Exosite Binding in Thrombin: A Global Structural/Dynamic Overview of Complexes with Aptamers and Other Ligands

Troisi, Romualdo; Balasco, Nicole; Autiero, Ida; Vitagliano, Luigi; Sica, F.

doi:10.3390/ijms221910803

Cited by 34 publications

(37 citation statements)

References 159 publications

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“…It is known that through exosite-1, thrombin interacts with its partners biological proteins such as fibrinogen, fibrin, thrombomodulin, and the thrombin receptor. Through exosite-2,thrombin interacts with heparin, heparin cofactor II, antithrombin III, the kringle-2 domain in prothrombin, and platelet glycoprotein Ib (Gp1b) [ 52 ]. Therefore, the binding of inhibitors to these sites simultaneously blocks the active site, affecting not only the final step of the blood coagulation cascade (fibrin clot formation), but also other thrombin-mediated processes and activation of the feedback loop.…”

Section: Discussionmentioning

confidence: 99%

“…Anophelin is a cysteine-less bivalent thrombin inhibitor with a Ki value of about 30–100 pM, but with a unique inhibition mechanism: it binds to the active center and exosite-1, but in a reverse orientation [ 33 , 64 ]. The [ 32 , 33 , 34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 , 42 , 43 , 44 , 45 ]-fragment block of the thrombin exosite-1 and the [ 50 , 51 , 52 , 53 ]-tetrapeptide interact with its active site. Although a 31 aa N-terminal fragment of anophelindoes not possess the antithrombin activity, due to its negative charge it can promote the correct formation of the complex with thrombin.…”

Section: Discussionmentioning

confidence: 99%

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Screening of the Promising Direct Thrombin Inhibitors from Haematophagous Organisms. Part I: Recombinant Analogues and Their Antithrombotic Activity In Vitro

et al. 2021

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The success in treatment of venous thromboembolism and acute coronary syndromes using direct thrombin inhibitors has stimulated research aimed at finding a new anticoagulant from haematophagous organisms. This study deals with the comparison between hirudin-1 from Hirudomedicinalis(desirudin), being the first-known and most well-studied natural anticoagulant, along with recombinant analogs of haemadin from the leech Haemadipsa sylvestris, variegin from the tick Amblyomma variegatum, and anophelin from Anopheles albimanus. These polypeptides were chosen due to their high specificity and affinity for thrombin, as well as their distinctive inhibitory mechanisms. We have developed a universal scheme for the biotechnological production of these recombinant peptides as pharmaceutical substances. The anticoagulant activities of these peptides were compared using the thrombin amidolytic activity assay and prolongation of coagulation time (thrombin time, prothrombin time, and activated partial thromboplastin time) in mouse and human plasma. The preliminary results obtained suggest haemadin as the closest analog of recombinant hirudin-1, the active substance of the medicinal product Iprivask (Aventis Pharmaceuticals, USA) for the prevention of deep venous thrombosis in patients undergoing elective hip or knee replacement surgery. In contrast, variegin can be regarded as a natural analog of bivalirudin (Angiomax, The Medicines Company), a synthetic hirudin-1 derivative certified for the treatment of patients undergoing percutaneous coronary intervention and of patients with unstable angina pectoris after percutaneous transluminal coronary angioplasty.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Screening of the Promising Direct Thrombin Inhibitors from Haematophagous Organisms. Part I: Recombinant Analogues and Their Antithrombotic Activity In Vitro

et al. 2021

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“…While other bacterial protease inhibitors have been identified that target exosites, such as E. coli ecotin, this targeting is typically in tandem with active site blockade (51)(52)(53). In contrast to bacteria, a few naturally derived exosite-only inhibitors of the coagulation protease thrombin (Factor IIa) have been described from hematophagous organisms (reviewed in (54)). Our current model most resembles the exosite-only mechanisms used by triabin of the triatomine bug Triatoma pallidipennis (55) and C-terminal truncations of hirudin (e.g., hirugen) from the medicinal leech Hirudo medicinalis (56), both of which interact with exosite I of thrombin and do not inhibit the cleavage of a small peptide.…”

