: Drug discovery for amyotrophic lateral sclerosis (ALS) has experienced a surge in clinical studies and remarkable preclinical milestones utilizing a variety of mutant superoxide dismutase 1 model systems. Of the drugs that were tested and showed positive preclinical effects, none demonstrated therapeutic benefits to ALS patients in clinical settings.

Areas covered: This review discusses the advances made in drug discovery for ALS and highlights why drug development is proving to be so difficult. It also discusses how a closer look at both preclinical and clinical studies could uncover the reasons why these preclinical successes have yet to result in the availability of an effective drug for clinical use.

Expert opinion: Valuable lessons from the numerous preclinical and clinical studies supply the biggest advantage in the monumental task of finding a cure for ALS. Obviously, a single design type for ALS clinical trials has not yielded success. The authors suggest a two-pronged approach that may prove essential to achieve clinical efficacy in the identification of novel targets and preclinical testing in multiple models to identify biomarkers that can function in diagnostic, predictive and prognostic roles, and changes to clinical trial design and patient recruitment criteria. The advancement of technology and invention of more powerful tools will further enhance the above. This will give rise to more sophisticated clinical trials with consideration of a range of criteria from: optimum dose, route of delivery, specific biomarkers, pharmacokinetics, pharmacodynamics and toxicology to biomarkers, timing for trial and patients’ clinical status.     

Xenograft and genetically engineered mouse model systems of osteosarcoma and Ewing's sarcoma: tumor models for cancer drug discovery

Introduction: There are > 75 histological types of solid tumors that are classified into two major groups: bone and soft-tissue sarcomas. These diseases are more prevalent in children, and pediatric sarcomas tend to be highly aggressive and rapidly progressive. Sarcomas in adults may follow a more indolent course, but aggressive tumors are also common. Sarcomas that are metastatic at diagnosis, or recurrent following therapy, remain refractory to current treatment options with dismal overall survival rates. A major focus of clinical trials, for patients with sarcoma, is to identify novel and more effective therapeutic strategies targeted to genomic or proteomic aberrations specific to the malignant cells. Critical to the understanding of the potential for targeted therapies are models of disease that are representative of clinical disease and predictive of relevant clinical responses.

Areas covered: In this article, the authors discuss the use of mouse xenograft models and genetically engineered mice in cancer drug discovery. The authors provide a special focus on models for the two most common bone sarcomas: osteosarcoma (OS) and Ewing's sarcoma (ES).

Expert opinion: Predicting whether a new anticancer agent will have a positive therapeutic index in patients with OS and ES remains a challenge. The use of mouse sarcoma models for understanding the mechanisms involved in the response of tumors to new treatments is an important step in the process of drug discovery and the development of clinically relevant therapeutic strategies for these diseases.     

Approaching Target Selectivity by De Novo Drug Design

ABSTRACT

Introduction: The development of drug candidates with a defined selectivity profile and a unique molecular structure is of fundamental interest for drug discovery. In contrast to the costly screening of large substance libraries, the targeted de novo design of a drug by using structural information of either the biological target and/or structure–activity relationship data of active modulators offers an efficient and intellectually appealing alternative.

Areas covered: This review provides an overview on the different techniques of de novo drug design (ligand-based drug design, structure-based drug design, and fragment-based drug design) and highlights successful examples of this targeted approach toward selective modulators of therapeutically relevant targets.

Expert opinion: De novo drug design has established itself as a very efficient method for the development of potent and selective modulators for a variety of different biological target classes. The ever-growing wealth of structural data on therapeutic targets will certainly further enhance the importance of de novo design for the drug discovery process in the future. However, a consistent use of the terminology of de novo drug design in the scientific literature should be sought.     

Targeted Agents in Preclinical and Early Clinical Development for the Treatment of Cancer Bone Metastases

Introduction: Bone is one of the preferential organs affected in patients with metastatic cancers. Bone metastases contribute substantially to morbidity and mortality in cancer patients, especially for those with breast and prostate cancer. Bisphosphonates and denosumab, potent inhibitors of osteoclastic bone resorption, are the current standard of care for bone metastases; however, their effects are palliative. Recent preclinical studies have revealed a variety of potential targets for the development of novel therapeutic agents. Some of these are currently being evaluated in clinical trials.

