Pharmaceutical Fronts (Mar 2021)
Synthesis of a Novel PTH1–34 Analog with Increased Human Serum Albumin Affinity
Abstract
Abstract Parathyroid hormone (PTH)1–34 is an effective peptide drug for osteoporosis therapy. However, the half-life of PTH1–34 in vivo is short, leading to the need for frequent injections of this drug during its treatment. To prolong the half-life of PTH1–34, a novel PTH1–34 analog was generated based on fatty acid generation, and its synthesis process included recombinant protein expression, side-chain modification, and peptide decoration. The PTH1–34 variant was expressed in Escherichia coli, with a single Lys (position 27) retained as a modification site. The side chain, –AEEA-γGlu-C18 diacid, was synthesized using 2-chlorotrityl chloride resin as a solid support, and then was conjugated to the PTH1-34 variant to form PTH-Lys27-AGC. Reversed-phase chromatography confirmed a high final purity (>98%) of the target compound; in vitro bioactivity tests showed that PTH-1 receptor potency of PTH-Lys27-AGC was comparable to that of the native PTH1–34. A competitive human serum albumin binding test demonstrated a high albumin affinity of PTH-Lys27-AGC in comparison to PTH1–34. In summary, we developed a novel PTH1–34 analog, PTH-Lys27-AGC, which may be a long-acting agent for osteoporosis treatment in the future.
Keywords
