The metalloprotease ADAMTS13 cleaves von Willebrand factor (VWF) within endovascular platelet aggregates, and ADAMTS13 deficiency causes fatal microvascular thrombosis. The proximal metalloprotease (M), disintegrin-like (D), thrombospondin-1 (T), Cys-rich (C), and spacer (S) domains of ADAMTS13 recognize a cryptic site in VWF that is exposed by tensile force. Another seven T and two complement C1r/C1s, sea urchin epidermal growth factor, and bone morphogenetic protein (CUB) domains of uncertain function are C-terminal to the MDTCS domains. We find that the distal T8-CUB2 domains markedly inhibit substrate cleavage, and binding of VWF or monoclonal antibodies to distal ADAMTS13 domains relieves this autoinhibition. Small angle X-ray scattering data indicate that distal T-CUB domains interact with proximal MDTCS domains. Thus, ADAMTS13 is regulated by substrate-induced allosteric activation, which may optimize VWF cleavage under fluid shear stress in vivo. Distal domains of other ADAMTS proteases may have similar allosteric properties. 1A) (1-5), a metalloprotease that severs VWF and releases adherent platelets. Deficiency of ADAMTS13 disrupts this feedback regulatory mechanism and causes thrombotic thrombocytopenic purpura (TTP), which is characterized by life-threatening microvascular thrombosis (3, 6, 7).The recognition and cleavage of VWF is a formidable challenge. VWF and ADAMTS13 occur at ∼10 μg/mL and ∼1 μg/mL, respectively, compared with total plasma protein of ∼80,000 μg/mL. ADAMTS13 is constitutively active and has no known inhibitors in vivo. Nevertheless, VWF is the only identified ADAMTS13 substrate, and VWF is resistant to cleavage until subjected to fluid shear stress (8), adsorbed on a surface (9), or treated with denaturants (8, 10). This specificity depends on structural features of both ADAMTS13 and VWF that have not been characterized fully.The proximal metalloprotease (M), disintegrin-like (D), thrombospondin-1 (T), Cys-rich (C), and spacer (S) domains domains of ADAMTS13 bind to cryptic sites that are uncovered by unfolding VWF domain A2 (11-15) (Fig. 1B), and these interactions are required for efficient cleavage of VWF or peptide substrates. More distal ADAMTS13 domains bind to sites in or near VWF domain D4 that are always available (16-18). Deletion of distal ADAMTS13 domains impairs the cleavage of VWF multimers in vitro (16,19) and increases VWF-dependent microvascular thrombosis in vivo (20) but accelerates the cleavage of peptide substrates (12, 13). In addition, ADAMTS13 cleaves guanidine hydrochloride-treated VWF multimers with an apparent K m of ∼15 nM (21), which is 100-fold lower than the K m of ∼1.6-1.7 μM for peptide substrates that are based on the sequence of VWF domain A2 (12,14). These striking differences suggest that distal T or complement c1r/c1s, sea urchin epidermal growth factor, and bone morphogenetic protein (CUB) domains regulate ADAMTS13 activity. We have now shown that these distal domains inhibit ADAMTS13, and binding to VWF relieves this autoinhibition. Result...
Background Recently, conformational activation of ADAMTS13 was identified. This mechanism showed the evolution from a condensed and inhibited conformation, in which the proximal MDTCS and distal T2-CUB2 domains are in close contact with each other, to an activated structure due to ding with the von Willebrand factor (VWF). Objectives Identification of cryptic epitope/exosite exposure after conformational activation and of sites of flexibility in ADAMTS13. Methods The activating effect of 25 anti-T2-CUB2 antibodies was studied in the FRETS-VWF73 and the vortex assay. Cryptic epitope/exosite exposure was determined in ELISA and VWF binding assay. The molecular basis for flexibility was hypothesized through RADAR analysis, tested in ELISA using deletion variants and visualized using electron microscopy. Results Eleven activating anti-ADAMTS13 antibodies, directed against the T5-CUB2 domains, were identified in the FRETS-VWF73 assay. RADAR analysis identified three linker regions in the distal domains. Interestingly, identification of an antibody recognizing a cryptic epitope in the metalloprotease domain confirmed the contribution of these linker regions to conformational activation of the enzyme. The proof of flexibility around both the T2 and metalloprotease domains by electron microscopy furthermore supported this contribution. In addition, cryptic epitope exposure was identified in the distal domains, as activating anti-T2-CUB2 antibodies increased the binding to folded VWF up to ~3-fold. Conclusion Conformational activation of ADAMTS13 leads to cryptic epitope/exosite exposure in both proximal and distal domains, subsequently inducing increased activity. Furthermore, three linker regions in the distal domains are responsible for flexibility and enable the interaction between the proximal and the T8-CUB2 domains.