Areas covered: This paper reviews the preclinical and early clinical development of molecularly targeted agents for the treatment of bone metastases. The agents are categorized according to their targets, osteoclasts, osteoblasts, metastatic cancer cells, and the bone microenvironment.

Expert opinion: Recent advances in our understanding of the molecular and cellular mechanisms of bone metastases have led to the development of novel therapeutic options. Although most of their effects have yet to be proved in clinical studies, it is the author’s belief that they will contribute significantly to improving the treatment outcome of patients with bone metastases in the near future.     

Toll-like receptors in hepatocellular carcinoma: potential novel targets for pharmacological intervention

Introduction: Toll-like receptors (TLRs) are expressed by a wide variety of cell types including immune cells. They play a crucial role in the inflammatory and host defense response against microorganisms, and triggering TLRs can mediate the activation of innate immunity. Furthermore, research suggests that various TLRs may function differently on different tumor cells. The change in TLR activity may elicit an anti-tumor activity in hepatocellular carcinoma (HCC) cells and may serve as a novel therapeutic target for HCC therapy.

Areas covered: This review discusses the role of the TLR family in HCC and the underlying signaling pathway of TLRs as a form of pattern recognition receptor in mediating inflammation and HCC immunity responses. Agonists and antagonists of TLRs, which render TLRs as potential therapeutic targets, activate downstream molecules, subsequently causing HCC cell survival. The proliferation or protection against the development of HCC is also described.

Expert opinion: A series of studies have highlighted a crucial role of TLRs in HCC and consider TLR signaling pathways as potential therapeutic targets for HCC. However, the conclusions of these studies are in part paradoxical and controversial. Thus, it is necessary to extend further research to help determine the signaling pathways involved.     

Improving efficiency of initial tests for efficacy in smoking cessation drug discovery

Introduction: One obstacle to rapid development of new smoking cessation medications is the inefficient early clinical evaluation of the efficacy of novel drugs, which inform us as to whether or not to proceed with the greater expense and time of more formal clinical trials. The vast majority of novel drugs fail to show efficacy for cessation only after substantial resources have been spent and, thus, are largely wasted.

Areas covered: The author reviews the general limitations in the current typical procedures for initial tests of cessation efficacy in novel drugs. Small, randomized clinical trials often have good validity but may have practical limitations in achieving adequate statistical power to test novel versus placebo treatment conditions. Lab tests of acute drug effects on abstinence symptoms, during brief enforced cessation periods, are practical but have limited clinical predictive validity.

Expert opinion: Initial efficacy testing may be more efficient if done using innovative crossover designs that evaluate brief ‘practice’ quit periods for both active and placebo treatments within the same smokers, recruiting those high in quit motivation. Because this approach would require far fewer subjects and a shorter duration of testing, results could be obtained more rapidly and inexpensively to indicate that a novel drug may, or may not, be sufficiently efficacious as to warrant the greater costs and time of formal randomized clinical trials.     

A call to ARMS: targeting the PAX3-FOXO1 gene in alveolar rhabdomyosarcoma

Introduction: Expression of fusion oncoproteins generated by recurrent chromosomal translocations represents a major tumorigenic mechanism characteristic of multiple cancers, including one-third of all sarcomas. Oncogenic fusion genes provide novel targets for therapeutic intervention. The PAX3-FOXO1 oncoprotein in alveolar rhabdomyosarcoma (ARMS) is presented as a paradigm to examine therapeutic strategies for targeting sarcoma-associated fusion genes.

Areas covered: This review discusses the role of PAX3-FOXO1 in ARMS tumors. Besides evaluating various approaches to molecularly target PAX3-FOXO1 itself, this review highlights therapeutically attractive downstream genes activated by PAX3-FOXO1.

