Monoclonal antibodies in neuroinflammatory diseases

Introduction: Monoclonal antibodies (mAbs) represent an emerging and rapidly growing field of therapy in neuroinflammatory diseases. Adhesion molecule blockade by natalizumab represents the first approved mAb therapy in neurology, approved for therapy of highly active multiple sclerosis (MS). Removal of immune cells by anti-CD52 mAb alemtuzumab or anti-CD20 mAb rituximab are other prime examples with existing positive Phase II and Phase III trials. MS clearly represents the neuroinflammatory disease entity with the largest body of evidence. However, some of these approaches are currently investigated or translated for use in other, rare neuroinflammatory diseases, such as neuromyelitis optica (NMO), inflammatory neuropathies and (neuro)-muscular disorders.

Areas covered: This review will highlight the most relevant therapeutic approaches involving mAbs in the field of neuroinflammatory diseases as published in peer-reviewed journals and presented on international meetings.

Expert opinion: There is continuously growing evidence on the therapeutic relevance of mAbs in neuroinflammatory disorders. In MS meanwhile several studies have provided evidence for efficacy: In addition to natalizumab, approved in 2006, several other candidates are under development, the most eminent examples with the most advanced study programs being anti-CD52 alemtuzumab, anti-CD20 principles and anti-CD25 daclizumab. Other intriguing candidates are anti-IL-17 strategies, and interference with the complement pathway, partly also developed for other neuroinflammatory disorders.     

The use of monoclonal antibodies for the treatment of graft-versus-host disease following allogeneic stem cell transplantation

Introduction: Graft-versus-host disease (GVHD) remains the leading cause of morbidity and mortality after allogeneic hematopoietic stem cell transplantation (HSCT). Steroids along with calcineurin inhibitors remain the standard initial therapy, however, less than half of the patients completely respond and there is no uniformly accepted therapy for patients with steroid-resistant GVHD.

Areas covered: This paper reviews the current role and ongoing development of mAbs in the treatment of GVHD. Various mAbs to cell surface antigens on GVHD effector cells have been investigated for the treatment of acute GVHD: these include anti-TNF-α antibodies, IL-2 receptor antagonists, anti-CD3 and anti-CD52 mAbs, while anti-CD20 mAb has been extensively investigated in the setting of chronic GVHD. Overall, response rates have been reported to be greater than 60%, although it should be emphasized that the long-term survival still remains suboptimal, mainly due to the detrimental side effects of infectious complications, progressive GVHD and relapse of underlying malignancy.

Expert opinion: Future challenges will include more appropriate definition of these agents in the therapeutic scenario of GVHD. Combinations of mAbs or mAb combined with newer immunosuppressive drugs might potentially achieve greater success, especially if used early in the disease process.     

Ofatumumab,a human anti-CD20 monoclonal antibody

Importance of the field: Since relapse of chronic lymphocytic leukemia (CLL), and refractoriness to treatment following relapse, is inevitable after initial treatment, development of novel treatment strategies is necessary.

Areas covered in this review: CD20 as a therapeutic target for CLL, successes and limitations of current anti-CD20 monoclonal antibody (mAb) therapy, and implications of preclinical and clinical developments of novel alternatives, including ofatumumab, that may enhance anti-CD20 mAb therapy are reviewed. The literature reviewed encompasses papers and congress abstracts from the past 13 years.

What the reader will gain: While rituximab combined with chemotherapy has considerably improved outcomes for some but not all CLL patients, single-agent use is limited in relapsed/refractory CLL. Novel anti-CD20 mAbs in development, such as ofatumumab, may bypass some limitations by virtue of alternative epitope binding and modified effector functions. Ofatumumab induces significant complement-dependent cell lysis in vitro, particularly in cells with low CD20 expression. The FDA recently approved ofatumumab for treatment of CLL refractory to fludarabine and alemtuzumab.

Take home message: CD20-targetting chemoimmunotherapeutic options have advanced treatment of CLL. Results for single-agent ofatumumab and other new CD20 mAbs, in different lines of therapy and in combination with chemotherapy, will guide optimal use of these alternative therapies for B-cell malignancies.     

