Unraveling the mechanism of ADAMTS13 resistance to protease inhibition

Singh, Kanwal

January 2022

ADAMTS13 resistance to protease inhibition / Background: ADAMTS13 is a metalloprotease that regulates the delicate balance between VWF multimeric length and its platelet capturing capacity. Unlike other ADAMTS and coagulation proteases, ADAMTS13 exhibits a prolonged half-life of several days as an active protease, suggesting that it is protected from inhibitors of metalloproteases in blood. Here, we investigate the mechanism by which ADAMTS13 is resistant to protease inhibition. Methods: C-terminal domain truncations of ADAMTS13 (MDTCS and MD) and chimeras with ADAMTS5 (MD13/TCS5, M13/DTCS5, MD5/TCS13, and MD5(TCS-CUB13)) were generated. Metalloprotease domain segments from ADAMTS5 were swapped into MDTCS13 corresponding to the gatekeeper triad (R193, D217, and D252) (MDTCS-G), the variable loop (G236-S263) (MDTCS-V5), and the calcium-binding loop (R180-R193) (MDTCS-C5). MDTCS-GVC5 was generated to study these features simultaneously. Alpha 2-macrogloublin (A2M), tissue inhibitors of metalloproteinases (TIMPs), and small molecule inhibitor (Marimastat) were used as inhibitors, and tested using FRETS-VWF73 and Western blot. Results: MDTCS, MD, MD13/TCS5, M13/DTCS5, MDTCS-G, MDTCS-V5, and MDTCS-C5 constructs were resistant to all inhibitors, whereas MD5/TCS13 was inhibited. The presence of the closed conformation attenuated MD5(TCS-CUB13) proteolysis by 50-fold, while displaying a slower rate of inhibition compared to MD5/TCS13. We report the kinetic parameters of the unique features of the metalloprotease domain (the gatekeeper triad, the variable loop, and the calcium-binding loop). Moreover, simultaneously swapping these features sensitized MDTCS-GVC5 to Marimastat. Conclusion: Our findings reveal that the closed conformation confers global latency, while the metalloprotease domain confers local latency of ADAMTS13. The local latency is maintained by the flexibility of the variable loop and the calcium-binding loop, which fold across the active site cleft to restrict inhibitor and substrate access. Extensive engagement of exosites by VWF can readily displace these loops, thereby activating ADAMTS13 from its latent form. Altogether, we present novel insight into the mechanism by which ADAMTS13 is resistant to protease inhibition. / Thesis / Doctor of Philosophy (PhD) / Hemostasis is the body’s natural process to prevent bleeding and maintain blood flow. The ability of a blood protein, called VWF, to stop bleeding upon injury is regulated by the protein ADAMTS13. ADAMTS13 circulates in the blood for days, but its function cannot be stopped by inhibitors. Here, we investigate the mechanism by which ADAMTS13 is resistant to inhibition. We found that several structures of ADAMTS13, called domains and loops, protect it from inhibitors. Folding of the distal domains to the centre of ADAMTS13 partially protected ADAMTS13 from inhibitors. Further investigation revealed that two flexible loops close to the active site of ADAMTS13 were primarily responsible for protecting ADAMTS13 from inhibitors. We suggest that the flexibility of these loops guard against inhibition by folding across the active site. These results are important because advances have been made to use ADAMTS13 therapeutically in many clotting illnesses, such as strokes.

ADAMTS13

VWF

A2M

TIMP3

Marimastat

Endothelial agonists stimulate VWF release in vitro and trigger TTP in vivo

Schaeffer, Gilbert Van

01 December 2013

Von Willebrand factor (VWF) is a plasma glycoprotein that can bind collagen at a wound site as well as circulating platelets. VWF forms high molecular weight multimers (>20,000 kDa). VWF can also form VWF strings that appear to be attached to the endothelial surface and are capable of binding platelets. These strings are only observed in vitro and in vivo in the absence of the VWF-cleaving protease ADAMTS13. Deficiency in ADAMTS13 results in thrombotic thrombocytopenic purpura (TTP), a clotting disorder characterized by thrombocytopenia, microangiopathic hemolytic anemia, renal dysfunction, neurological dysfunction and fever. Patients suffering from TTP demonstrate VWF-and platelet-rich thrombi in the microvasculature of numerous organ systems, but most notably in the kidneys, heart, and brain. While VWF strings have not been directly connected to TTP, their presence in vivo was only identified with the ADAMTS13 knockout mouse (a model of TTP), suggesting a possible relationship. Recently we identified glycerol as an agent, similar to histamine, that triggers the formation of VWF strings in vitro. We found that glycerol and histamine trigger TTP in an ADAMTS13-deficient mouse model. In addition, we determined conditions in vitro that promote the formation of dense VWF networks. These networks of VWF can be greater than 70 μm thick and appear to be able to form fibers as long as several millimeters in length. These networks have not been previously identified and may underlie a possible mechanism by which VWF-rich thrombi form in TTP. These networks were formed solely from cultured endothelial cells, leading us to believe that endothelial cells alone are capable of producing more VWF than perhaps previously appreciated. These data suggest that secretion of VWF from the endothelium may play an important role in the pathophysiology of TTP.

