The angiopoietin (Ang)-Tie axis, critical for endothelial cell function and vascular development, is a promising therapeutic target for treating vascular disorders and inflammatory conditions like sepsis. This study aimed to enhance the binding affinity of recombinant Ang1 variants to the Tie2 and explore their therapeutic potential. Structural insights from the Ang1-Tie2 complex enabled the identification of key residues within the Ang1 receptor binding domain (RBD) critical for Tie2 interaction. Molecular dynamics simulations revealed that Met436Arg (M436R) and Ala451Asp (A451D) could improve Ang1's Tie2 binding affinity. One variant, Ang1-RBDA451D, demonstrated a 100-fold increase compared to the wild type. Cellular assays revealed that Ang1A451D enhanced Tie2 phosphorylation, promoting endothelial cell migration and tube formation. In vivo, this variant effectively reduced inflammatory cytokines and attenuated organ damage in septic mice. These findings highlight Ang1A451D as a promising therapeutic candidate for vascular diseases, offering notable clinical potential for mitigating sepsis-related vascular dysfunction.