Pradeep Kabadi scite author profile

Abstract. We present here extensive mass spectrometric studies on the formation of a Tris conjugate with a therapeutic monoclonal antibody. The results not only demonstrate the reactive nature of the Tris molecule but also the sequence and reaction conditions that trigger this reactivity. The results corroborate the fact that proteins are, in general, prone to conjugation and/or adduct formation reactions and any modification due to this essentially leads to formation of impurities in a protein sample.Further, the results demonstrate that the conjugation reaction happens via a succinimide intermediate and has sequence specificity. Additionally, the data presented in this study also shows that the Tris formation is produced in-solution and is not an in-source phenomenon. We believe that the facts given here will open further avenues on exploration of Tris as a conjugating agent as well as ensure that the use of Tris or any ionic buffer in the process of producing a biopharmaceutical drug is monitored closely for the presence of such conjugate formation.

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Design, parallel synthesis of Biginelli 1,4-dihydropyrimidines using PTSA as a catalyst, evaluation of anticancer activity and structure activity relationships via 3D QSAR studies

Faizan

Kumar

Naishima

et al. 2021

Bioorganic Chemistry

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Evaluation of physicochemical and biological properties of nonreconstituted MYL-1401O vials, reconstituted MYL-1401O suspension in vial, and diluted MYL-1401O suspension in infusion bags (0.9% saline) for extended duration

Vats

Goyal

Zacharia

et al. 2021

Expert Opinion on Biological Therapy

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Analytical similarity assessment of MYL-1402O to reference Bevacizumab

Goyal

Vats²,

Subbarao

et al. 2021

Expert Opinion on Biological Therapy

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Physicochemical and functional characterization of trastuzumab-dkst, a trastuzumab biosimilar

Goyal

Iyer

Adhikary

et al. 2021

Future Medicinal Chemistry

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Aims: Preclinical comparative similarity studies of trastuzumab-dkst, a Herceptin® biosimilar, are reported. Materials & methods: Primary sequence and higher-order structure and pharmacological mechanisms of action were compared using multiple techniques. Pharmacokinetics and repeat-dose toxicity were assessed in cynomolgus monkeys. Results: Primary structures were identical; secondary and tertiary structures were highly similar. Non-significant differences were observed for charge heterogeneity. Twelve of 13 glycan species were highly similar, with slightly higher total mannose levels in trastuzumab-dkst. FcγR and FcRn binding activity was highly similar. Each drug equally inhibited HER2+ cell proliferation, demonstrating equivalent relative potency in mediating HER2+ cell cytolysis by antibody-dependent cellular cytotoxicity. Pharmacokinetic and toxicological profiles in cynomolgus monkeys were similar. Conclusion: Trastuzumab-dkst, US-licensed trastuzumab and EU-approved trastuzumab demonstrate high structural and functional similarity.

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Pradeep Kabadi

Rational Design, Synthesis, and In Vitro Neuroprotective Evaluation of Novel Glitazones for PGC-1α Activation via PPAR-γ: a New Therapeutic Strategy for Neurodegenerative Disorders

Identification and quantification of product-related quality attributes in bio-therapeutic monoclonal antibody via a simple, and robust cation-exchange HPLC method compatible with direct online detection of UV and native ESI-QTOF-MS analysis

Mass Spectrometry Based Mechanistic Insights into Formation of Tris Conjugates: Implications on Protein Biopharmaceutics

Design, parallel synthesis of Biginelli 1,4-dihydropyrimidines using PTSA as a catalyst, evaluation of anticancer activity and structure activity relationships via 3D QSAR studies

Evaluation of physicochemical and biological properties of nonreconstituted MYL-1401O vials, reconstituted MYL-1401O suspension in vial, and diluted MYL-1401O suspension in infusion bags (0.9% saline) for extended duration

Analytical similarity assessment of MYL-1402O to reference Bevacizumab

Physicochemical and functional characterization of trastuzumab-dkst, a trastuzumab biosimilar

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