Discovery and characterization of an antibody directed against exosite I of thrombin

Baglin, Trevor; Langdown, Jonathan; Frasson, Roberta; Huntington, James A.

doi:10.1111/jth.13171

Cited by 29 publications

(25 citation statements)

References 22 publications

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“…They found an IgA paraprotein with antithrombin activity in a patient identified during screening for coagulation abnormalities [71]. Further characterization of this antibody showed that it specifically binds to thrombin exosite I and is not associated with a severe bleeding phenotype.…”

Section: Fibrin Polymerizationmentioning

confidence: 99%

Upstream versus downstream thrombin inhibition

Gulpen¹,

Cate‐Hoek²,

Cate³

2016

Expert Review of Cardiovascular Therapy

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Introduction: For a long time, vitamin K antagonists (VKA) have been the preferred drugs for the anticoagulation management of both atrial fibrillation and venous thromboembolism. Hereby, the major purpose is to attenuate the onset of thrombosis without affecting hemostasis. Areas covered: Nowadays, non-vitamin K anticoagulants (NOAC), a new class of oral anticoagulants is available for the above-mentioned indications. NOAC are at least as effective and safer with regard to intracranial bleedings compared to VKA, but major bleedings still occur. For this reason, the search for safer anticoagulants is still ongoing. Expert commentary: There are several unmet needs in NOAC management, including selection of optimal drug and dose, uncertainty on specific conditions and lack of drug persistence. There remains to be an important need for safer anticoagulants; 'upstream' anticoagulants including inhibitors of factor XIa may provide additional benefit related to fewer bleeding complications. ARTICLE HISTORY

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Section: Fibrin Polymerizationmentioning

confidence: 99%

Upstream versus downstream thrombin inhibition

Gulpen¹,

Cate‐Hoek²,

Cate³

2016

Expert Review of Cardiovascular Therapy

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“…In the presence of venous thromboembolism, the D-dimer level goes up to ≥5,000 ng/ mL, showing that the system has a signi icant reserve capacity. Only in a patient with an unusually potent auto-antibody to thrombin has the normal D-dimer concentration been reported to be nearer zero (12-32 ng/mL) [14], a inding that also con irms that fresh intravascular ibrin, whose formation was suppressed by the antibody, is the D-dimer's source.…”

Section: How Thrombolysis Can Be Improved?mentioning

confidence: 99%

Thrombolysis, the only Optimally Rapid Reperfusion Treatment

Gurewich¹

2017

J Cardiol Cardiovasc Med

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Thrombolysis with tissue plasminogen activator (tPA) has been plagued by inadequate effi cacy and a high risk of intracranial hemorrhage (ICH), which led to its replacement by procedures like percutaneous coronary intervention (PCI) whenever possible. Since this requires hospitalization, it is time-consuming, and compromising salvage of brain tissue and myocardium. Thrombolysis is the only fi rst-line treatment that can provide suffi ciently timely treatment for optimal recovery of organ function. However, for this potential to be realized, its effi cacy and safety must be signifi cantly improved over the current method. By adopting the sequential, synergistic fi brinolytic paradigm of the endogenous system, already verifi ed by a clinical trial, this becomes possible. The endogenous system's function is evidenced by the fi brinolytic product D-dimer that is invariably present in blood, and which increases >20-fold in the presence of thromboembolism. This system uses tPA to initiate lysis, which is then completed by the other fi brin-specifi c activator prourokinase (proUK). Since tPA and proUK in combination are synergistic in fi brinolysis, it helps explain their effi cacy at their low endogenous concentrations.

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“…A completely different approach for potential safe anticoagulation was identified by chance in a patient who presented with a traumatic subdural hemorrhage and greatly prolonged global plasma coagulation test results (prothrombin time, activated partial thromboplastin time, and thrombin time) due to an anti‐thrombin immunoglobulin A paraprotein . Testing of the antibody revealed a specific and high‐affinity interaction with the fibrinogen recognition site (exosite I) of thrombin.…”

mentioning

confidence: 99%

“…With the promising in vitro and animal data, the failure of JNJ‐9375 in the TEXT‐TKR study comes as a surprise. Although it is not known what the explanation for this observation is, several reasons may be possible.…”

mentioning

confidence: 99%

“…It may be that in situations with high tissue factor, JNJ‐9375 is less potent in inhibition of fibrin formation. An indication may have already been that the prothrombin time, a test initiated with a high concentration of tissue factor, was much less prolonged in the patient with the paraprotein than the thrombin time or activated partial thromboplastin time . The rat arteriovenous shunt model that demonstrated efficacy of JNJ‐9375 is a model mainly driven by contact activation, and may therefore not be representative of the situation during knee replacement.…”

mentioning

confidence: 99%

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