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Polyphosphate Nanoparticles: Balancing Energy Requirements in Tissue Regeneration Processes.

Werner Ernst Georg MüllerMeik NeufurthShunfeng WangHeinz C SchröderXiaohong Wang
Published in: Small (Weinheim an der Bergstrasse, Germany) (2024)
Nanoparticles of a particular, evolutionarily old inorganic polymer found across the biological kingdoms have attracted increasing interest in recent years not only because of their crucial role in metabolism but also their potential medical applicability: it is inorganic polyphosphate (polyP). This ubiquitous linear polymer is composed of 10-1000 phosphate residues linked by high-energy anhydride bonds. PolyP causes induction of gene activity, provides phosphate for bone mineralization, and serves as an energy supplier through enzymatic cleavage of its acid anhydride bonds and subsequent ATP formation. The biomedical breakthrough of polyP came with the development of a successful fabrication process, in depot form, as Ca- or Mg-polyP nanoparticles, or as the directly effective polymer, as soluble Na-polyP, for regenerative repair and healing processes, especially in tissue areas with insufficient blood supply. Physiologically, the platelets are the main vehicles for polyP nanoparticles in the circulating blood. To be biomedically active, these particles undergo coacervation. This review provides an overview of the properties of polyP and polyP nanoparticles for applications in the regeneration and repair of bone, cartilage, and skin. In addition to studies on animal models, the first successful proof-of-concept studies on humans for the healing of chronic wounds are outlined.
Keyphrases
  • stem cells
  • healthcare
  • bone mineral density
  • gene expression
  • genome wide
  • nitric oxide
  • cell therapy
  • transcription factor
  • tissue engineering
  • human health
  • dna binding
  • protein kinase