ADAMTS13

Endothelium

Strings

TTP

VWF

Cell Anatomy

Cell Biology

Characterizing Protease-Resistant ADAMTS13 Mutants

DeYoung, Veronica A

January 2023

ADAMTS13 is a metalloprotease that regulates the length, and thus, the platelet-capturing capacity of von Willebrand factor. The regulation of ADAMTS13 activity remains poorly understood. Numerous circulating proteases cleave ADAMTS13 in vitro, impairing its activity, but the physiological significance of this mechanism remains unknown. Two commonly cleaved regions within ADAMTS13 were identified and mutants were developed: two with one of each region mutated (T4L and T8L mutants), one with both regions mutated (T4L/T8L or “double” mutant), and one with an additional elastase site mutated (T4L/T8L + I380G). This work characterizes the mutants’ resistance to proteolysis and compares the activity of the double mutant to wild-type ADAMTS13 (WT). Each mutant and WT was incubated with purified coagulation and neutrophil proteases, activated neutrophils, or added to plasma before initiating coagulation with or without tissue plasminogen activator. Cleavage patterns were visualized with western blot. FRETS-VWF73 and microfluidic flow assays were used to compare WT and mutant activity. Coagulation proteases cleave both predicted sites within WT, and the double mutant exhibits near complete resistance to cleavage over 3 hours. Resistance to degradation by neutrophil proteases is prolonged in the double mutant, but additional cleavage sites are present. Elastase cleavage is prevented in the T4L/T8L + I380G mutant. In plasma, WT is degraded upon initiating coagulation and subsequent fibrinolysis, which is prevented in the double mutant. WT is also degraded in the presence of activated neutrophils, and the double and T4L/T8L + I380G mutants exhibit improved but incomplete resistance. Finally, the mutants exhibit similar activity to WT using FRETS-VWF73 and the microfluidic assay. This work validates the location of two protease-sensitive regions within ADAMTS13 and confirms the resistance of the double mutant to coagulation proteases in vitro. Future work will complete the activity analysis, and compare the mutants’ therapeutic efficacy to WT in vivo. / Thesis / Master of Science (MSc) / Current drugs used to dissolve blood clots can cause major bleeding. Therefore, safer treatments need to be developed. An important step in the clotting pathway is platelet accumulation in the injured vessel. Platelets stick to string-like protein, von Willebrand Factor (VWF), and ADAMTS13 is a protein that regulates this by cutting VWF strings. ADAMTS13 shows promise as a treatment for clots without causing bleeding, but it is unclear how its activity is controlled. ADAMTS13 can be degraded by other proteins, however the importance of this process in the body is unknown. This work characterizes a degradation-resistant ADAMTS13 mutant, which may be used to study whether ADAMTS13 degradation reduces its therapeutic effectiveness. The mutant has normal VWF-cutting activity, is resistant to degradation by clotting proteins, and is partially resistant to proteins released by neutrophils, an important immune cell in clotting. Future studies will investigate its effectiveness at treating clots in animals.

