Corral de la Calle, Javier

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Corral de la Calle, Javier

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Corral de la Calle, Javier

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Universidad de Murcia. Departamento de Medicina

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Role of the C-sheet in the maturation of N-glycans on antithrombin: functional relevance of pleiotropic mutations
(2014-04-15) Águila Martínez, Sonia; Navarro Fernández, José Luis; Bohdan, N.; Gutiérrez Gallego, R.; Morena Barrio, María Eugenia de la; Vicente García, Vicente; Corral de la Calle, Javier; Martínez-Martínez, I.; Medicina Interna; Facultad de Medicina
Open Access
Neutrophil extracellular traps and von Willebrand factor are allies that negatively influence COVID-19 outcomes
(Wiley, 2021-01) Águila Martínez, Sonia; Fernández-Pérez, M. P.; Reguilón-Gallego, L.; de Los Reyes-García, A. M.; Miñano, A.; Bravo-Pérez, C.; García-Barberá, N.; Gómez-Verdú, J. M.; Martínez, C.; Morena Barrio, María Eugenia de la; Corral de la Calle, Javier; Bernal Morell, Enrique; Herranz Marín, María Teresa; Vicente García, Vicente; González-Conejero Hilla, Rocío; Lozano Almela, María Luisa; Medicina Interna
Open Access
N-Glycosylation as a Tool to Study Antithrombin Secretion, Conformation, and Function.
(MDPI, 2021-06-06) Águila Martínez, Sonia; Noto, Rosina; Luengo-Gil, Ginés; Espín, Salvador; Bohdan, Nataliya; Morena Barrio, María Eugenia de la; Peñas, Julia; Rodenas, Maria Carmen; Vicente García, Vicente; Corral de la Calle, Javier; Manno, Mauro; Martínez-Martínez, Irene; Medicina Interna
N-linked glycosylation is a crucial post-translational modification involved in protein folding, function, and clearance. N-linked glycosylation is also used therapeutically to enhance the half-lives of many proteins. Antithrombin, a serpin with four potential N-glycosylation sites, plays a pivotal role in hemostasis, wherein its deficiency significantly increases thrombotic risk. In this study, we used the introduction of N-glycosylation sites as a tool to explore what effect this glycosylation has on the protein folding, secretion, and function of this key anticoagulant. To accomplish this task, we introduced an additional N-glycosylation sequence in each strand. Interestingly, all regions that likely fold rapidly or were surrounded by lysines were not glycosylated even though an Nglycosylation sequon was present. The new sequon in the strands of the A- and B-sheets reduced secretion, and the B-sheet was more sensitive to these changes. However, the mutations in the strands of the C-sheet allowed correct folding and secretion, which resulted in functional variants. Therefore, our study revealed crucial regions for antithrombin secretion and could potentially apply to all serpins. These results could also help us understand the functional effects of natural variants causing type-I deficiencies.
Open Access
Novel loci involved on platelet function and platelet count identified by a genome-wide study performed in children
(Ferrata Storti Foundation, 2011-09) Guerrero López, José Antonio; Rivera Pozo, José; Quiroga, Teresa; Martínez Pérez, Ángel; Antón, Ana Isabel; Martínez, Constantino; Panes, Olga; Vicente García, Vicente; Mezzano, Diego; Soria, José Manuel; Corral de la Calle, Javier; Medicina Interna
Background Genome-wide association studies are currently identifying new loci with potential roles in thrombosis and hemostasis: these loci include novel polymorphisms associated with platelet function traits and count. However, no genome-wide study performed on children has been reported to date, in spite of the potential that these subjects have in genetic studies, when compared to adults, given the minimal degree of confounders, i.e., acquired and environmental factors, such as smoking, physical activity, diet, and drug or hormone intake, which are particularly important in platelet function.Design and Methods To identify new genetic variants involved in platelet reactivity and count, we performed a genome-wide association study on 75 children (8.5±1.8 years) using the Illumina Sentrix Human CNV370-Quad BeadChip containing 320,610 single nucleotide polymorphisms. Functional analyses included assessment of platelet aggregation and granule secretion triggered by different agonists (arachidonic acid, collagen, epinephrine, ADP), as well as platelet count. Associations were selected based on statistical significance and physiological relevance for a subsequent replication study in a similar sample of 286 children.Results We confirmed previously established associations with plasma levels of factors XII, VII and VIII as well as associations with platelet responses to ADP. Additionally, we identified 82 associations with platelet reactivity and count with a P value less than 10−5. From the associations selected for further replication, we validated two single nucleotide polymorphisms with mildly increased platelet reactivity (rs4366150 and rs1787566) on the LPAR1 and MYO5B genes, encoding lisophosphatidic acid receptor-1 and myosin VB, respectively; and rs1937970, located on the NRG3 gene coding neuroregulin-3, associated with platelet count.Conclusions Our genome-wide association study performed in children, followed by a validation analysis, led us to the identification of new genes potentially relevant in platelet function and biogenesis.
