Molecules (Feb 2023)

Molecular Simulation Study on the Interaction between Porcine CR1-like and C3b

  • Zhen Hou,
  • Wei Yin,
  • Zhili Hao,
  • Kuohai Fan,
  • Na Sun,
  • Panpan Sun,
  • Hongquan Li

DOI
https://doi.org/10.3390/molecules28052183
Journal volume & issue
Vol. 28, no. 5
p. 2183

Abstract

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The molecular basis of porcine red blood cell immune adhesion function stems from the complement receptor type 1-like (CR1-like) on its cell membrane. The ligand for CR1-like is C3b, which is produced by the cleavage of complement C3; however, the molecular mechanism of the immune adhesion of porcine erythrocytes is still unclear. Here, homology modeling was used to construct three-dimensional models of C3b and two fragments of CR1-like. An interaction model of C3b–CR1-like was constructed by molecular docking, and molecular structure optimization was achieved using molecular dynamics simulation. A simulated alanine mutation scan revealed that the amino acids Tyr761, Arg763, Phe765, Thr789, and Val873 of CR1-like SCR 12–14 and the amino acid residues Tyr1210, Asn1244, Val1249, Thr1253, Tyr1267, Val1322, and Val1339 of CR1-like SCR 19–21 are key residues involved in the interaction of porcine C3b with CR1-like. This study investigated the interaction between porcine CR1-like and C3b using molecular simulation to clarify the molecular mechanism of the immune adhesion of porcine erythrocytes.

Keywords