Refine
Document Type
- Doctoral Thesis (2)
Language
- English (2) (remove)
Has Fulltext
- yes (2)
Is part of the Bibliography
- no (2)
Keywords
- anti-idiotypes (1)
- hemophilia a (1)
- inhibitors (1)
Institute
- Medizin (2)
The genetic mutation of the coagulation factor VIII (fVIII) results in a defective or missing protein, leading to a malfunctioning blood coagulation. The resulting disease is called hemophilia A. Depending on the severity of the mutation, affected patients experience an increased risk of pathologic bleeding after minor trauma or even sudden bleeding events. Substitution therapies with extrinsic fVIII exist using plasmatic or recombinant fVIII products. Due to an insufficient immune tolerance towards substituted fVIII, about 30 % of patients develop allogenic neutralizing antibodies (inhibitors) against substituted fVIII products. The gold standard of treating inhibitors is the immune tolerance induction (ITI), where patients are given frequent, high doses of fVIII to induce an immune tolerance. ITI therapy fails in about 30 % of patients. Mechanisms of action of ITI are part of research, as insufficient knowledge about mechanisms and prognostic factors complicate treatment. For example, the development of anti-idiotypic antibodies, which occur naturally as a regulatory mechanism of the immune system, are being studied. Such anti-idiotypes have been detected in immunoglobuline preparations and in patients after successful ITI.
Inhibitors interfere with fVIII function in coagulation by binding functional epitopes within fVIII domains. Inhibitors against the A2 and C2 domain are predominantly found, however also the C1 domain has been shown to be highly immunogenic in some patients. The polyclonality of inhibitors aggravates the understanding and treatment of these. The present project therefore focusses on the selection of synthetic anti-idiotypic antibodies to target inhibitors in patients. The phage display method was applied to, for one, isolate anti-idiotypic single chain variable fragments (scFvs) specific against human polyclonal anti-fVIII antibodies and second against two C1 domain-specific inhibitory monoclonal antibodies (mAbs).
In the first project, anti-fVIII antibodies were purified from human plasma to serve as target molecules. A previous project showed that using full plasma as a target did not yield anti-idiotypic antibodies from phage display. For the purification, protein A chromatography and fVIII coupled Affi Gel® chromatography were applied. The isolated antibodies were next used as targets for the selection of anti-idiotypic scFvs. Analysis revealed that none of the selected phages solely bound the anti-fVIII antibody target. Consequently, the test protocol was modified, which resulted in a reduction of unspecific binders. Yet, no target-specific binders were isolated from phage pools. Reason for this may have been the high diversity of the polyclonal antibody target and the limited diversity of the phage libraries.
The aim of the second project, was the selection and characterization of scFvs, that target the paratopes of C1 domain-specific mAbs GMA8011 and LE2E9. From a therapeutic viewpoint, the preparation of an anti-idiotypic antibody pool, tailored to each patient’s inhibitor population, could help neutralize inhibitors in patients. Ultimately, one GMA8011-specific scFv-carrying phage clone (H2C1) and two specifics to LE2E9 (H3G7, H3F10) were isolated. In further experiments, only the GMA8011-specific scFv showed competitive behavior in presence of fVIII, pointing towards an anti-idiotypic binding to the inhibitor paratope. The LE2E9-specific scFvs did not prevent binding of the inhibitor to fVIII. Hence, no anti-idiotypic behavior could be determined. For further characterization, selected scFvs were genetically fused to Fc antibody fragments and recombinantly produced. In this antibody format, all three scFvs showed concentration dependent binding to the target and the isotype control. The binding specificity to the target, observed in phage context, could not be reproduced. Competition experiments with fVIII confirmed that none of the scFvs bound the paratope of their target inhibitor.
The selection of anti-idiotypic scFvs from phage display libraries proves to be effortful. Polyclonal anti-fVIII antibodies purified from hemophilic plasma appear to be unsuitable as a target for phage display, likely due to the high diversity of the target molecules. Furthermore, the preparation of an individualized anti-idiotypic pools for patients by selecting scFvs against single inhibitory mAbs proves to be difficult. The selection of scFvs against anti-C1 inhibitors GMA8011 and LE2E9 produced three promising scFv-carrying phages. However, analysis could not detect anti-idiotypic behavior. Further research with inhibitors, monoclonal and polyclonal, and anti-idiotypic antibodies should be performed to bring better insight into the highly complex paratope-epitope interaction.
The postthrombotic syndrome (PTS) is beside the venous thromboembolism (VTE) recurrence and chronic thromboembolic pulmonary hypertension (CTEPH) a long-term adverse outcome and chronic complication of deep vein thrombosis (DVT) in the lower extremities and can occur in up to 20–50% of patients within 2 years after DVT. The prevalence of PTS in the adult population is expected to increase due to the growing incidence of VTE in the elderly. Although not life threatening it can impose significant morbidity and can be associated with a negative impact on quality of life associated with disease severity. From an economic point of view, PTS is an important predictor of increased health care costs after VTE.
Factors potentially related to the development of the PTS are older age, obesity, a history of previous ipsilateral DVT, iliofemoral location of the current thrombosis, failure to promptly recover from the acute symptoms and insufficient quality of oral anticoagulant therapy. Furthermore, it is known that the severity of PTS correlates with the location of the DVT, the more proximal the more severe.
PTS induces a range of symptoms and clinical signs, which can be assessed in different scales. The Villalta scale is one of the most suitable scales for defining the presence and severity of subjective symptoms and physical signs of PTS.
In the last century, various therapeutic strategies have been developed to prevent mortality due to VTE or long-term morbidity due to PTS.
Conservative treatment today consists of anticoagulation - usually using direct oral anticoagulants - and compression therapy. One of the first invasive treatments with the aim of thrombus removal was surgical venous thrombectomy by Läwen in 1938. Mahorner and Fontaine improved the technique in the 1950s combining it with a course of anticoagulant treatment to prevent rethrombosis and PTS.
Mechanical thrombectomy by the use of Fogarty balloons, which started in 1963, or the creation of a transient arteriovenous fistula, performed since 1974, are now no longer recommended due to the high invasiveness, risk of fatal intraoperative embolism and a high rethrombosis rate.
In current practice, early thrombus removal mainly relies on the use of catheter-directed pharmacologic thrombolytic therapy. Another approach currently is the endovenous, device-driven thrombectomy and stenting in case of venous obstruction. There is an ongoing broad discussion as to whether these invasive therapies should be offered to patients with iliofemoral thrombosis (IFT), which remains controversial.
IFT, the major target for endovenous thrombectomy respectively pharmacologic thrombolytic therapy, is not enough represented in current literature because the used definition of proximal DVT does not necessarily include the iliac veins. In consequence, it may not be representative enough concerning questions like prevalence and severity of PTS or the effects on quality of life.
The present registry – the Iliaca-PTS registry – addresses exactly these patients and tries to answer these questions. The data of 85 patients who had suffered an IFT in the past were evaluated in the prospective registry documenting the severity of PTS, the occurrence of iliac vein compression syndrome in left-sided IFT and quality of life. A significant predictor for the development of severe PTS or venous claudication in our patient population is a high BMI.
The results of this registry show that IFT is frequently observed and only ten percent develop a moderate or severe PTS respectively venous claudication. In conclusion, the conservative treatment strategy with optimal effective anticoagulant therapy can lead to a low incidence of PTS and a high quality of life.