Monoclonal antibodies for the treatment of osteoarthritis

ABSTRACT

Introduction: Osteoarthritis (OA) is a multifactorial chronic joint disease, and so far, there are no approved disease-modifying anti-OA drugs (DMOADs). There is an urgent need to develop therapies for different phenotypes of OA. Monoclonal antibodies (mAb) may slow structural progression, control inflammation and relieve pain, and thus have the potential to be DMOADs.

Areas covered: In this review, the authors searched the literature on PubMed, EMBASE and the Cochrane Library using keywords, including mAbs, biological agents, OA and osteoarthritis, electronically up to May 2016. They also included abstracts of international conferences. Furthermore, they reviewed experimental and clinical studies of various mAbs targeting different pathological mechanisms of OA, including ADAMTS, Interleukine-1, tumour necrosis factor, never growth factor and vascular endothelial growth factor.

Expert opinion: MAbs for the treatment of OA are under intense investigation and the results for some mAbs (e.g., anti-nerve growth factor mAbs, anti- vascular endothelial growth factor mAbs) are promising. The authors believe that mAb therapy can be a targeted therapeutic approach for the treatment of OA. Future clinical trials are required to evaluate the therapeutic efficacy of these agents by the appropriate selection of specific phenotype for targeted therapy based on the mechanism of drug action.     

Anti-CD20 monoclonal antibodies in chronic lymphocytic leukemia

Introduction: The last decade has witnesd immense progress in the treatment of chronic lymphocytic leukemia (CLL). Chemoimmunotherapy (CIT) combining rituximab and fludarabine with cyclophosphamide (FCR) in the frontline setting has clearly been shown to improve outcomes in patients with CLL. Building on the success achieved with rituximab, other anti-CD20 monoclonal antibodies (mAbs) are being investigated. Novel bioengineering techniques have helped in the development of anti-CD20 mAbs. One antibody, ofatumumab, was recently approved for the treatment of refractory CLL. A type II anti-CD20 mAb, GA-101 (obinutuzumab), is currently in clinical trials. This short review focuses on ongoing clinical trials of anti-CD20 mAbs in CLL.

Areas covered: Literature search was performed using PubMed (www.clinicaltrials.gov (till August 2012)), and recent American Society of Clinical Oncology (ASCO), American Society of Hematology (ASH), European Hematology association (EHA), International workshop on CLL (iwCLL) abstracts, using the primary search terms ‘anti-CD20 monoclonal antibody' with/without CLL. Articles were chosen on the basis of relevance of anti-CD20 mAbs to CLL therapy.

Expert opinion: Rituximab, the prototype anti-CD20 mAb, forms the core of CIT in CLL. The success of rituximab and ofatumumab has led investigators to evaluate other anti-CD20 mAbs in the treatment of CLL.     

Humoral immunotherapy of multiple myeloma: perspectives and perplexities

Importance of the field: Multiple myeloma (MM) is a hematological malignancy still remaining incurable despite the various therapies available, mainly because of the high fraction of refractory/relapsing cases. Therefore, the development of novel therapeutic approaches is urgently needed to overcome conventional treatment resistance.

Areas covered in this review: In the era of targeted therapies, treatments combining a high specificity for neoplastic cells and the capability to interfere with environmental signals should be regarded as the weapons of choice. Monoclonal antibody (mAb)-based humoral immunotherapy could satisfy both these requirements when applied to MM. Indeed, many of the molecules expressed on MM cells, such as CD38, CD40, CD49d, CD138 and CD162 are involved in the adhesive dynamics regulating the crosstalk between MM and the BM-microenvironment.

What the reader will gain: In this study we review those MM-associated molecules that have shown promising antitumor effects as targets of specific mAbs in preclinical settings, thus deserving to be considered for clinical investigation.

Take home message: mAbs directed against MM-associated adhesion markers should be taken into account in clinical practice, since they could possibly represent the best available combination of tumor cytotoxicity, environmental signal deprivation and immune system redirection.     

