ABSTRACT
Introduction: Thymosins have been extracted, characterized, and identified from Thymus. The Thymosins are hormones whose therapeuric applications have seen a recent increase. The action of Thymosin α1 is based on the stimulation of the immune response with a large number of results in a variety of pathologies. The absence of a specific receptor prompted us to investigate the direct interaction with membranes, particularly those exposing phosphatidylserine thus contributing to assess the Thymosin α1’s pleiotropy.
Areas covered: The interaction with membranes has been studied with a number of models indicating that Thymosin α1 interacts preferentially with negative regions of the membrane (SDS mixed with dodecylphosphocholine) or, better, with vesicles of dipalmitoylphosphatidylcholine with exposed phosphatidylserine.
Expert opinion: The study of the role of the membrane in the mechanism of action of Thymosin α1 indicated that probably the first interaction occurs at the membrane level with recognition of negative surface due to the phosphatidylserine exposure. Upon assuming a conformation, with two helices with a disordered tract in between, it diffuses on the membrane surface by lateral diffusion. Then the interaction with membrane receptor(s) causes a membrane complex to be formed, with an activation of a signalling cascade. This can be considered the basis of its pleiotropy. Differences in structuration mechamism of Thymosin β4 was outlined.
Article highlights
Tα1 is unstructured in water solution assuming a structure in interacting with negative membrane.
Tα1 assumes a helix structure interacting with exposed PS in membranes
Tα1 interacts with albumin which acts as a transporter in different districts.
The membrane complex of Tα1 activate complexes with a signalling response.
The behaviour of Tα1 with membranes is the basis of pleiotropy.
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Declaration of interest
The authors have no relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript. This includes employment, consultancies, honoraria, stock ownership or options, expert testimony, grants or patents received or pending, or royalties. Peer reviewers on this manuscript have no relevant financial or other relationships to disclose.