ADAMTS13

von Willebrand Factor

Thrombosis

Hemostasis

Protease regulation

Antithrombotic

ADAMTS13 Activity in Dogs with Chronic Enteropathies

Barth, Samantha Irene

01 September 2023

Background: Chronic enteropathies (CE) predispose dogs to thromboembolic disease, but the underlying mechanisms are poorly understood. Humans with CE have decreased activity of a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 13 (ADAMTS13), a von Willebrand factor (vWF) cleaving enzyme, and increased circulating vWF. The primary aim of this study is to assess plasma ADAMTS13 activity, vWF antigen (vWF:Ag) concentration, and vWF collagen binding activity (vWF:CBA) in dogs with CE. Hypotheses: Dogs with CE have reduced plasma ADAMTS13 activity, increased vWF:Ag, and increased vWF:CBA compared to healthy control dogs. Animals: Twenty privately-owned dogs with CE and 40 healthy dogs were recruited from a specialty hospital population. Methods: Prospective observational study. Dogs were confirmed to have CE using histopathology. ADAMTS13 activity was measured using a commercially available ELISA kit (DiapharmaⓇ) in 20 dogs with CE and 40 healthy control dogs. Plasma vWF:Ag was assessed in 20 dogs with CE and 20 healthy control dogs. Plasma vWF:CBA was assessed in 19 dogs with CE and 20 healthy control dogs. For statistical analysis, an unpaired t-test was used for normally distributed data and Wilcoxon rank sum was used for non-Gaussian distribution. Significance was set at P < 0.05. Results: Plasma ADAMTS13 activity and vWF:Ag were not significantly different compared to healthy dogs (P = 0.07, P = 0.16, respectively). Plasma vWF:CBA was significantly decreased compared to healthy dogs (P = 0.007). Conclusions and clinical relevance: Plasma ADAMTS13 activity was not significantly different in dogs with CE compared to healthy dogs and is unlikely to be the primary mechanism for hypercoagulability associated with CE. Forty-three percent of CE dogs with hypoalbuminemia had ADAMTS13 activity below reference interval. Further studies are warranted to evaluate ADAMTS13 activity in a subset of dogs with CE, including those with protein losing enteropathy and thromboembolism. / Master of Science / Background: Dogs with chronic gastrointestinal disease, or chronic enteropathies (CE), often have abnormal blood clotting which predisposes to thrombosis. The mechanisms leading to this abnormal blood clotting are poorly understood. Humans with CE also suffer from abnormal blood clotting and thrombosis. Decreased activity of a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 13 (ADAMTS13), a von Willebrand factor (vWF) cleaving enzyme, and increased circulating vWF have been reported as contributors to this abnormal blood clotting in people. Von Willebrand factor is a protein that allows platelets to stick together and adhere to damaged tissue to facilitate blood clot formation. The concentration of vWF can be measured using vWF antigen (vWF:Ag) and the activity of vWF can be measured using vWF collagen binding activity (vWF:CBA). Hypothesis: Dogs with CE have reduced plasma ADAMTS13 activity, increased vWF:Ag, and increased vWF:CBA compared to healthy control dogs. Animals: Twenty privately-owned dogs with CE and 40 healthy dogs were recruited from a hospital population. Methods: Prospective observational study. Plasma ADAMTS13 activity, vWF:Ag and vWF:CBA were assessed in dogs with CE and compared to healthy control dogs. Results: There was no difference in plasma ADAMTS13 activity and vWF:Ag between the two groups. The mean vWF:CBA was significantly lower in CE dogs compared to healthy dogs. Conclusions and clinical relevance: Reduced ADAMTS13 activity is unlikely to be the primary mechanism for abnormal blood clotting in dogs with CE.

ADAMTS13

von Willebrand factor

canine chronic enteropathy

hypercoagulable

CCECAI

Mechanism of ADAMTS13 regulation

Madarati, Hasam

January 2022

Studies demonstrated ADAMTS13 possesses unique properties with a mystifying regulatory mechanism. ADAMTS13’s role is in its proteolytic function to its VWF. The disparity in the hemostatic balance between ADAMTS13 activity and the distribution of VWF multimers could result in the bleeding disorder Von Willebrand Disease (VWD) or the thrombotic disorder thrombotic thrombocytopenic purpura (TTP). ADAMTS13 is constitutively secreted as an active protease, yet VWF retains its capacity to recruit platelets. This ability makes ADAMTS13 an enigmatic protease with an unknown regulatory mechanism. Currently, the postulated regulatory mechanism of ADAMTS13 is in its open/closed conformation, yet ADAMTS13 activity is retained in both forms. Literature showed that few proteases are capable of degrading ADAMTS13 in-vitro. We hypothesize that the partial degradation of ADAMTS13 regulates its activity, thereby stabilizing VWF and promoting thrombosis. The goals of this project were to develop and optimize in-vitro plasma BioID to identify novel interactions to ADAMTS13, validate novel interactions, identify proteases capable of degrading ADAMTS13 and their proteolytic sites, and develop protease-resistant ADAMTS13 mutants as novel therapeutics to thrombotic disorders. We optimized the BioID technique to be used in-vitro in plasma, to study novel interactions with ADAMTS13. Our results identified novel potential interactions with vitronectin or plasminogen. Validation studies disregarded vitronectin’s interaction and confirmed plasminogen’s interaction through the CUB and Kringle domains in a lysine-dependent manner. Further, the list of proteases capable of degrading ADAMTS13 was expanded to include FXIa and neutrophil-derived proteases including Cathepsin G, elastase, and hPR3. Activated neutrophils played a stronger role than coagulation proteases in degrading ADAMTS13 in vivo, while also demonstrating that elastase is a more potent regulator. Proteolytically degraded sites on ADAMTS13 were identified and proteolytic-resistant ADAMTS13 mutants were produced accordingly, which we aim to be utilized as a novel therapeutic to thrombotic disorders. / Thesis / Doctor of Philosophy (Medical Science)

