SummaryEndosperm weakening and radicle elongation of lettuce seeds were separated by using sodium dichloroisocyanurate, and the roles of ROS in these processes were studied. A novel method was used for endosperm puncture force measurement.
Ly6/uPAR/α-neurotoxin domain (LU-domain) is characterized by the presence of 4-5 disulfide bonds and three flexible loops that extend from a core stacked by several conversed disulfide bonds (thus also named three-fingered protein domain). This highly structurally stable protein domain is typically a protein-binder at extracellular space. Most LU proteins contain only single LU-domain as represented by Ly6 proteins in immunology and α-neurotoxins in snake venom. For Ly6 proteins, many are expressed in specific cell lineages and in differentiation stages, and are used as markers. In this study, we report the crystal structures of the two LU-domains of human C4.4A alone and its complex with a Fab fragment of a monoclonal anti-C4.4A antibody. Interestingly, both structures showed that C4.4A forms a very compact globule with two LU-domain packed face to face. This is in contrast to the flexible nature of most LU-domain-containing proteins in mammals. The Fab combining site of C4.4A involves both LU-domains, and appears to be the binding site for AGR2, a reported ligand of C4.4A. This work reports the first structure that contain two LU-domains and provides insights on how LU-domains fold into a compact protein and interacts with ligands.
Recombinant tissue-type plasminogen activator (r-tPA) was approved by U.S. Food and Drug Administration as a thrombolytic drug. However, a high dose of r-tPA (up to 100 mg/person) is typically used in clinical applications. Such high dosage leads to severe side effects including haemorrhage and neurotoxicity, which can be fatal. To improve the proteolytic properties of tPA to enhance thrombolytic therapy, we designed a series of mutants in tPA serine protease domain (tPA-SPD) based on the crystal structure of tPA-SPD:plasminogen activators inhibitor-1 (PAI-1) complex that we determined recently. We found that the A146Y substitution in tPA-SPD(A146Y) enhanced resistance to PAI-1 inactivation by 30-fold compared with original tPA-SPD. Interestingly, the tPA-SPD(A146Y) variant showed fivefold higher activation for plasminogen compared with tPA-SPD. The variant also demonstrated thrombolytic activity stronger than tPA-SPD in a clot lysis assay. In vivo, we showed tPA-SPD(A146Y) possessed higher thrombolytic efficacy in a pulmonary embolism model compared with original tPA-SPD. Furthermore, a mouse tail bleeding assay showed that tPA-SPD(A146Y) did not increase bleeding risk compared with clinical drug r-tPA. Together, our findings reveal novel functions of A146Y variant, which not only increases the catalytic efficiency of the enzyme, but also enhances resistance to PAI-1 inhibition, and demonstrating that tPA-SPD (A146Y) variant is a much improved agent for thrombolytic therapy.
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