Open Access
Amelioration of the severity of heparin-binding antithrombin mutations by posttranslational mosaicism
(American Society of Hematology, 2012-04-12) Martínez-Martínez, Irene; Navarro-Fernández, José; Ostergaad, Alice; Gutierrez-Gallego, Ricardo; Padilla, José; Miñano, Antonia; Pascual, Cristina; Martínez, Constantino; Morena-Barrio, María Eugenia de la; Pedersen, Shona; Kristensen, Soren Risom; Corral, Javier; Bohdan, Nataliya; Morena Barrio, María Eugenia de la; Águila Martínez, Sonia; Vicente García, Vicente; Corral de la Calle, Javier; Medicina
The balance between actions of procoagulant and anticoagulant factors protects organisms from bleeding and thrombosis. Thus, antithrombin deficiency increases the risk of thrombosis, and complete quantitative deficiency results in intrauterine lethality. However, patients homozygous for L99F or R47C antithrombin mutations are viable. These mutations do not modify the folding or secretion of the protein, but abolish the glycosaminoglycan-induced activation of antithrombin by affecting the heparin-binding domain. We speculated that the natural β-glycoform of antithrombin might compensate for the effect of heparin-binding mutations. We purified α- and β-antithrombin glycoforms from plasma of 2 homozygous L99F patients. Heparin affinity chromatography and intrinsic fluorescence kinetic analyses demonstrated that the reduced heparin affinity of the α-L99F glycoform (K(D), 107.9 ± 3nM) was restored in the β-L99F glycoform (K(D), 53.9 ± 5nM) to values close to the activity of α-wild type (K(D), 43.9 ± 0.4nM). Accordingly, the β-L99F glycoform was fully activated by heparin. Similar results were observed for recombinant R47C and P41L, other heparin-binding antithrombin mutants. In conclusion, we identified a new type of mosaicism associated with mutations causing heparin-binding defects in antithrombin. The presence of a fully functional β-glycoform together with the activity retained by these variants helps to explain the viability of homozygous and the milder thrombotic risk of heterozygous patients with these specific antithrombin
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Genetic variants of the extra-large stimulatory Gs protein alpha-subunit and risk of thrombotic and haemorrhagic disorders
(Wiley, 2004-04-27) González-Conejero Hilla, Rocío; Corral de la Calle, Javier; Guerrero López, José Antonio; Iniesta Valera, Juan Antonio; Rivera Pozo, José; Arriba de la Fuente, Felipe de; Vicente García, Vicente; Medicina Interna
A polymorphism of the gene encoding the extra-large stimulatory G-protein a-subunit (XLas), originally identified in three patients with a bleeding tendency, involved a 36-bp insertion and two missense changes. A paternallyinherited insertion displayed a moderate platelet Gsa over-expression, which lead to platelet hypo-reactivity. These data prompted us to investigate the genetic, functional and clinical relevance of this polymorphism in the Mediterranean population. We included 414 healthy subjects and three case/ control studies: 263 consecutive patients with a first episode of primary intracerebral haemorrhage, 195 patients with deep venous thrombosis, and 104 patients with cerebrovascular disease. Controls were selected by approximating criteria to match selected risk factors to patients. Moreover, we performed studies of platelet function. We developed a simple method to determine the methylated allele, by digestion of genomic DNA with Sma I before polymerase chain reaction amplification. We identified two new rare variants, resulting from the loss of repeat units 7 and 5. The AB genotype was present in 3Æ6% of healthy population and the prevalence of the B allele was similar among cases and controls. Accordingly, the non-methylated B allele did not modify either the expression of platelet Gsa or the platelet response to Gs-agonists. Thus, our study suggests a minor functional role of XLas polymorphism in thrombotic or in haemorrhagic disorders.