The Influence of Sequence Variation on von Willebrand Factor Biosynthesis, Proteolytic Processing and Clearance

Pruss, Cynthia Marie

07 August 2012

Von Willebrand factor (VWF) promotes platelet adhesion and aggregation at sites of vascular damage. This function is directly related to the multimer size of VWF. The VWF-specific metalloprotease ADAMTS13 decreases VWF multimer size by cleaving at Y1605-M1606 in the VWF A2 domain. This thesis examined the sensitivity of ADAMTS13 cleavage to mutagenesis of the full-length multimerized VWF substrate, and a small VWF A2 domain fragment, VWF115. The ADAMTS13 cleavage site at Y1605-M1606 was mutated with the most severe loss of cleavage observed in Y1605A/M1606A. In addition, 4 single nucleotide polymorphisms were examined, with D1472H, Q1571H, P1601T proteins all showing increased resistance to cleavage. In contrast, G1643S has enhanced cleavage in the full-length VWF substrate but shows cleavage resistance in VWF115. Three von Willebrand disease mutations were also examined. In patients, R1597W has enhanced ADAMTS13 cleavage and a loss of high molecular weight multimers, while R1205H has enhanced protein clearance resulting in very low VWF levels and Y1584C patients have moderately low VWF levels. R1597W has enhanced cleavage of full-length VWF, while a slight cleavage increase is observed in VWF115 for Y1584C, and no change is seen with R1205H. The VWF mutations R1597W, Y1605A/M1606A, R1205H and Y1584C were further examined in the VWF knockout mouse using recombinant VWF protein infusion and hydrodynamic delivery of VWF cDNA to determine the effects these mutations produce on VWF antigen levels, multimer structure, secretion, clearance and function in a thrombotic injury model. All four mutations had different pathogenic mechanisms. R1597W showed accelerated clearance with loss of multimer structure, and greatly increased time to thrombotic occlusion. Y1605A/M1606A showed accelerated clearance with normal or supranormal multimer structure, a loss of thrombotic occlusion but increased platelet accumulation. Y1584C showed no change in protein clearance, with decreased VWF antigen level, reduced multimer structure, and reduced thrombotic potential. R1205H demonstrated a synthetic defect in vitro and in vivo increased clearance with a decrease in VWF antigen levels and normal multimer structure and a variable thrombotic potential. These results validate the use of the genetically-modified VWF knockout mouse model for evaluating the pathogenic mechanisms of putative VWF mutations. / Thesis (Ph.D, Pathology & Molecular Medicine) -- Queen's University, 2010-07-28 10:24:40.654

von Willebrand Factor

ADAMTS13

Hemostasis

Thrombosis

von Willebrand Disease

bleeding

clotting

pathology

Envolvimento do fator de von Willebrand na plaquetopenia do envenenamento experimental pela serpente Bothrops jararaca: participação  da botrocetina  e metaloproteinases do veneno / Involvement of von Willebrand factor in the plaquetopenia of experimental poisoning by the Bothrops jararaca snake: participation of botrocetin and venom metalloproteinases

