Examinando por Autor "Marco Moreno, Pablo"

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    Ítem
    A founder variant in the RYR1 gene is associated with hyperCKemia, myalgia and muscle cramps
    (John Wiley and Sons Inc, 2025-01) Segarra Casas, Alba; Iruzubieta Agudo, Pablo; Kapetanovic García, Solange; Hernández Laín, A.; Jericó Pascual, Ivonne; Fernández Torrón, Roberto; Maneiro, Miren; Marco Moreno, Pablo; Zelaya Huerta, María Victoria; Rodríguez Santiago, Benjamín; Calafell Majó, Francesc; Töpf, Ana; Straub, Volker; Vallejo Illarramendi, Ainara; López de Munain Arregui, Adolfo; Gallano Petit, María Pía; González Quereda, Lidia
    Background and purpose: Pathogenic variants in the RYR1 gene have been associated with a variety of conditions, ranging from congenital myopathy to adult manifestations. Our aim was to characterize the p.Leu2286Val variant in 17 Basque patients, to accurately determine its correlation with clinical features and to explore the possible founder effect of the variant. Methods: Families harbouring the p.Leu2286 RYR1 variant underwent a detailed clinical evaluation, including muscle magnetic resonance imaging, electromyography and muscle biopsy. Haplotypes were analysed in available patients and their relatives. Results: Individuals carrying the p.Leu2286Val shared a common haplotype, suggesting a founder event in the Basque Country population. The most prevalent features were exertional myalgia, high creatine kinase (CK) levels, cramps and muscle hypertrophy. None of the patients carrying only the p.Leu2286Val showed progression to severe muscle weakness and muscle magnetic resonance imaging showed a heterogeneous muscle involvement. Muscle biopsy revealed non-specific findings in two patients and features associated with central core disease in one patient carrying only the p.Leu2286Val and two patients harbouring an additional RYR1 variant. Three individuals carrying an in trans RYR1 variant presented with an earlier onset and more severe phenotype. Conclusion: Here, it is shown that the dominantly inherited p.Leu2286Val RYR1 founder variant is associated with a milder phenotype of exercise intolerance, myalgia and hyperCKemia.
  • Miniatura
    Ítem
    Pharmacokinetic evaluation of new drugs using a multi-labelling approach and PET imaging: application to a drug candidate with potential application in neuromuscular disorders
    (MDPI, 2023-01-18) Passannante, Rossana; Gómez Vallejo, Vanessa; Sagartzazu Aizpurua, Maialen; Vignau Arsuaga, Laura; Marco Moreno, Pablo; Aldanondo Aristizabal, Garazi ; Vallejo Illarramendi, Ainara; Aguiar Fernández, Pablo; Cossío, Unai; Martín, Abraham; Bergare, Jonas; Kingston, Lee; Elmore, Charles S.; Morcillo Alonso, Miguel Ángel ; Ferrón, Pablo; Aizpurua Iparraguirre, Jesus Mari ; Llop, Jordi
    Background and objective: The determination of pharmacokinetic properties of new chemical entities is a key step in the process of drug development. Positron emission tomography (PET) is an ideal technique to obtain both biodistribution and pharmacokinetic parameters of new compounds over a wide range of chemical modalities. Here, we use a multi-radionuclide/multi-position labelling approach to investigate distribution, elimination, and metabolism of a triazole-based FKBP12 ligand (AHK2) with potential application in neuromuscular disorders. Methods: Target engagement and stabilizing capacity of the drug candidate (AHK2) towards FKBP12-RyR was evaluated using competitive ligand binding and proximity ligation assays, respectively. Subsequently, AHK2 was labelled either with the positron emitter carbon-11 (11C) via 11C-methylation to yield both [11C]AHK2.1 and [11C]AHK2.2, or by palladium-catalysed reduction of the corresponding 5-iodotriazole derivative using 3H gas to yield [3H]AHK2. Metabolism was first investigated in vitro using liver microsomes. PET imaging studies in rats after intravenous (IV) administration at different doses (1 µg/Kg and 5 mg/Kg) were combined with determination of arterial blood time-activity curves (TACs) and analysis of plasma samples by high performance liquid chromatography (HPLC) to quantify radioactive metabolites. Arterial TACs were obtained in continuous mode by using an in-house developed system that enables extracorporeal blood circulation and continuous measurement of radioactivity in the blood. Pharmacokinetic parameters were determined by non-compartmental modelling of the TACs. Results: In vitro studies indicate that AHK2 binds to FKBP12 at the rapamycin-binding pocket, presenting activity as a FKBP12/RyR stabilizer. [11C]AHK2.1, [11C]AHK2.2 and [3H]AHK2 could be obtained in overall non-decay corrected radiochemical yields of 14 ± 2%, 15 ± 2% and 0.05%, respectively. Molar activities were 60–110 GBq/µmol, 68–122 GBq/µmol and 0.4–0.5 GBq/μmol, respectively. In vitro results showed that oxidation of the thioether group into sulfoxide, demethylation of the CH3O-Ar residue and demethylation of –N(CH3)2 were the main metabolic pathways. Fast metabolism was observed in vivo. Pharmacokinetic parameters obtained from metabolite-corrected arterial blood TACs showed a short half-life (12.6 ± 3.3 min). Dynamic PET imaging showed elimination via urine when [11C]AHK2.2 was administered, probably reflecting the biodistribution of [11C]methanol as the major metabolite. Contrarily, accumulation in the gastrointestinal track was observed after administration of [11C]AKH2.1. Conclusions: AHK2 binds to FKBP12 at the rapamycin-binding pocket, presenting activity as a FKBP12/RyR stabilizer. Studies performed with the 3H- and 11C-labelled FKBP12/RyR stabilizer AHK2 confirm fast blood clearance, linear pharmacokinetics and rapid metabolism involving oxidation of the sulfide and amine moieties and oxidative demethylation of the CH3-O-Ar and tertiary amine groups as the main pathways. PET studies suggest that knowledge about metabolic pathways is paramount to interpret images.