Albumin-binding as a universal strategy for half-life extension
Huanbo Tan, Michael Sattler and Peijian Zou
With the development of recombinant DNA technology, a growing number of peptides and proteins
are being applied to clinical treatment of diseases. However, a huge challenge needed to be addressed
for many therapeutic peptides or proteins is that their half-lives in circulation is short due to rapid renal
clearance and enzymatic degradation. To overcome the challenge, half-life extension strategies have
been extensively developed. Albumin-binding strategy, whether covalent or non-covalent, represent a
widely applied and highly successful half-life extension strategy, and many products have been marketed
or tested in clinical trials. This review focuses on the utilization of albumin for half-life prolongation and
emphasizes on the albumin-binding drugs already on the market or in the clinical stage. We summarize
the related techniques including genetic fusion, chemical conjugation, non-covalent binding fatty acid
and protein moieties.