Thomazini, Camila Martos

02 May 2018

Pacientes envenenados pela serpente Bothrops jararaca manifestam uma tendência hemorrágica em que a plaquetopenia é um achado consistente. Manifestações clínicas sistêmicas, como sangramento de mucosas e microangiopatia trombótica em alguns pacientes, apresentam similaridades com sinais clínicos de doença de von Willebrand e púrpura trombocitopênica trombótica. Algumas proteínas do veneno - como a botrocetina (uma proteína relacionada às lectinas do tipo C) e as metaloproteinases do veneno (SVMP) - interferem direta ou indiretamente na interação entre plaquetas e o fator de von Willebrand (vWF) in vitro e in vivo. E dessa forma, podem contribuir para os sangramentos induzidos pelo envenenamento devido à importância que o vWF tem para a hemostasia primária. Pensando em compreender a participação do vWF do organismo e a botrocetina e as SVMP do veneno bruto de B. jararaca (BjV) na plaquetopenia induzida pelo envenenamento, utilizamos dois modelos experimentais: ratos Wistar heterogênicos e camundongos nocautes do gene Vwf (Vwf-/-). No modelo em ratos, o BjV foi pré-incubado com salina (controle positivo), um inibidor de metaloproteinases (Na2-EDTA), anticorpos policlonais anti-botrocetina, glicerol (veículo dos anticorpos), ou a combinação do Na2-EDTA e anticorpos anti-botrocetina; o grupo controle negativo foi injetado somente com salina. Após a administração subcutânea (s.c.) dos venenos tratados (1,6 mg/kg), amostras de sangue foram coletadas após 3, 6 ou 24 h, e analisaram-se a contagem de plaquetas, quantificação antigênica (vWF:Ag) e da atividade de ligação do vWF ao colágeno (vWF:CB), a atividade de ADAMTS13, a distribuição multimérica de vWF, e a atividade coagulante de fator VIII (FVIII). Para explorar a participação do vWF na plaquetopenia, camundongos nocautes de vWF (Vwf-/-) e camundongos controles (C57BL/6) foram injetados s.c. com BjV incubado com salina (grupo positivo do envenenamento) ou apenas salina (grupo controle negativo). As injeções dos tratamentos, bem como os períodos analisados foram idênticos aos dos ratos. Em nossos resultados, todos os ratos injetados com algum tratamento de BjV, inclusive nos animais que receberam veneno pré-tratado com anticorpo anti-botrocetina e/ou Na2-EDTA, apresentaram plaquetopenia, com maior intensidade em 6 h. Na avaliação do vWF foi encontrada uma grande variação individual nos grupos de tratamentos, porém ainda assim houve uma tendência a redução nos níveis de vWF:Ag em 3 e 6 h nos ratos que receberam BjV sem inibidores. A administração de BjV tratado somente com anticorpo anti-botrocetina promoveu uma maior redução nos níveis de vWF:Ag em 3 h, com retorno aos níveis semelhantes aos de controle negativo em 6 h e 24 h. A inibição sozinha das metaloproteinases não promoveu efeito importante, porém em 6 h, potencializou a ação do anticorpo anti-botrocetina na inibição conjunta do decréscimo de vWF:Ag e vWF:CB. A análise dos multímeros do vWF mostrou perfis bastante variáveis individualmente, porém os multímeros de alto peso molecular e intermediário tenderam a diminuir e os de baixo peso a aumentar nos animais que receberam algum tratamento com BjV, especialmente em 24 h. Na dosagem de FVIII, houve redução em 3 e 6 h em todos os ratos que receberam qualquer tratamento de BjV, sem grandes variações entre esses grupos. A atividade de ADAMTS13 apresentou uma redução dos valores em 3 e 6 h, que foi revertida pela inibição das metaloproteinases do veneno. Já nos camundongos, a plaquetopenia esteve presente em todos os animais nocautes e controles que receberam BjV, mostrando ser independente da presença de vWF. Nos camundongos controles (C57BL/6), não houve alterações evidentes em vWF:Ag durante o envenenamento, porém em 3 h houve uma tendência a sua diminuição. Em conjunto, nossos resultados mostram que a presença da botrocetina no veneno bruto não afeta a plaquetopenia desencadeada pelo envenenamento, porém influencia o vWF plasmático quantitativa e funcionalmente. As metaloproteinases do veneno têm forte efeito sobre a enzima fisiológica reguladora da atividade biológica do vWF, a ADAMTS13, que indiretamente pode afetar os níveis de vWF. Ademais, a intensidade da plaquetopenia durante o envenenamento de B. jararaca não depende da presença de vWF, e tendo em conta o caráter multifatorial do consumo plaquetário durante