Antibody therapeutics for treating prostate cancer: where are we now and what comes next?

Introduction: Progress in the understanding of molecular events of carcinogenesis and cancer evolution as well as the identification of tumor antigens has led to the development of different targeted therapeutic approaches, including the use of monoclonal antibodies (mAbs). Prostate cancer (PC) is highly amenable to mAb targeting given the existence of prostate-specific targets and the natural history and localization of metastatic disease.

Areas covered: Several aspects of the PC phenotype, including growth factors, angiogenesis mediators, bone microenvironment signals, and immune evasion pathways, have become areas of ongoing investigation in terms of mAb targeting. These are reviewed. The greatest success so far has been the development of mAbs against prostate-specific tumor antigen (PSMA), which opened an opportunity to improve diagnostic accuracy and simultaneously target metastatic disease.

Expert opinion: As mAb use in PC continues to evolve, more accurate imaging of the extent of disease and more effective mAb therapies (naked or conjugated with drugs, toxins or radioactive molecules) are emerging. In addition, the combination of mAbs with other treatment modalities is expected to further improve responses and overall survival. Identification of validated biomarkers is necessary for better recognition of patient subgroups who will derive the greatest benefit from mAb therapy.     

Optimizing treatment of metastatic colorectal cancer patients with anti-EGFR antibodies: overcoming the mechanisms of cancer cell resistance

Introduction: A number of anti-EGFR monoclonal antibodies (mAbs) have been recently developed for the treatment of refractory metastatic colorectal cancer (mCRC). These mAbs, blocking ligand/receptor interactions, exert their biological activity via multiple mechanisms, including inhibition of cell cycle progression, potentiation of cell apoptosis, inhibition of angiogenesis, tumor cell invasion and metastasis and, potentially, induction of immunological effector mechanisms.

Areas covered: Cetuximab is an anti-EGFR mAb currently used in mCRC treatment. Despite the evidence of efficacy of cetuximab in the treatment of mCRC patients, the observation of low response rates was the proof of concept of resistance to anti-EGFR mAbs treatment. An increasing number of molecular alterations have been more recently hypothesized to be involved in resistance to anti-EGFR mAbs in CRC: mutations in BRAF, NRAS and PIK3CA, loss of expression of PTEN and, now, activation of HER2 signaling through HER2 gene amplification and/or increased heregulin stimulation.

Expert opinion: This review focuses on the development of new strategies such as combination with other agents blocking alternative escape pathways, cancer cell prioritization hyperactivating EGFR pathway, combination with immune system, development of nanotech devices to increase efficacy of antibody-based therapy and overcome the mechanisms of cancer cell resistance.     

Opportunities and challenges for TCR mimic antibodies in cancer therapy

ABSTRACT

Introduction: Monoclonal antibodies (mAbs) are potent cancer therapeutic agents, but exclusively recognize cell-surface targets whereas most cancer-associated proteins are found intracellularly. Hence, potential cancer therapy targets such as over expressed self-proteins, activated oncogenes, mutated tumor suppressors, and translocated gene products are not accessible to traditional mAb therapy. An emerging approach to target these epitopes is the use of TCR mimic mAbs (TCRm) that recognize epitopes similar to those of T cell receptors (TCR).

Areas covered: TCRm antigens are composed of a linear peptide sequence derived from degraded proteins and presented in the context of cell-surface MHC molecules. We discuss how the nature of the TCRm epitopes provides both advantages (absolute tumor specificity and access to a new universe of important targets) and disadvantages (low density, MHC restriction, MHC down-regulation, and cross-reactive linear epitopes) to conventional mAb therapy. We will also discuss potential solutions to these obstacles.

Expert opinion: TCRm combine the specificity of TCR recognition with the potency, pharmacologic properties, and versatility of mAbs. The structure and presentation of a TCRm epitope has important consequences related to the choice of targets, mAb design, available peptides and MHC subtype restrictions, possible cross-reactivity, and therapeutic activity.     

