The study shows that a tiny 7‑amino‑acid part of the protein thymosin‑beta‑4 is what makes it boost blood‑vessel growth and wound healing. This short piece works just as well as the whole 43‑amino‑acid molecule in lab tests, while versions missing it do nothing. The effect can be blocked by adding actin, confirming the binding site’s role.

Thymosin beta4 is a ubiquitous 43 amino acid, 5 kDa polypeptide that is an important mediator of cell proliferation, migration, and differentiation. It is the most abundant member of the beta-thymosin family in mammalian tissue and is regarded as the main G-actin sequestering peptide. Thymosin beta4 is angiogenic and can promote endothelial cell migration and adhesion, tubule formation, aortic ring sprouting, and angiogenesis. It also accelerates wound healing and reduces inflammation when applied in dermal wound-healing assays. Using naturally occurring thymosin beta4, proteolytic fragments, and synthetic peptides, we find that a seven amino acid actin binding motif of thymosin beta4 is essential for its angiogenic activity. Migration assays with human umbilical vein endothelial cells and vessel sprouting assays using chick aortic arches show that thymosin beta4 and the actin-binding motif of the peptide display near-identical activity at ~50 nM, whereas peptides lacking any portion of the actin motif were inactive. Furthermore, adhesion to thymosin beta4 was blocked by this seven amino acid peptide demonstrating it as the major thymosin beta4 cell binding site on the molecule. The adhesion and sprouting activity of thymosin beta4 was inhibited with the addition of 5-50 nM soluble actin. These results demonstrate that the actin binding motif of thymosin beta4 is an essential site for its angiogenic activity.