Information and Communication Technologies (ICTs) Attract Youth into Profitable Agriculture in Kenya
Youth cherish technology, efficiency and innovations and accommodate entrepreneurial risks. The objectives of this study were to show the beneficial use of Information and Communication Technologies (ICTs) in agriculture among the youth in Kenya, assessed ICT application and commonly used tools, experienced challenges, impacts and suggested future ICT use. Beneficial ICT applications were exemplified by 'Mkulima Young Champions' who led digital initiatives, drew youth into farming, helped them learn among themselves, and traded and overcame agricultural challenges. Using radio, short message services (SMS) and social media, they discussed agricultural topics and shared successes. Mkulima Young's Facebook was vibrant. The youth posted photographs and videos, asked questions, discussed issues and interacted. Most of the youth obtained information from the internet, hence the internet was the best platform to market and promote agriculture to the youth. They used internet and social media to obtain production technologies, market information and for information sharing. Most commonly used tools were MS Office and spreadsheets for record keeping. Voice messages and SMS assisted timely accessing of market prices, reaching clients, sharing production information and money transactions. The ICT content should be relevant to targeted youth, valuable, localized and dependable. The ICT-savvy youth operated intensive, efficient and profitable farms, producing diverse and branded products for niche markets. The youth transformed the community use and access to ICTs and influenced community economic status. Smart phone technology will revolutionize access to and use of ICTs. YouTube, Twitter and WhatsApp should be expanded and widely popularized among the youth.
An optimized fluorogenic ADAMTS13 assay with increased sensitivity for the investigation of patients with thrombotic thrombocytopenic purpura
Summary Background Most ADAMTS13 assays use non-physiological conditions (low ionic strength, low pH, barium chloride), are subject to interference from plasma proteins, hemoglobin and bilirubin, and have limited sensitivity, especially for inhibitors. Objectives We addressed these constraints by designing a substrate that can be used in undiluted plasma. Methods A polypeptide was expressed in E. coli that corresponds to von Willebrand factor Gln1599-Arg1668, with mutations N1610C and K1617R and an N-terminal Gly. Substrate FRETS-rVWF71 was prepared by modifying Cys1610 with DyLight 633 (abs 638 nm, em 658 nm) and the N-terminus with IRDye QC-1 (abs 500-800 nm). Assays were performed at pH 7.4 in 150 mM NaCl, 10 mM CaCl2. Results Serum and plasma anticoagulated with citrate or heparin had equivalent ADAMTS13 activity with FRETS-rVWF71. Neither bilirubin (≤20 mg/dL) nor hemoglobin (≤20 g/L) interfered with product detection. Assays with FRETS-rVWF71 and FRETS-VWF73 gave similar results (R2 = 0.95) for plasma from 80 subjects with thrombotic microangiopathy, 22 subjects with other causes of thrombocytopenia, and 20 healthy controls. The limit of detection with FRETS-rVWF71 for ADAMTS13 activity was ≤0.3%. Inhibitor assays with FRETS-rVWF71 gave titers ~2.5-fold higher than with FRETS-VWF73 and clearly distinguished patients with and without inhibitors. Conclusions FRETS-rVWF71 is suitable for ADAMTS13 assays in minimally diluted plasma or serum without interference from proteins, bilirubin or free hemoglobin in plasma. Optimized detection of ADAMTS13 inhibitors will facilitate the monitoring of antibody responses during the treatment of thrombotic thrombocytopenic purpura.
The metalloprotease ADAMTS13 (a disintegrin and metalloprotease with thrombospondin type 1 repeats member 13) prevents microvascular thrombosis by cleaving von Willebrand factor (VWF) within platelet-rich thrombi, and cleavage depends on allosteric activation of ADAMTS13 by the substrate VWF. Human ADAMTS13 has a short propeptide, metalloprotease (M), disintegrin-like (D), thrombospondin-1 (T), Cys-rich (C), and spacer (S) domains (proximal domains), followed by 7 T and 2 CUB (complement components C1r and C1s, sea urchin protein Uegf, and bone morphogenetic protein-1) domains (distal domains). Distal domains inhibit the catalytic proximal domains; binding of distal T8-CUB domains to the VWF D4 domain relieves autoinhibition and promotes cleavage of the nearby VWF A2 domain. However, the role of specific ADAMTS13 distal domains in this allosteric mechanism is not established. Assays of plasma ADAMTS13 from 20 placental mammals, birds, and amphibians show that allosteric regulation is broadly conserved, and phylogenetic analysis of 264 vertebrates shows the long propeptide, T3, T4, T6, and T6a domains have been deleted several times in placental mammals, birds, and fish. Notably, pigeon ADAMTS13 has only 3 distal T domains but was activated normally by human VWF D4 and cleaved VWF multimers, preferentially under fluid shear stress. Human ADAMTS13 constructed to resemble pigeon ADAMTS13 retained normal allosteric regulation and shear-dependent cleavage of VWF. Thus, the T3-T6 domains of human ADAMTS13 are dispensable. Conversely, deletion of T7 or T8 abolished allosteric activation. For most species, some sequence changes in the VWF substrate can markedly increase the rate of cleavage, suggesting that ADAMTS13 and VWF have not evolved to be optimal enzyme-substrate pairs. These properties may reflect evolutionary pressure to balance the risk for VWF-dependent bleeding and thrombosis.
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