Shark variable new antigen receptor biologics – a novel technology platform for therapeutic drug development

Introduction: Biologics drugs have succeeded in achieving a commercial dominance in the global market for new therapies and large pharmaceutical companies' interest remains strong through a continued commitment to pipeline development. It is not surprising, therefore, that next-generation biologics, particularly antibody-like scaffolds that offer many of the advantages of the original biologic drugs but in simplified formats, have entered the clinic as competing substitute therapeutic products, to capture market share.

Areas covered: Specifically, this paper will position shark-derived variable new antigen receptors (VNARs) within an overview of the existing biologics landscape including the growth, diversity and success to date of alternative scaffolds. The intention is not to provide a comprehensive review of biologics as a whole but to discuss the main competing single-domain technologies and the exciting therapeutic potential of VNAR domains as clinical candidates within this context.

Expert opinion: The inherent ability to specifically bind target and intervene in disease-related biological processes, while reducing off-site toxicity, makes mAbs an effective, potent and now proven class of therapeutics. There are, however, limitations to these ‘magic bullets’. Their size and complexity can restrict their utility in certain diseases types and disease locations. In contrast, a number of so-called alternative scaffolds, derived from both immunoglobulin- and non-immunoglobulin-based sources have been developed with real potential to overcome many of the shortcomings documented for mAb treatments. Unlike competing approaches such as Darpins and Affibodies, we now know that shark VNAR domains (like camel VHH nanobody domains), are an integral part of the adaptive immune system of these animals and have evolved naturally (but from very different starting molecules) to exhibit high affinity and selectivity for target. In addition, and again influenced by the environment in which they have evolved naturally, their small size, simple architecture, high solubility and stability, deliver additional flexibility compared to classical antibodies (and many non-natural alternative scaffolds), thereby providing an attractive basis for particular clinical indications where these attributes may offer advantages.     

Anti-CD37 antibodies for chronic lymphocytic leukemia

Introduction: Immunotherapy using mAbs is a safe and effective method for the treatment of chronic lymphocytic leukemia (CLL) and other lymphoid malignancies. In recent years, mAbs based on selective B-cell depletion – rituximab, ofatumumab and obinutuzumab – have been approved for use in CLL therapy. More recently, CD37, a member of the tetraspanin superfamily of cell surface antigens, has been considered as a target for B-cell malignancies.

Areas covered: The results of preclinical and early clinical studies suggest that in patients with CLL, newer anti-CD37 agents, otlertuzumab (formerly known as TRU-016), BI 836826, IMGN529 and ¹⁷⁷Lu-tetulomab can be useful in the treatment of this disease.

Expert opinion: CD37 may offer advantages over CD20 as a target for CLL cells. It is selectively expressed on normal mature B cells and by most B-cell malignancies. Anti-CD37 antibodies may be useful for patients resistant or refractory to anti-CD20 mAb therapy or relapsing after such treatment. The development of these agents into a clinically useful therapy for CLL is probably many years away and will be followed with great interest by laboratory investigators and clinicians.     

Use of polyclonal/monoclonal antibody therapies in transplantation

Introduction: For over thirty years, antibody (mAb)-based therapies have been a standard component of transplant immunosuppression, and yet much remains to be learned in order for us to truly harness their therapeutic capabilities. Current mAbs used in transplant directly target and destroy graft-destructive immune cells, interrupt cytokine and costimulation-dependent T and B cell activation, and prevent down-stream complement activation.

Areas covered: This review summarizes our current approaches to using antibody-based therapies to prevent and treat allograft rejection. It also provides examples of promising novel mAb therapies, and discusses the potential for future mAb development in transplantation.

Expert opinion: The broad capability of antibodies, in parallel with our growing ability to synthetically modulate them, offers exciting opportunities to develop better biologic therapeutics. In order to do so, we must further our understanding about the basic biology underlying allograft rejection, and gain better appreciation of how characteristics of therapeutic antibodies affect their efficacy.     