o envenenamento, sugerimos que outros mecanismos possam ser responsáveis pela plaquetopenia induzida pelo BjV. Com isso, concluímos que o consumo de vWF no envenenamento por B. jararaca é um fator contribuinte, porém não determinante, para as alterações da contagem plaquetária / Patients bitten by Bothrops snakes manifest a bleeding tendency in which thrombocytopenia is consistently observed. Systemic clinical manifestations, such as mucous bleeding and thrombotic microangiopathy in some patients, share similarities with symptoms of von Willebrand disease and thrombotic thrombocytopenic purpura. Some venom proteins - e.g. botrocetin (a C-type lectin-related protein) and snake venom metalloproteinases (SVMP) - disturbs, direct or indirectly, the interaction between platelets and von Willebrand factor (vWF) in vitro and in vivo, and may contribute thereby to snakebite-induced bleedings, once vWF is required for primary hemostasis. To better understand the relation between plasma vWF, and botrocetin and SVMPs from B. jararaca crude venom (BjV) in the thrombocytopenia induced by envenomation, we used two experimental models: Wistar heterogenic rats and vWF knockout mice (Vwf-/-). In the rat model, BjV was pre-incubated with saline (positive control), metalloproteinase inhibitor (Na2-EDTA), polyclonal anti-botrocetin antibodies, glycerol (antibody vehicle), or the combination of Na2-EDTA and anti-botrocetin antibodies; the negative control group was injected with saline only. After subcutaneous injection (s.c.) of treated venom (1.6 mg/kg), blood samples were collected after 3, 6 or 24 h, and platelet count, vWF antigen (vWF:Ag) and collagenbinding activity (vWF:CB), ADAMTS13 activity, vWF multimer distribution, and factor VIII (FVIII) coagulant activity were analyzed. To investigate the participation of vWF in thrombocytopenia, vWF knockout mice (Vwf-/-) and control mice (C57BL/6) were injected s.c. with saline only (negative control group) or BjV pre-incubated with saline (positive control group). The same protocols used for rats were accomplished in mice. Our results showed that all rats injected with any BjV treatment, including animals which received anti-botrocetin antibodies and/or Na2-EDTA-treated BjV, showed thrombocytopenia, with the nadir at 6h. vWF analysis exhibited a large individual variation among treatment groups, but there was a tendency to reduce vWF:Ag levels at 3 and 6 h in rats that received BjV pre-incubated with saline (without any inhibitor). Administration of BjV pre-incubated only with anti-botrocetin antibodies evoked a large reduction in vWF:Ag levels at 3 h, which returned to levels similar to those of the negative control group at 6 and 24 h. SVMP inhibition alone did not induce an important effect, but potentialized the activity of anti-botrocetin antibodies to inhibit the fall in both vWF:Ag and vWF:CB levels at 6 h. VWF multimer analysis had a large individual profile variation, although animals that received any BjV treatment tended to decrease the high and intermediate molecular weight multimers and to increase the low ones, especially at 24 h. FVIII showed diminished levels in all rats that received any BjV treatment at 3 and 6 h, without important variations among groups. Decreased levels of ADAMTS13 activity were noticed at 3 and 6 h, which were reverted by SVMP inhibition. In mice, thrombocytopenia was present in all control and knockout mice that received BjV, demonstrating independence of vWF presence. In control mice (C57BL/6), there were no relevant alterations in vWF:Ag during envenomation, although at 3 h there was a tendency to decrease it. Al together, our results showed that botrocetin present in crude venom does not affect thrombocytopenia induced by envenomation, but it changes the levels and function of plasma vWF. SVMP had a marked effect in ADAMTS13, the physiological enzyme that regulates vWF biological activity, which may affect vWF levels indirectly. In addition, thrombocytopenia during B. jararaca envenomation is independent of vWF, and considering the multifactorial features of platelet consumption during envenomation, we suggest that other mechanisms might account for BjV-induced thrombocytopenia. Therefore, we conclude that vWF consumption during B. jararaca envenomation is an ancillary mechanism, but not the main one to decrease platelet counts

