Strategies for extending the half-life of biotherapeutics: successes and complications

Uli Binder, Arne Skerra

Research output: Contribution to journalReview articlepeer-review

Abstract

Introduction: Engineering of the drug half-life in vivo has become an integral part of modern biopharmaceutical development due to the fact that many proteins/peptides with therapeutic potential are quickly cleared by kidney filtration after injection and, thus, circulate only a few hours in humans (or just minutes in mice). Areas covered: Looking at the growing list of clinically approved biologics that have been modified for prolonged activity, and also the plethora of such drugs under preclinical and clinical development, it is evident that not one solution fits all needs, owing to the vastly different structural features and functional properties of the pharmacologically active entities. This article provides an overview of established half-life extension strategies, as well as of emerging novel concepts for extending the in vivo stability of biologicals, and their pros and cons. Expert opinion: Beyond the classical and still dominating technologies for improving drug pharmacokinetics and bioavailability, Fc fusion and PEGylation, various innovative approaches that offer advantages in different respects have entered the clinical stage. While the Fc fusion partner may be gradually superseded by engineered albumin-binding domains, chemical PEGylation may be replaced by biodegradable recombinant amino-acid polymers like PASylation, thus also offering a purely biotechnological manufacturing route.

Original languageEnglish
JournalExpert Opinion on Biological Therapy
DOIs
StateAccepted/In press - 2024

Keywords

  • Albumin conjugation
  • CTP-fusion
  • Fc fusion
  • PASylation
  • PEGylation
  • pharmakokinetics
  • plasma half-life
  • polysarcosine

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