Physicochemical and Biological Characterization of RTXM83, a New Rituximab Biosimilar.

BACKGROUND: RTXM83 is a rituximab biosimilar with proven clinical safety and efficacy. It is the first rituximab biosimilar developed and approved in South America and is currently marketed in several Latin American, Middle Eastern and African countries. OBJECTIVE: The aim of this study was to present the physicochemical and biological characterization studies utilized to demonstrate the similarity between RTXM83 and its reference product. METHODS: Primary and higher order protein structures were analysed using peptide mapping with liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS), fluorescence spectroscopy and circular dichroism, and micro-differential scanning calorimetry, among other techniques. Charge variants were determined by cation-exchange chromatography (CEX) and capillary isoelectric focusing (cIEF). Glycosylation and glycoforms distribution were analysed using MS, normal phase high-performance liquid chromatography (NP-HPLC) and high-performance anion-exchange chromatography with pulsed amperometric detection (HPAE-PAD). Size variants were evaluated by size-exclusion chromatography (SEC), sedimentation velocity analytical ultracentrifugation (SV-AUC), dynamic light scattering (DLS), and capillary electrophoresis-sodium dodecyl sulfate (CE-SDS). Biological characterization included binding assays for complement C1q, CD20, and several Fc receptors (FcRs), as well as potency determination for in vitro apoptosis induction, complement-dependent cytotoxicity (CDC), and antibody-dependent cell-mediated cytotoxicity (ADCC). RESULTS: RTXM83 and the reference product showed identical primary sequences and disulfide bridge patterns, and similarity at higher order protein structures, post-translational modification profiles (amino acid modifications, charge variants, and glycosylation) and levels of purity and process-related impurities. Functional studies demonstrated that RTXM83 is similar to the reference product regarding the three known mechanisms of action of rituximab: CDC, ADCC, and apoptosis induction. Binding affinities to CD20, complement component C1q, and different FcRs were also equivalent. CONCLUSION: RTXM83 is similar to its reference product in all critical quality attributes.

Differentiating biosimilarity and comparability in biotherapeutics.

The manufacture of biologics is a complex process involving numerous steps. Over time, differences may arise as a result of planned changes to the manufacturing processes of a biologic from the same manufacturer. Comparability is the regulatory process that outlines the scope of an assessment required of an already licensed biologic after a manufacturing process change made by the same manufacturer. The aim of a comparability assessment is to demonstrate that any pre-manufacturing and post-manufacturing changes have no adverse impact on quality, safety, and efficacy of the biologic. A comparability assessment is distinct from a biosimilarity assessment, which involves extensive assessment of a biologic that is highly similar to the originator (reference product) in terms of quality, safety, and efficacy. The US Food and Drug Administration, European Medicines Agency, and World Health Organization have applied the fundamental comparability concepts into their respective biosimilarity guidance documents. In this review, we examine the rationale behind the distinct, highly regulated approval processes governing changes that may occur over time to an originator biologic due to planned manufacturing changes (as described by a comparability exercise) and those that outline the approval of a proposed biosimilar drug, based on its relationship with the reference product (biosimilarity evaluations).

New Alternatives for Autoimmune Disease Treatments: Physicochemical and Clinical Comparability of Biosimilar Etanercept.

Etanercept is a recombinant fusion protein approved for the treatment of TNF-α mediated diseases such as rheumatoid arthritis (RA), psoriasis, psoriatic arthritis, and ankylosing spondylitis. Herein, we present an evaluation of the physicochemical and biological properties of a biosimilar etanercept and its reference product followed by a clinical study in patients diagnosed with RA intended to demonstrate comparability of their immunomodulatory activity. Identity analyses showed a total correspondence of the primary and higher-order structure between the two products. In regard to intrinsic heterogeneity, both products showed to be highly heterogenous; however the biosimilar etanercept exhibited similar charge and glycan heterogeneity intervals compared to the reference product. Apoptosis inhibition assay also showed that, despite the high degree of heterogeneity exhibited by both products, no significant differences exist in their in vitro activity. Finally, the clinical assessment conducted in RA-diagnosed patients did not show significant differences in the evaluated pharmacodynamic markers of both products. Collectively, the results from the comparability exercise provide convincing evidence that the evaluated biosimilar etanercept can be considered an effective alternative for the treatment of RA.

Physicochemical and biological characterization of a biosimilar trastuzumab.

According to the World Health Organization, the incidence of malignant neoplasms and endocrine, blood, and immune disorders will increase in the upcoming decades along with the demand of affordable treatments. In response to this need, the development of biosimilar drugs is increasing worldwide. The approval of biosimilars relies on the compliance with international guidelines, starting with the demonstration of similarity in their physicochemical and functional properties against the reference product. Subsequent clinical studies are performed to demonstrate similar pharmacological behavior and to diminish the uncertainty related to their safety and efficacy. Herein we present a comparability exercise between a biosimilar trastuzumab and its reference product, by using a hierarchical strategy with an orthogonal approach, to assess the physicochemical and biological attributes with potential impact on its pharmacokinetics, pharmacodynamics, and immunogenicity. Our results showed that the high degree of similarity in the physicochemical attributes of the biosimilar trastuzumab with respect to the reference product resulted in comparable biological activity, demonstrating that a controlled process is able to provide consistently the expected product. These results also constitute the basis for the design of subsequent delimited pharmacological studies, as they diminish the uncertainty of exhibiting different profiles.

Structural and functional analyses of biosimilar enoxaparins available in Brazil.

Biosimilar enoxaparins have been available for clinical use in Brazil since 2009. Although their use has reduced costs of treatment expenses, their implementation still raises some concerns about efficiency, safety, regularity and reproducibility of batches. We undertook structural and functional analyses on over 90 batches of pharmaceutical-active ingredient, and 330 ones of the final products of biosimilar enoxaparins available in the Brazilian market between 2009 and 2014. Besides a nationwide-scale analysis, we have also employed methods that go beyond those recommended by the standard pharmacopeias. We have used high-resolution 2D NMR, detailed assessment of the anticoagulant and antithrombotic properties, check of side effects in experimental animals after continuous administration, and analyses of individual composing oligosaccharides. The 1D 1H NMR spectra of all batches of biosimilar enoxaparins are fairly coincident, and the resultant average spectrum is quite identical to that from the original drug. This structural equality was also assured by highly resolved 2D NMR spectra. The anticoagulant activity, determined by diverse assays and the in vivo antithrombotic and bleeding effects of the biosimilar version were confirmed as equal as of the parental enoxaparins. Structure and function of the composing oligosaccharides were identical in both enoxaparin types. No side effect was observed after continuous subcutaneous administration to rats for 30 days at the dose of 2 mg kg⁻¹ body weight. Biosimilar enoxaparins available in Brazil fulfilled the requirement of the five items defined by FDA-USA for approval of this type of drug.

Propositional debate on biosimilar enoxaparin in Brazil.

Some patents of low-molecular-weight heparins (LMWHs) have expired and others are about to expire. Biosimilar versions of those drugs are available for clinical use in several countries. However, skepticism persists about the possibility of obtaining preparations similar to the original drug, because of the complexity of the process to generate LMWHs. In recent years, our laboratory has analyzed biosimilar samples of enoxaparin available for clinical use in Brazil (30 different batches and 70 finished products). Those preparations were assessed regarding their chemical structure, molecular weight distribution, in vitro anticoagulant activity, and pharmacological effects in animal models of thrombosis and bleeding. Our results have clearly shown that biosimilar preparations of enoxaparin are similar to the original drug. Our results have shown that those biosimilar versions of enoxaparin are a valid therapeutic alternative, which are, however, in need of appropriate regulation to ensure compliance with regulatory requirements.