Bothrops

Bothrops

Botrocetin

Botrocetina

Coagulação intravascular disseminada

Disseminated intravascular coagulation

Factor VIII

Fator de von Willebrand

Fator VIII

Hemorragia

Hemorrhage

Metalloproteases

Metaloproteases

Mordeduras de serpentes

Proteína ADAMTS13

Snake bites

Thrombocytopenia

Trombocitopenia

Von Willebrand factor, ADAMTS13 protein

Envolvimento do fator de von Willebrand na plaquetopenia do envenenamento experimental pela serpente Bothrops jararaca: participação  da botrocetina  e metaloproteinases do veneno / Involvement of von Willebrand factor in the plaquetopenia of experimental poisoning by the Bothrops jararaca snake: participation of botrocetin and venom metalloproteinases

Camila Martos Thomazini

02 May 2018

Pacientes envenenados pela serpente Bothrops jararaca manifestam uma tendência hemorrágica em que a plaquetopenia é um achado consistente. Manifestações clínicas sistêmicas, como sangramento de mucosas e microangiopatia trombótica em alguns pacientes, apresentam similaridades com sinais clínicos de doença de von Willebrand e púrpura trombocitopênica trombótica. Algumas proteínas do veneno - como a botrocetina (uma proteína relacionada às lectinas do tipo C) e as metaloproteinases do veneno (SVMP) - interferem direta ou indiretamente na interação entre plaquetas e o fator de von Willebrand (vWF) in vitro e in vivo. E dessa forma, podem contribuir para os sangramentos induzidos pelo envenenamento devido à importância que o vWF tem para a hemostasia primária. Pensando em compreender a participação do vWF do organismo e a botrocetina e as SVMP do veneno bruto de B. jararaca (BjV) na plaquetopenia induzida pelo envenenamento, utilizamos dois modelos experimentais: ratos Wistar heterogênicos e camundongos nocautes do gene Vwf (Vwf-/-). No modelo em ratos, o BjV foi pré-incubado com salina (controle positivo), um inibidor de metaloproteinases (Na2-EDTA), anticorpos policlonais anti-botrocetina, glicerol (veículo dos anticorpos), ou a combinação do Na2-EDTA e anticorpos anti-botrocetina; o grupo controle negativo foi injetado somente com salina. Após a administração subcutânea (s.c.) dos venenos tratados (1,6 mg/kg), amostras de sangue foram coletadas após 3, 6 ou 24 h, e analisaram-se a contagem de plaquetas, quantificação antigênica (vWF:Ag) e da atividade de ligação do vWF ao colágeno (vWF:CB), a atividade de ADAMTS13, a distribuição multimérica de vWF, e a atividade coagulante de fator VIII (FVIII). Para explorar a participação do vWF na plaquetopenia, camundongos nocautes de vWF (Vwf-/-) e camundongos controles (C57BL/6) foram injetados s.c. com BjV incubado com salina (grupo positivo do envenenamento) ou apenas salina (grupo controle negativo). As injeções dos tratamentos, bem como os períodos analisados foram idênticos aos dos ratos. Em nossos resultados, todos os ratos injetados com algum tratamento de BjV, inclusive nos animais que receberam veneno pré-tratado com anticorpo anti-botrocetina e/ou Na2-EDTA, apresentaram plaquetopenia, com maior intensidade em 6 h. Na avaliação do vWF foi encontrada uma grande variação individual nos grupos de tratamentos, porém ainda assim houve uma tendência a redução nos níveis de vWF:Ag em 3 e 6 h nos ratos que receberam BjV sem inibidores. A administração de BjV tratado somente com anticorpo anti-botrocetina promoveu uma maior redução nos níveis de vWF:Ag em 3 h, com retorno aos níveis semelhantes aos de controle negativo em 6 h e 24 h. A inibição sozinha das metaloproteinases não promoveu efeito importante, porém em 6 h, potencializou a ação do anticorpo anti-botrocetina na inibição conjunta do decréscimo de vWF:Ag e vWF:CB. A análise dos multímeros do vWF mostrou perfis bastante variáveis individualmente, porém os multímeros de alto peso molecular e intermediário tenderam a diminuir e os de baixo peso a aumentar nos animais que receberam algum tratamento com BjV, especialmente em 24 h. Na dosagem de FVIII, houve redução em 3 e 6 h em todos os ratos que receberam qualquer tratamento de BjV, sem grandes variações entre esses grupos. A atividade de ADAMTS13 apresentou uma redução dos valores em 3 e 6 h, que foi revertida pela inibição das metaloproteinases do veneno. Já nos camundongos, a plaquetopenia esteve presente em todos os animais nocautes e controles que receberam BjV, mostrando ser independente da presença de vWF. Nos camundongos controles (C57BL/6), não houve alterações evidentes em vWF:Ag durante o envenenamento, porém em 3 h houve uma tendência a sua diminuição. Em conjunto, nossos resultados mostram que a presença da botrocetina no veneno bruto não afeta a plaquetopenia desencadeada pelo envenenamento, porém influencia o vWF plasmático quantitativa e funcionalmente. As metaloproteinases do veneno têm forte efeito sobre a enzima fisiológica reguladora da atividade biológica do vWF, a ADAMTS13, que indiretamente pode afetar os níveis de