Open Access
Disease-causing mutations in the serpin antithrombin reveal a keydomaincritical for inhibiting protease activities
(Elsevier, American Society for Biochemistry and Molecular Biology , 2017-10-06) Águila Martínez, Sonia; Izaguirre, G.; Vicente García, Vicente; Martínez-Martínez, I.; Olson, S. T.; Corral de la Calle, Javier; Medicina Interna
Antithrombin mainly inhibits factor Xa and thrombin. The reactive center loop (RCL) is crucial for its interactions with its protease targets and is fully inserted into the A-sheet after its cleavage, causing translocation of the covalently linked protease to the opposite end of the A-sheet. Antithrombin variants with altered RCL hinge residues behave as substrates rather than inhibitors, resulting in stoichiometries of inhibition greater than one. Other antithrombin residues have been suggested to interfere with RCL insertion or the stability of the antithrombin–protease complex, but available crystal structures or mutagenesis studies have failed to identify such residues. Here, we characterized two mutations, S365L and I207T, present in individuals with type II antithrombin deficiency and identified a new antithrombin functional domain. S365L did not form stable complexes with thrombin or factor Xa, and the I207T/I207A variants inhibited both proteases with elevated stoichiometries of inhibition. Close proximity of Ile-207 and Ser-365 to the inserted RCL suggested that the preferred reaction of these mutants as protease substrates reflects an effect on the rate of the RCL insertion and protease translocation. However, both residues lie within the final docking site for the protease in the antithrombin–protease complex, supporting the idea that the enhanced substrate reactions may result from an increased dissociation of the final complexes. Our findings demonstrate that the distal end of the antithrombin A-sheet is crucial for the last steps of protease inhibition either by affecting the rate of RCL insertion or through critical interactions with proteases at the end of the A-sheet.
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Biological assessment of aspirin efficacy on healthy individuals: heterogeneous response or aspirin failure?
(2004-12-16) González-Conejero Hilla, Rocío; Rivera Pozo, José; Corral de la Calle, Javier; Acuña, Carmen; Vicente, Vincente; Guerrero López, José Antonio; Medicina Interna; Facultad de Medicina
Background and Purpose— The widespread use of aspirin requires clarification of the aspirin resistance phenomenon. Most studies on this field are focused on patients which may affect the action of aspirin. Methods— We evaluated the biological efficacy of aspirin in healthy subjects. Results— Agonist–induced platelet aggregation was fully abrogated by 100 mg of aspirin in all individuals. By contrast, with the platelet function analyzer-100 device, 33.3% of the subjects displayed no response. This failure was overcome by 500 mg or by in vitro treatment of blood with 30 μmol/L acetylsalicylic acid. Intake of 100 mg of aspirin efficiently reduced by 75% the level of 11-dehydro thromboxane B2 (11-dTxB2) in all cases. However, variability on the pre-aspirin level (range 72.4 to 625.9 ng/mmol creatinine) led to substantial differences in the residual amount of the metabolite between subjects treated with aspirin (range 12.9 to 118.0 ng/mmol creatinine). Finally, there was no influence of platelet glycoprotein IIb/IIIa (Pro33Leu), platelet glycoprotein Ia/IIa, (C807T), and FXIII (Val34Leu) polymorphisms on the efficacy of aspirin. However, the cyclooxygenase (Cox)-1 50T allele associated with higher level of 11-dTxB2, both before and after aspirin. Moreover, the Cox-2 −765C variant displayed a slightly higher reduction in 11-dTxB2 level on treatment with aspirin. Conclusions— Our findings suggest that full resistance of healthy subjects to aspirin is rather unlikely. However, differences in aspirin absorption, or pharmacokinetic, or other unrecognized factors may lead to lack of effect of low dose of aspirin in some subjects when using tests like platelet function analyzer-100. Whether Cox polymorphisms are thrombotic risk factor for patients under aspirin will require further research.
