Your search keyword '"Patricia Isabel Marques"' showing total 6 results

1. Contribution of TEX15 genetic variants to the risk of developing severe non-obstructive oligozoospermia

Author

Andrea Guzmán-Jiménez, Sara González-Muñoz, Miriam Cerván-Martín, Rocío Rivera-Egea, Nicolás Garrido, Saturnino Luján, Samuel Santos-Ribeiro, José A. Castilla, M. Carmen Gonzalvo, Ana Clavero, F. Javier Vicente, Vicente Maldonado, Javier Villegas-Salmerón, Miguel Burgos, Rafael Jiménez, Maria Graça Pinto, Isabel Pereira, Joaquim Nunes, Josvany Sánchez-Curbelo, Olga López-Rodrigo, Iris Pereira-Caetano, Patricia Isabel Marques, Filipa Carvalho, Alberto Barros, Lluís Bassas, Susana Seixas, João Gonçalves, Alexandra M. