Search

Your search keyword '"Kizhedath, Arathi"' showing total 11 results
Start Over Author "Kizhedath, Arathi"
11 results on '"Kizhedath, Arathi"'

1. QSAR model development for early stage screening of monoclonal antibody therapeutics to facilitate rapid developability

Author

Kizhedath, Arathi

Subjects
615.9
Abstract

Monoclonal antibodies (mAbs) and related therapeutics are highly desirable from a biopharmaceutical perspective as they are highly target specific and well tolerated within the human system. Nevertheless, several mAbs have been discontinued or withdrawn based either on their inability to demonstrate efficacy and/or due to adverse effects. With nearly 80% of drugs failing in clinical development mainly due to lack of efficacy and safety there arises an urgent need for better understanding of biological activity, affinity, pharmacology, toxicity, immunogenicity etc. thus leading to early prediction of success/failure. In this study a hybrid modelling framework was developed that enabled early stage screening of mAbs. The applicability of the experimental methods was first tested on chemical compounds to assess the assay quality following which they were used to assess potential off target adverse effects of mAbs. Furthermore, hypersensitivity reactions were assessed using Skimune™, a non-artificial human skin explants based assay for safety and efficacy assessment of novel compounds and drugs, developed by Alcyomics Ltd. The suitability of Skimune™ for assessing the immune related adverse effects of aggregated mAbs was studied where aggregation was induced using a heat stress protocol. The aggregates were characterised by protein analysis techniques such as analytical ultra-centrifugation following which the immunogenicity tested using Skimune™ assay. Numerical features (descriptors) of mAbs were identified and generated using ProtDCal, EMBOSS Pepstat software as well as amino acid scales for different. Five independent and novel X block datasets consisting of these descriptors were generated based on the physicochemical, electronic, thermodynamic, electronic and topological properties of amino acids: Domain, Window, Substructure, Single Amino Acid, and Running Sum. This study describes the development of a hybrid QSAR based model with a structured workflow and clear evaluation metrics, with several optimisation steps, that could be beneficial for broader and more generic PLS modelling. Based on the results and observation from this study, it was demonstrated incremental improvement via selection of datasets and variables help in further optimisation of these hybrid models. Furthermore, using hypersensitivity and cross reactivity as responses and physicochemical characteristics of mAbs as descriptors, the QSAR models generated for different applicability domains allow for rapid early stage screening and developability. These models were validated with external test set comprising of proprietary compounds from industrial partners, thus paving way for enhanced developability that tackles manufacturing failures as well as attrition rates.

Published
2019

3. A Human Skin Explant Test as a Novel In Vitro Assay for the Detection of Skin Sensitization to Aggregated Monoclonal Antibodies.

Author

Martins-Ribeiro, Ana, Kizhedath, Arathi, Ahmed, Shaheda Sameena, Glassey, Jarka, Ishaq, Abbas, Freer, Matthew, and Dickinson, Anne Mary

Subjects
MONOCLONAL antibodies, SKIN tests, HEAT shock proteins, TRANSMISSION electron microscopy, ULTRACENTRIFUGATION, T cells
Abstract

Introduction: Monoclonal antibodies (mAbs) are important therapeutics. However, the enhanced potential for aggregation has become a critical quality parameter during the production of mAbs. Furthermore, mAb aggregation may also present a potential health risk in a clinical setting during the administration of mAb therapeutics to patients. While the extent of immunotoxicity in patient populations is uncertain, reports show it can lead to immune responses via cell activation and cytokine release. In this study, an autologous in vitro skin test designed to predict adverse immune events, including skin sensitization, was used as a novel assay for the assessment of immunotoxicity caused by mAb aggregation. Material and Methods: Aggregation of mAbs was induced by a heat stress protocol, followed by characterization of protein content by analytical ultra-centrifugation and transmission electron microscopy, revealing a 4% aggregation level of total protein content. Immunotoxicity and potential skin sensitization caused by the aggregates, were then tested in a skin explant assay. Results: Aggregated Herceptin and Rituximab caused skin sensitization, as shown by histopathological damage (grade II–III positive response) together with positive staining for Heat Shock Protein 70 (HSP70). Changes in T cell proliferation were not observed. Cytokine analysis revealed a significant increase of IL-10 for the most extreme condition of aggregation (65 °C at pH3) and a trend for an overall increase of IFN-γ, especially in response to Rituximab. Conclusions: The skin explant assay demonstrated that aggregated mAbs showed adverse immune reactions, as demonstrated as skin sensitization, with histopathological grades II-III. The assay may, therefore, be a novel tool for assessing immunotoxicity and skin sensitization caused by mAb aggregation. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

8. BIOPRO World Talent Campus:a week of real world challenge for biotechnology post-graduate students

Author

Abeykoon Udugama, Isuru Sampath Bandara, Feldman, Hannah, de las Heras, Simoneta Cano, Kizhedath, Arathi, Bryde-Jacobsen, Jesper, van den Berg, Frans, Mansouri, Seyed Soheil, Gernaey, Krist V., Abeykoon Udugama, Isuru Sampath Bandara, Feldman, Hannah, de las Heras, Simoneta Cano, Kizhedath, Arathi, Bryde-Jacobsen, Jesper, van den Berg, Frans, Mansouri, Seyed Soheil, and Gernaey, Krist V.

Published
2018

9. BIOPRO World Talent Campus: A week of real world challenge for biotechnology post-graduate students

Author

Udugama, Isuru A., Feldman, Hannah, las Heras, Simoneta Caño, Kizhedath, Arathi, Bryde-Jacobsen, Jesper, van den Berg, Frans W. J., Mansouri, Seyed Soheil, Gernaey, Krist V., Udugama, Isuru A., Feldman, Hannah, las Heras, Simoneta Caño, Kizhedath, Arathi, Bryde-Jacobsen, Jesper, van den Berg, Frans W. J., Mansouri, Seyed Soheil, and Gernaey, Krist V.

Abstract

Focus on sustainable processes and renewable raw materials, combined with rapid advancements in technology developments across scales, makes bio-based production processes a subject of great interest to both industry and academia. Despite this increasing prominence of bio-based production processes, there is a lack of a single course that can provide a thorough overview of the state-of-the-art industrial scale bio-based production, to early stage practitioners and researchers such as post-graduate students. BIOPRO World Talent Campus (WTC), developed and initiated in the year 2013 by the BIOPRO Strategic research consortium, was specifically designed and developed to address this shortcoming, and has thus far trained more than 120 post-graduate students from related yet diverse academic backgrounds from all across the globe. This manuscript describes the general and technical organisation of BIOPRO WTC, and the unique academic and industrial collaboration that exists in Denmark, which makes WTC a reality. A special focus is also placed on discussing a 48 h industrial challenge that is set by leading Danish bio-based production companies and its impact on young post-graduate students, who get hands on experience in dealing with “real world” problems. Results from student surveys carried out during the five years of WTC are reported and discussed to understand the impact of the course. A future perspective is also presented with the focus on the possibility of employing emerging technologies to extend the outreach of the program.

Published
2018

Catalog

Books, media, physical & digital resources
See catalog results