1. Academic Validation
  2. Contribution of conserved lysine residues in the alpha2-antiplasmin C terminus to plasmin binding and inhibition

Contribution of conserved lysine residues in the alpha2-antiplasmin C terminus to plasmin binding and inhibition

  • J Biol Chem. 2011 Jul 15;286(28):24544-52. doi: 10.1074/jbc.M111.229013.
Bernadine G C Lu 1 Trifina Sofian Ruby H P Law Paul B Coughlin Anita J Horvath
Affiliations

Affiliation

  • 1 Australian Centre for Blood Diseases, Monash University, Melbourne, Victoria 3004, Australia.
Abstract

α(2)-Antiplasmin is the physiological inhibitor of plasmin and is unique in the serpin family due to N- and C-terminal extensions beyond its core domain. The C-terminal extension comprises 55 Amino acids from Asn-410 to Lys-464, and the lysine residues (Lys-418, Lys-427, Lys-434, Lys-441, Lys-448, and Lys-464) within this region are important in mediating the initial interaction with kringle domains of plasmin. To understand the role of lysine residues within the C terminus of α(2)-antiplasmin, we systematically and sequentially mutated the C-terminal lysines, studied the effects on the rate of plasmin inhibition, and measured the binding affinity for plasmin via surface plasmon resonance. We determined that the C-terminal lysine (Lys-464) is individually most important in initiating binding to plasmin. Using two independent methods, we also showed that the conserved internal lysine residues play a major role mediating binding of the C terminus of α(2)-antiplasmin to kringle domains of plasmin and in accelerating the rate of interaction between α(2)-antiplasmin and plasmin. When the C terminus of α(2)-antiplasmin was removed, the binding affinity for active site-blocked plasmin remained high, suggesting additional exosite interactions between the serpin core and plasmin.

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