Bernadine G.C. Lu scite author profile

Plasminogen is the proenzyme precursor of the primary fibrinolytic protease plasmin. Circulating plasminogen, which comprises a Pan-apple (PAp) domain, five kringle domains (KR1-5), and a serine protease (SP) domain, adopts a closed, activation-resistant conformation. The kringle domains mediate interactions with fibrin clots and cell-surface receptors. These interactions trigger plasminogen to adopt an open form that can be cleaved and converted to plasmin by tissue-type and urokinase-type plasminogen activators. Here, the structure of closed plasminogen reveals that the PAp and SP domains, together with chloride ions, maintain the closed conformation through interactions with the kringle array. Differences in glycosylation alter the position of KR3, although in all structures the loop cleaved by plasminogen activators is inaccessible. The ligand-binding site of KR1 is exposed and likely governs proenzyme recruitment to targets. Furthermore, analysis of our structure suggests that KR5 peeling away from the PAp domain may initiate plasminogen conformational change.

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i-bodies, Human Single Domain Antibodies That Antagonize Chemokine Receptor CXCR4

Griffiths¹,

Dolezal

Cao

et al. 2016

Journal of Biological Chemistry

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Methods to Measure the Kinetics of Protease Inhibition by Serpins

Horváth¹,

Lu²,

Pike³

et al. 2011

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Contribution of Conserved Lysine Residues in the α2-Antiplasmin C Terminus to Plasmin Binding and Inhibition

Sofian

Law

et al. 2011

Journal of Biological Chemistry

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␣ 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 ␣ 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 ␣ 2 -antiplasmin to kringle domains of plasmin and in accelerating the rate of interaction between ␣ 2 -antiplasmin and plasmin. When the C terminus of ␣ 2 -antiplasmin was removed, the binding affinity for active siteblocked plasmin remained high, suggesting additional exosite interactions between the serpin core and plasmin.

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Bernadine G.C. Lu

The X-ray Crystal Structure of Full-Length Human Plasminogen

i-bodies, Human Single Domain Antibodies That Antagonize Chemokine Receptor CXCR4

Methods to Measure the Kinetics of Protease Inhibition by Serpins

Contribution of Conserved Lysine Residues in the α2-Antiplasmin C Terminus to Plasmin Binding and Inhibition

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