Current Issues in Molecular Biology (Oct 2024)

Wound Healing, Metabolite Profiling, and In Silico Studies of <i>Aspergillus terreus</i>

  • Amal A. Al Mousa,
  • Mohamed E. Abouelela,
  • Ahmed Mansour,
  • Mohamed Nasr,
  • Yasser H. Ali,
  • Nadaa S. Al Ghamidi,
  • Youssef Abo-Dahab,
  • Hassan Mohamed,
  • Nageh F. Abo-Dahab,
  • Abdallah M. A. Hassane

DOI
https://doi.org/10.3390/cimb46100694
Journal volume & issue
Vol. 46, no. 10
pp. 11681 – 11699

Abstract

Read online

Burn injuries, which significantly affect global public health, require effective treatment strategies tailored to varying severity. Fungi are considered a sustainable, easily propagated source for lead therapeutic discovery. In this study, we explored the burn wound healing potential of Aspergillus terreus through a combination of in vitro, in vivo, metabolite profiling, and in silico analysis. The in vitro scratch assays performed with human skin fibroblast cells showed promising wound healing activity. Furthermore, the burn-induced rats model showed a marked improvement in cutaneous wound healing, evidenced by an accelerated rate of wound closure and better skin regeneration after A. terreus extract treatment at 14 days. The results of this study demonstrated significant enhancements in wound closure and tissue regeneration in the treated rat model, surpassing the outcomes of standard treatments. This controlled healing process, evidenced by superior collagen synthesis and angiogenesis and confirmed by histopathological studies, suggests that A. terreus has potential beyond the traditionally studied fungal metabolites. The metabolite profiling of 27 bioactive compounds was further investigated by docking analysis for the potential inhibition of the NF-κB pathway, which has an important function in inflammation and wound repair. The compounds eurobenzophenone A (7), aspernolide D (16), asperphenalenone A (23), aspergilate D (15), kodaistatin A (18), and versicolactone A (14) showed the highest binding affinity to the target protein with a pose score of −16.86, −14.65, −12.65, −12.45, −12.19, and −12.08 kcal/mol, respectively. Drug-likeness properties were also conducted. The findings suggest the potential wound healing properties of A. terreus as a source for lead therapeutic candidate discovery.

Keywords