Expert opinion: Oncogenic fusion proteins represent desirable therapeutic targets because their expression is specific to tumor cells, but these fusions generally characterize rare malignancies. Full development and testing of potential drugs targeted to these fusions are complicated by the small numbers of patients in these disease categories. Although efforts to develop targeted therapies against fusion proteins should continue, molecular targets that are applicable to a broader tumor landscape should be pursued. A shift of the traditional paradigm to view therapeutic intervention as target-specific rather than tumor-specific will help to circumvent the challenges posed by rare tumors and maximize the possibility of developing successful new treatments for patients with these rare translocation-associated sarcomas.     

Pharmacotherapy of neuroblastoma

Importance of the field: Neuroblastoma, a tumor of the sympathetic nervous system, is the most common extracranial solid tumor of early life. High risk disease in older children remains a therapeutic challenge, despite high-intensity therapy with correspondingly significant short- and long-term toxicities.

Areas covered in this review: We have reviewed therapy for neuroblastoma over the last three decades. This includes cytotoxic chemotherapy, immunotherapy, radionuclides, antiangiogenic compounds, and molecularly targeted agents. We provide a perspective on the incorporation of these drugs into therapy for neuroblastoma.

What the reader will gain: The reader will gain a better understanding of these novel agents and their targets in neuroblastoma. The reader will also gain insight into the need to define through sequential, carefully designed clinical trials, the roles and toxicities of these therapies, especially if the combination of targeted and conventional cytotoxic agents is used.

Take home message: Advanced-stage neuroblastoma in older infants and children remains a disease that is difficult to cure. New, targeted agents may improve both the therapeutic index and the outcome, but are, for the most part, in early development and present a challenge for clinical trial design given both the rarity of this disease and its responsiveness (albeit incomplete) to currently used cytotoxic agents.     

Screening methods for influenza antiviral drug discovery

Introduction: Influenza antiviral high-throughput screens have been extensive, and yet no approved influenza antivirals have been identified through high-throughput screening. This underscores the idea that development of successful screens should focus on the exploitation of the underrepresented viral targets and novel, therapeutic host targets.

Areas covered: The authors review conventional screening applications and emerging technologies with the potential to enhance influenza antiviral discovery. Real-world examples from the authors' work in biocontained environments are also provided. Future innovations are discussed, including the use of targeted libraries, multiplexed assays, proximity-based endpoint methods, non-laboratory-adapted virus strains, and primary cells, for immediate physiological relevance and translational applications.

Expert opinion: The lack of successful anti-influenza drug discovery using high-throughput screening should not deter future efforts. Increased understanding of the functions of viral targets and host–pathogen interactions has broadened the target reservoir. Future screening efforts should focus on identifying new drugs against unexploited viral and host targets using currently developed assays, and on the development of novel, innovative assays to discover new drugs with novel mechanisms. Innovative screens must be designed to identify compounds that specifically inhibit protein–protein or protein–RNA interactions or other virus/host factor interactions that are crucial for viral replication. Finally, the use of recent viral isolates, increased biocontainment (for highly-pathogenic strains), primary cell lines, and targeted compound libraries must converge in efficient high-throughput primary screens to generate high-content, physiologically-relevant data on compounds with robust antiviral activity.     

Emerging drugs for urothelial carcinoma

Introduction: Advanced urothelial carcinoma is associated with a poor prognosis. In the metastatic setting, the response rate to first-line, cisplatin-containing chemotherapy is high, but survival is poor. Second-line treatment options are limited. Advanced age at diagnosis and the presence of comorbidities often preclude treatment with cisplatin-containing regimens.

Areas covered: This review addresses the current therapy of urothelial carcinoma, the unmet needs in treatment and the status of drug development in this disease. The molecular targets identified and efforts to incorporate targeted agents into therapy will be addressed.

Expert opinion: There have been no major advances in the treatment of urothelial carcinoma in three decades. Despite high response rates in the first-line setting, survival is limited. Major impediments to improved outcomes include poor durability of response to first-line chemotherapy and lack of second-line treatments. Better understanding in tumor biology has identified multiple targets in urothelial carcinoma; however, such discoveries have yet to lead to the incorporation of targeted agents into the routine treatment of urothelial carcinoma. Multiple ongoing clinical trials are investigating the use of targeted agents in urothelial carcinoma. Continued efforts are underway to better understand the molecular drivers of disease and such efforts are likely to identify additional therapeutic targets.