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Evaluation of refrigerated platelet concentrates supplemented with low doses of second messenger effectors
(Wiley, 2004-07-27) Pérez Ceballos, Elena; Rivera Pozo, José; Lozano Almela, María Luisa; Candela, M.J.; Corral de la Calle, Javier; Guerrero López, José Antonio; Vicente García, Vicente; Medicina Interna
With the goal of producing haemostatically effective platelet concentrates (PCs) with a longer shelf-life, we aimed to identify a simple combination of platelet inhibitors, with a low pharmacological load, which could avoid the unacceptable loss of platelets stored under refrigerated conditions. PCs stored with different combinations of second messenger effectors were analysed at days 5, 10 and 15 of storage and compared with those supplemented with ThromboSol – a combination of six platelet inhibitors that protects cells from cold damage. The following parameters were analysed: platelet counts, biochemical parameters (glucose, pH, bicarbonate, lactate), cell lysis (lactic dehydrogenase, LDH), membrane glycoproteins (GPs), platelet aggregation, fibrinogen binding and hypotonic shock response. We characterized the combination of amiloride and sodium nitroprusside (at 1/2 the dose included in ThromboSol). This was found to be similar to ThromboSol and superior to nontreated units in the prevention of cold-induced platelet aggregation at day 15 of storage (maintenance of 78% and 80% of initial platelet counts, respectively), preservation of GPIba (11% and 12% better maintenance of mean fluorescence intensity compared with control units, respectively), and reduced cell lysis (13% and 11% decrease in supernatant LDH, respectively). The reduced pharmacological load with the identified solution compared with ThromboSol is an argument in favour of the potential use of these agents when designing strategies to improve PC storage.
Open Access
Compound heterozygosity involving Antithrombin Cambridge II (p.Ala416Ser) in antithrombin deficiency.
(Elsevier, 2013-03-10) Águila Martínez, Sonia; Martínez-Martínez, Irene; Collado, Miriam; Llamas, Pilar; Antón, Ana I.; Martínez-Redondo, Consuelo; Padilla, José; Miñano, Antonia; Morena Barrio, María Eugenia de la; García-Avello, Ángel; Vicente García, Vicente; Corral de la Calle, Javier; Medicina Interna
Background: The characterization of natural mutants identified in patients with antithrombin deficiency has helped to identify functional domains or regions of this key anticoagulant and the mechanisms involved in the deficiency, as well as to define the clinical prognosis. Recently, we described an abnormal glycosylation in a pleiotropic mutant (K241E) that explained the impaired heparin affinity and the mild risk of thrombosis in carriers. Objectives: To evaluate the effects of different natural pleiotropic mutations on the glycosylation of antithrombin and their functional effects. Methods: Five pleiotropic mutations identified in patients with antithrombin deficiency and located at each one of the strands of the C-sheet were selected (K241E, M251I, M315K, F402L, and P429L). Recombinant mutants were generated and purified. Glycoform heterogeneity and conformational sensitivity were studied with electrophoresis, proteomic analysis, and glycomic analysis. Heparin affinity was evaluated from intrinsic fluorescence. Reactivity assays with factor Xa, thrombin and neutrophil elastase in the presence or absence of heparin were also performed. Results and Conclusions: Pleiotropic mutants, except for that with the M315K mutation, which affects a non-exposed residue, showed two glycoforms. Variant 1, with abnormal glycosylation, had reduced heparin affinity and severely affected reactivity with the target proteases. In contrast, variant 2, with similar electrophoretic mobility and heparin affinity to wild-type antithrombin, had impaired inhibitory activity that was partially compensated for by activation with heparin. Our results suggest the C-sheet of antithrombin as a new region that is relevant for proper maturation of the N-glycans. Therefore, pleiotropic mutations lead to glycosylation defects that are responsible for the reduced heparin affinity