Browsing by Author "Amaral, Margarida"
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- Cystic Fibrosis Newborn Screening in Portugal: PAP Value in Populations with Stringent Rules for Genetic StudiesPublication . Marcão, Ana; Barreto, Celeste; Pereira, Luísa; Vaz, Luísa; Cavaco, José; Casimiro, Ana; Félix, Miguel; Silva, Teresa; Barbosa, Telma; Freitas, Cristina; Nunes, Sidónia; Felício, Verónica; Lopes, Lurdes; Amaral, Margarida; Vilarinho, LauraNewborn screening (NBS) for cystic fibrosis (CF) has been shown to be advantageous for children with CF, and has thus been included in most NBS programs using various algorithms. With this study, we intend to establish the most appropriate algorithm for CF-NBS in the Portuguese population, to determine the incidence, and to contribute to elucidating the genetic epidemiology of CF in Portugal. This was a nationwide three-year pilot study including 255,000 newborns (NB) that were also screened for congenital hypothyroidism (CH) and 24 other metabolic disorders included in the Portuguese screening program. Most samples were collected in local health centers spread all over the country, between the 3rd and 6th days of life. The algorithm tested includes immunoreactive trypsinogen (IRT) determination, pancreatitis associated protein (PAP) as a second tier, and genetic study for cases referred to specialized clinical centers. Thirty-four CF cases were confirmed positive, thus indicating an incidence of 1:7500 NB. The p.F508del mutation was found in 79% of the alleles. According to the results presented here, CF-NBS is recommended to be included in the Portuguese NBS panel with a small adjustment regarding the PAP cut-off, which we expect to contribute to the improvement of the CF-NBS performance. According to our results, this algorithm is a valuable alternative for CF-NBS in populations with stringent rules for genetic studies.
- Escherichia coli-cloned CFTR loci relevant for human artificial chromosome therapyPublication . Rocchi, Lucia; Braz, Carla; Cattani, Sonja; Ramalho, Anabela; Christan, Sulith; Edlinger, Marlene; Ascenzioni, Fiorentina; Laner, Andreas; Kraner, Simone; Amaral, Margarida; Schindelhauer, DirkClassical gene therapy for cystic fibrosis has had limited success because of immune response against viral vectors and short-term expression of cDNA-based transgenes. These limitations could be overcome by delivering the complete genomic CFTR gene on nonintegrating human artificial chromosomes (HACs). Here, we report reconstruction of the genomic CFTR locus and analyze incorporation into HACs of three P1 phage-based and F factor bacteria-based artificial chromosomes (PACs/BACs) of various sizes: (1) 5A, a large, nonselectable BAC containing the entire wild-type CFTR locus extending into both adjacent genes (296.8-kb insert, from kb -58.4 to +51.4) containing all regulators; (2) CGT21, a small, selectable, telomerized PAC (134.7 kb, from kb -60.7 to + 2) containing a synthetic last exon joining exon 10, EGFP, exon 24, and the 3' untranslated region; and (3) CF225, a midsized, nonselectable PAC (225.3 kb, from kb -60.7 to +9.8) ligated from two PACs with optimized codons and a silent XmaI restriction variant to discriminate transgene from endogenous expression. Cotransfection with telomerized, blasticidin-S-selectable, centromere-proficient α-satellite constructs into HT1080 cells revealed a workable HAC formation rate of 1 per ∼25 lines when using CGT21 or 5A. CF225 was not incorporated into a de novo HAC in 122 lines analyzed, but integrants were expressed. Stability analyses suggest the feasibility of prefabricating a large, tagged CFTR transgene that stably replicates in the proximity of a functional centromere. Although definite conclusions about HAC-proficient construct configurations cannot be drawn at this stage, important transfer resources were generated and characterized, demonstrating the promise of de novo HACs as potentially ideal gene therapy vector systems.
- A molecular switch in the scaffold NHERF1 enables misfolded CFTR to evade the peripheral quality control checkpointPublication . Loureiro, Cláudia; Matos, Ana Margarida; Dias-Alves, Ãngela; Pereira, Joana Filipa; Uliyakina, Irina; Barros, Patrícia; Amaral, Margarida; Matos, PauloThe peripheral protein quality control (PPQC) checkpoint removes improperly folded proteins from the plasma membrane through a mechanism involving the E3 ubiquitin ligase CHIP (carboxyl terminus of Hsc70 interacting protein). PPQC limits the efficacy of some cystic fibrosis (CF) drugs, such as VX-809, that improve trafficking to the plasma membrane of misfolded mutants of the CF transmembrane conductance regulator (CFTR), including F508del-CFTR, which retains partial functionality. We investigated the PPQC checkpoint in lung epithelial cells with F508del-CFTR that were exposed to VX-809. The conformation of the scaffold protein NHERF1 (Na(+)/H(+) exchange regulatory factor 1) determined whether the PPQC recognized "rescued" F508del-CFTR (the portion that reached the cell surface in VX-809-treated cells). Activation of the cytoskeletal regulator Rac1 promoted an interaction between the actin-binding adaptor protein ezrin and NHERF1, triggering exposure of the second PDZ domain of NHERF1, which interacted with rescued F508del-CFTR. Because binding of F508del-CFTR to the second PDZ of NHERF1 precluded the recruitment of CHIP, the coexposure of airway cells to Rac1 activator nearly tripled the efficacy of VX-809. Interference with the NHERF1-ezrin interaction prevented the increase of efficacy of VX-809 by Rac1 activation, but the actin-binding domain of ezrin was not required for the increase in efficacy. Thus, rather than mainly directing anchoring of F508del-CFTR to the actin cytoskeleton, induction of ezrin activation by Rac1 signaling triggered a conformational change in NHERF1, which was then able to bind and stabilize misfolded CFTR at the plasma membrane. These insights into the cell surface stabilization of CFTR provide new targets to improve treatment of CF.
- The third dimension: new developments in cell culture models for colorectal researchPublication . Pereira, Joana; Avatade, Nikhil; Loureiro, Cláudia; Matos, Paulo; Amaral, Margarida; Jordan, PeterCellular models are important tools in various research areas related to colorectal biology and associated diseases. Herein, we review the most widely used cell lines and the different techniques to grow them, either as cell monolayer, polarized two-dimensional epithelia on membrane filters, or as three-dimensional spheres in scaffoldfree or matrix-supported culture conditions. Moreover, recent developments, such as gut-on-chip devices or the ex vivo growth of biopsy-derived organoids, are also discussed. We provide an overview on the potential applications but also on the limitations for each of these techniques, while evaluating their contribution to provide more reliable cellular models for research, diagnostic testing, or pharmacological validation related to colon physiology and pathophysiology.