vWF. Ademais, a intensidade da plaquetopenia durante o envenenamento de B. jararaca não depende da presença de vWF, e tendo em conta o caráter multifatorial do consumo plaquetário durante o envenenamento, sugerimos que outros mecanismos possam ser responsáveis pela plaquetopenia induzida pelo BjV. Com isso, concluímos que o consumo de vWF no envenenamento por B. jararaca é um fator contribuinte, porém não determinante, para as alterações da contagem plaquetária / Patients bitten by Bothrops snakes manifest a bleeding tendency in which thrombocytopenia is consistently observed. Systemic clinical manifestations, such as mucous bleeding and thrombotic microangiopathy in some patients, share similarities with symptoms of von Willebrand disease and thrombotic thrombocytopenic purpura. Some venom proteins - e.g. botrocetin (a C-type lectin-related protein) and snake venom metalloproteinases (SVMP) - disturbs, direct or indirectly, the interaction between platelets and von Willebrand factor (vWF) in vitro and in vivo, and may contribute thereby to snakebite-induced bleedings, once vWF is required for primary hemostasis. To better understand the relation between plasma vWF, and botrocetin and SVMPs from B. jararaca crude venom (BjV) in the thrombocytopenia induced by envenomation, we used two experimental models: Wistar heterogenic rats and vWF knockout mice (Vwf-/-). In the rat model, BjV was pre-incubated with saline (positive control), metalloproteinase inhibitor (Na2-EDTA), polyclonal anti-botrocetin antibodies, glycerol (antibody vehicle), or the combination of Na2-EDTA and anti-botrocetin antibodies; the negative control group was injected with saline only. After subcutaneous injection (s.c.) of treated venom (1.6 mg/kg), blood samples were collected after 3, 6 or 24 h, and platelet count, vWF antigen (vWF:Ag) and collagenbinding activity (vWF:CB), ADAMTS13 activity, vWF multimer distribution, and factor VIII (FVIII) coagulant activity were analyzed. To investigate the participation of vWF in thrombocytopenia, vWF knockout mice (Vwf-/-) and control mice (C57BL/6) were injected s.c. with saline only (negative control group) or BjV pre-incubated with saline (positive control group). The same protocols used for rats were accomplished in mice. Our results showed that all rats injected with any BjV treatment, including animals which received anti-botrocetin antibodies and/or Na2-EDTA-treated BjV, showed thrombocytopenia, with the nadir at 6h. vWF analysis exhibited a large individual variation among treatment groups, but there was a tendency to reduce vWF:Ag levels at 3 and 6 h in rats that received BjV pre-incubated with saline (without any inhibitor). Administration of BjV pre-incubated only with anti-botrocetin antibodies evoked a large reduction in vWF:Ag levels at 3 h, which returned to levels similar to those of the negative control group at 6 and 24 h. SVMP inhibition alone did not induce an important effect, but potentialized the activity of anti-botrocetin antibodies to inhibit the fall in both vWF:Ag and vWF:CB levels at 6 h. VWF multimer analysis had a large individual profile variation, although animals that received any BjV treatment tended to decrease the high and intermediate molecular weight multimers and to increase the low ones, especially at 24 h. FVIII showed diminished levels in all rats that received any BjV treatment at 3 and 6 h, without important variations among groups. Decreased levels of ADAMTS13 activity were noticed at 3 and 6 h, which were reverted by SVMP inhibition. In mice, thrombocytopenia was present in all control and knockout mice that received BjV, demonstrating independence of vWF presence. In control mice (C57BL/6), there were no relevant alterations in vWF:Ag during envenomation, although at 3 h there was a tendency to decrease it. Al together, our results showed that botrocetin present in crude venom does not affect thrombocytopenia induced by envenomation, but it changes the levels and function of plasma vWF. SVMP had a marked effect in ADAMTS13, the physiological enzyme that regulates vWF biological activity, which may affect vWF levels indirectly. In addition, thrombocytopenia during B. jararaca envenomation is independent of vWF, and considering the multifactorial features of platelet consumption during envenomation, we suggest that other mechanisms might account for BjV-induced thrombocytopenia. Therefore, we conclude that vWF consumption during B. jararaca envenomation is an ancillary mechanism, but not the main one to decrease platelet counts

Bothrops

Botrocetina

Coagulação intravascular disseminada

Fator de von Willebrand

Fator VIII

Hemorragia

Metaloproteases

Mordeduras de serpentes

Proteína ADAMTS13

Trombocitopenia

Bothrops

Botrocetin

Disseminated intravascular coagulation

Factor VIII

Hemorrhage

Metalloproteases

Snake bites

Thrombocytopenia

Von Willebrand factor, ADAMTS13 protein