Donor lymphocyte infusion following allogeneic hematopoietic stem cell transplantation

Introduction: Allogeneic hematopoietic stem cell transplantation (SCT) is the treatment of choice for many malignant hematological disorders. Following recent improvements in non-relapse-related mortality rates, relapse has become the commonest cause of treatment failure. Infusion of donor lymphocytes can potentially enhance immune-mediated antitumor activity and offers a salvage option for some patients. This paper reviews the current literature on the efficacy of this therapeutic strategy.

Areas covered: The biology of adoptive cellular therapy with allogeneic immune cells to treat relapse across a spectrum of diseases in both the full intensity and reduced intensity hematopoietic SCT settings is explored. The review discusses the current limitations of the approach and reviews several new experimental strategies which aim to segregate the desired graft-versus-tumor effect from the deleterious effects of more widespread graft-versus-host reactivity.

Expert opinion: Durable responses to DLI have been noted in chronic myeloid leukemia and responses have also been described in acute leukemia, multiple myeloma and chronic lymphoproliferative disorders. The new challenge in transplantation is to optimize DLI therapy in order to further improve patient outcomes.     

Monoclonal antibodies currently in Phase II and III trials for multiple myeloma

Introduction: Despite the introduction of novel agents, such as thalidomide, lenalidomide and bortezomib, multiple myeloma (MM) remains an incurable disease and new therapies are needed. mAbs are a new promising anticancer treatment option.

Areas covered: This review will focus on mAbs that are currently under evaluation in Phase II and III clinical trials, as single agent and in combination with established treatment options.

Expert opinion: mAbs are a new strategy against MM, and they have demonstrated encouraging results in preclinical models. mAbs have a relatively benign side-effect profile and work synergistically with traditional chemotherapies and with immunomodulatory drugs and proteasome inhibitors.     

Reactivation of hepatitis B virus during targeted therapies for cancer and immune-mediated disorders

ABSTRACT

Introduction: Targeted therapies have gained popularity in the treatment of several oncologic and immune-mediated diseases. Immunosuppression caused by these drugs has been associated to reactivation of hepatitis B virus (HBV) in both hepatitis B surface antigen (HBsAg) positive patients (overt infection) and HBsAg negative/anti-hepatitis B core antigen (anti-HBc) positive carriers (resolved infection), leading to premature discontinuation of therapy and potentially fatal hepatitis.

Areas covered: This review summarizes the evidence of HBV reactivation in patients with overt or resolved HBV infection undergoing targeted therapies for cancer or immune-mediated disorders, providing recommendations for the management of these patients.

Expert opinion: The risk of HBV reactivation relies on the immunosuppressive potency and duration of these therapies, the underlying disease and the virological patient’s profile. However, HBV reactivation is preventable by screening for HBV markers in all patients scheduled to receive targeted therapies, assessing the virological profile and patient’s clinical state, followed by appropriate antiviral treatment or prophylaxis in those patients at high risk of HBV reactivation. Close monitoring of HBV carriers at low risk of reactivation is warranted with the aim to start antiviral therapy as soon as HBV reactivates.     

Galiximab: a review

Importance of the field: A significant number of patients relapse or do not respond to rituximab due to intrinsic or acquired resistance. Hence, mAbs targeting other cell surface antigens on B-cell lymphomas are being studied. CD80 is a glycoprotein expressed on Hodgkin's lymphoma, mature B-cell lymphomas and immunoeffector cells which may have T-regulatory, in addition to direct antitumor activity. CD80 serves as an attractive target in the continued development of mAbs against lymphoma.

Areas covered in this review: Preclinical studies with galiximab, an anti-CD80 primatized mAb, have been encouraging and have demonstrated antitumor activity against various B-cell lymphoma models, both as a single agent as well as in combination with rituximab. Data were reviewed from a PubMed literature search from 1975 to 2009 and also included a review of abstracts from published proceedings of annual meetings from the American Society of Hematology and International Conference of Malignant Lymphoma, Lugano.