Section: Discussionmentioning

confidence: 99%

Outer surface lipoproteins from the Lyme disease spirochete exploit the molecular switch mechanism of the complement protease C1s

Garrigues

Thomas

Leong

et al. 2022

Preprint

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Proteolytic cascades comprise several important physiological systems, including a primary arm of innate immunity called the complement cascade. To safeguard against complement-mediated attack, the etiologic agent of Lyme disease, Borreliella burgdorferi, produces numerous outer surface-localized lipoproteins that contribute to successful complement evasion. Recently, we discovered a pair of B. burgdorferi surface lipoproteins of the OspEF-related protein family – termed ElpB and ElpQ – that inhibit antibody-mediated complement activation. In this study, we investigate the molecular mechanism of ElpB and ElpQ complement inhibition using an array of biochemical and biophysical approaches. In vitro assays of complement activation show that an independently folded homologous C-terminal domain of each Elp protein maintains full complement inhibitory activity and selectively inhibits the classical pathway. Using surface plasmon resonance, Alpha bead-based technology, and C1s enzyme assays, we show that binding of Elp proteins to activated C1s blocks C4 cleavage by competing with C1s/C4 binding without occluding the active site. C1s-mediated C4 cleavage is dependent on activation-induced binding sites, termed exosites. To test whether these exosites are involved in Elp/C1s binding, we performed site-directed mutagenesis which showed that ElpB– and ElpQ-binding require C1s residues in the anion-binding exosite located on the serine protease domain of C1s. Based on these results, we propose a model whereby ElpB and ElpQ exploit activation-induced conformational changes that are normally important for C1s-mediated C4 cleavage. Our study expands the known complement evasion mechanisms of microbial pathogens and reveals a novel molecular mechanism for selective C1s inhibition by Lyme disease spirochetes.

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“…In 1992, Bock et al, reported a nucleic acid aptamer for the first time that binds to human thrombin [40]. Since then, a variety of thrombin aptamers have been reported [41][42][43][44][45][46][47]. Among them, two of the most widely used aptamers are TBA1 and TBA2 (shown in Figure 1).…”

Section: Thrombin Binding Aptamer (Tba)mentioning

confidence: 99%

Aptamer-Based Sensors for Thrombin Detection Application

et al. 2022

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Thrombin facilitates the aggregation of platelet in hemostatic processes and participates in the regulation of cell signaling. Therefore, the development of thrombin sensors is conducive to comprehending the role of thrombin in the course of a disease. Biosensors based on aptamers screened by SELEX have exhibited superiority for thrombin detection. In this review, we summarized the aptamer-based sensors for thrombin detection which rely on the specific recognitions between thrombin and aptamer. Meanwhile, the unique advantages of different sensors including optical and electrochemical sensors were also highlighted. Especially, these sensors based on electrochemistry have the potential to be miniaturized, and thus have gained comprehensive attention. Furthermore, concerns about aptamer-based sensors for thrombin detection, prospects of the future and promising avenues in this field were also presented.

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Exosite Binding in Thrombin: A Global Structural/Dynamic Overview of Complexes with Aptamers and Other Ligands

Cited by 34 publications

References 159 publications

Screening of the Promising Direct Thrombin Inhibitors from Haematophagous Organisms. Part I: Recombinant Analogues and Their Antithrombotic Activity In Vitro

Screening of the Promising Direct Thrombin Inhibitors from Haematophagous Organisms. Part I: Recombinant Analogues and Their Antithrombotic Activity In Vitro

Outer surface lipoproteins from the Lyme disease spirochete exploit the molecular switch mechanism of the complement protease C1s

Aptamer-Based Sensors for Thrombin Detection Application

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