Abstract
Introduction: Thymosin β4, a low molecular weight, naturally-occurring peptide plays a vital role in the repair and regeneration of injured cells and tissues. After injury, thymosin β4, is released by platelets, macrophages and many other cell types to protect cells and tissues from further damage and reduce apoptosis, inflammation and microbial growth. Thymosin β4 binds to actin and promotes cell migration, including the mobilization, migration, and differentiation of stem/progenitor cells, which form new blood vessels and regenerate the tissue. Thymosin β4 also decreases the number of myofibroblasts in wounds, resulting in decreased scar formation and fibrosis
Areas covered: This article will cover the many thymosin β4 activities that directly affect the repair and regeneration cascade with emphasis on its therapeutic uses and potential. Our approach has been to evaluate the basic biology of the molecule as well as its potential for clinical applications in the skin, eye, heart and brain.
Expert opinion: The considerable advances in our understanding of the functional biology and mechanisms of action of thymosin β4 have provided the scientific foundation for ongoing and projected clinical trials in the treatment of dermal wounds, corneal injuries and in the regeneration and repair of heart and CNS tissue following ischemic insults and trauma.
Acknowledgements
The authors would like to thank J Sa-Reed for outstanding effort in assisting with the preparation and editing of this manuscript.
Notes
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