What the reader will gain: Readers will gain a better understanding of mechanisms of action (both documented and proposed) of galiximab. An update of currently available clinical data will be presented.

Take home message: Data from completed clinical trials are promising and galiximab is being studied in both upfront and relapsed settings with the potential of being incorporated into the future treatment of B-cell lymphoma.     

Kinoid of human tumor necrosis factor-alpha for rheumatoid arthritis

Introduction: Anti-TNF-α drugs have dramatically changed treatment of rheumatoid arthritis (RA) in terms of both clinical control and articular damage prevention. Despite this, they hold some important drawbacks, such as frequent therapeutic failures and high costs. Anti-TNF-α active immunization, with a therapeutic vaccine against TNF-α, is a promising alternative anti-TNF-α targeting strategy, potentially devoid of treatment limitations of some of current anti-TNF blocking agents.

Areas covered: This review covers the preclinical proof-of-concept of anti-TNF-α vaccination with the kinoid of human TNF-α (TNFK) and analyzes the body of evidence forming the rationale for the application of this strategy in RA and other TNF-α-dependent diseases. We describe the theoretical bases of anti-TNF-α active immunization and of experimental data supporting the applicability of TNFK to human disease in terms of both safety and efficacy.

Expert opinion: Based on preclinical efficacy and safety data supporting its feasibility in a Phase I – II trial in Crohn's disease, anti-TNF-α vaccination with TNFK has entered the phase of clinical development and promises to be a valuable anti-TNF-α targeting strategy in human disease. The focus is made in the first clinical trial in RA (Phase II) on the efficacy in active RA patients having developed antibodies against anti-TNF mAbs.     

Alemtuzumab and multiple sclerosis: therapeutic application

Importance of the field: The cause and cure for multiple sclerosis (MS) remain unknown. Immunomodulatory agents are only partially effective and many patients do not tolerate the side effects or fail them. Immunosuppressive agents act non-specifically and are associated with serious complications. An emerging group of biologic agents with great potential for treatment of immune-mediated disorders such as MS are monoclonal antibodies. A review of alemtuzumab in MS is presented.

Areas covered in this review: Mechanisms of action of alemtuzumab and the results of Phase II clinical trials in MS.

What the reader will gain: Alemtuzumab is a humanized mAb, which targets the surface molecule CD52 on all T cell populations and other cellular components of the immune system such as thymocytes, B cells, and monocytes. Alemtuzumab, which is administered intravenously, depletes T as well as B lymphocyte populations for extended periods. Adverse effects in MS patients such as thyroid disorders and idiopathic thrombocytopenic purpura are discussed.

Take home message: Alemtuzumab may hold great promise for treatment of MS patients and serve as an option for patients refractory to immunomodulatory therapies. Due to its unique mechanism of action and profound effect on MS disease activity it enhances our knowledge about pathogenic mechanisms of MS.     

Positioning ustekinumab in moderate-to-severe ulcerative colitis: new kid on the block

ABSTRACT

Introduction: Ulcerative colitis (UC) is a chronic relapsing disorder of the colonic tract. Dysregulated innate and adaptive immune pathways contribute to intestinal inflammation in IBD, and cytokines, including IL-12 and IL-23, play a key role. The blockade of both IL-12 and IL-23 may have an impact on different pathways of inflammation and could be effective for the treatment of inflammatory bowel diseases.

Ustekinumab is a fully human IgG1κ monoclonal antibody which binds to the shared p40 protein subunit of IL-12 and ?23. It is currently approved for several immune-mediated diseases such as moderate to severe plaque psoriasis, psoriatic arthritis, and Crohn’s disease, and has shown promising results in UC.

Areas covered: A review of the literature was performed to understand several aspects including the role of IL-12 and ?23 in UC, the potential therapeutic role of ustekinumab in inflammatory bowel disease, and the positioning of ustekinumab in the therapeutic algorithm of UC, based on extrapolated data from available randomized clinical trials.

Expert opinion: Ustekinumab is effective and safe in UC, and shows potential advantages compared to other drugs in moderate-to-severe UC.