Debate propositivo sobre os biossimilares de enoxaparina no Brasil / Propositional debate on biosimilar enoxaparin in Brazil / Debate de una propuesta sobre los biosimilares de enoxaparina en Brasil

Algumas patentes das heparinas de baixo peso molecular expiraram e outras estão vencendo. Versões biossimilares desses fármacos estão disponíveis para o uso clínico em vários países. Entretanto, ainda persiste ceticismo sobre a possibilidade de se obter preparações semelhantes ao medicamento original em razão do complexo processo para gerar heparina de baixo peso molecular. Nosso laboratório analisou, nos últimos anos, amostras de enoxaparina disponíveis para uso clínico no Brasil. Já analisamos 30 lotes distintos e 70 produtos acabados. Essas preparações foram avaliadas quanto à estrutura química, distribuição de peso molecular, atividade anticoagulante in vitro e efeitos farmacológicos em modelos animais de trombose e sangramento. Claramente, nossos resultados indicam que as preparações biossimilares de enoxaparina são semelhantes ao medicamento original. Nossos resultados indicam que essas versões biossimilares de enoxaparina são uma alternativa terapêutica válida, mas que requerem regulamentação adequada para assegurar o atendimento de requisitos regulatórios apropriados.

Some patents of low-molecular-weight heparins (LMWHs) have expired and others are about to expire. Biosimilar versions of those drugs are available for clinical use in several countries. However, skepticism persists about the possibility of obtaining preparations similar to the original drug, because of the complexity of the process to generate LMWHs. In recent years, our laboratory has analyzed biosimilar samples of enoxaparin available for clinical use in Brazil (30 different batches and 70 finished products). Those preparations were assessed regarding their chemical structure, molecular weight distribution, in vitro anticoagulant activity, and pharmacological effects in animal models of thrombosis and bleeding. Our results have clearly shown that biosimilar preparations of enoxaparin are similar to the original drug. Our results have shown that those biosimilar versions of enoxaparin are a valid therapeutic alternative, which are, however, in need of appropriate regulation to ensure compliance with regulatory requirements.

Algunas patentes de las heparinas de bajo peso molecular caducaron y otras van por el mismo camino. Versiones biosimilares de esos fármacos están disponibles para el uso clínico en varios países. Sin embargo, todavía persiste el escepticismo sobre la posibilidad de obtener preparaciones similares al medicamento original en razón del complejo proceso para producir la heparina de bajo peso molecular. En los últimos años, nuestro laboratorio analizó muestras de enoxaparina disponibles para el uso clínico en Brasil. Ya hemos analizado 30 lotes distintos y 70 productos acabados. Esas preparaciones fueron evaluadas en cuanto a la estructura química, distribución de peso molecular, actividad anticoagulante in vitro y efectos farmacológicos en modelos animales de trombosis y sangramiento. Lógicamente que nuestros resultados indican que las preparaciones biosimilares de enoxaparina son similares al medicamento original. Nuestros resultados dan fe de que esas versiones biosimilares de enoxaparina son una alternativa terapéutica válida, pero que requieren una reglamentación adecuada para garantizar la atención de los requisitos reglamentarios pertinentes.

Biosimilars / Biossimilares

Although common themes permeate the environment across continents and particular divergences as to how to proceed exist between different regulatory agencies, it seems that policies are still in flux. Not all polices will suffice to fit all dissimilar biologics, and these in place or being developed may, in turn, change to accommodate new or unexpected developments. Consideration for accelerated approval for those compounds that do not present complex questions should be considered.The regulatory agencies should be more forthcoming, the industry sector exercise social responsibility, and the public should have realistic expectations.

Embora haja temas comuns no ambiente dos diferentes continentes e divergências particulares sobre como proceder entre diferentes agências regulatórias, parece que as decisões políticas ainda caminham. Nem todas as políticas serão suficientes para acomodar todos os diferentes produtos biológicos, e as políticas atuais ou em desenvolvimento podem, por sua vez, mudar para acomodar novos e inesperados desenvolvimentos. Deve-se considerar a aprovação mais rápida para aqueles compostos que não apresentem questões complexas. As agências regulatórias deveriam ser mais acessíveis, as indústrias deveriam exercitar sua responsabilidade social e o público deveria ter expectativas realísticas.

Biosimilars.

Although common themes permeate the environment across continents and particular divergences as to how to proceed exist between different regulatory agencies, it seems that policies are still in flux. Not all policies will suffice to fit all dissimilar biologics, and these in place or being developed may, in turn, change to accommodate new or unexpected developments. Consideration for accelerated approval for those compounds that do not present complex questions should be considered.The regulatory agencies should be more forthcoming, the industry sector exercise social responsibility, and the public should have realistic expectations.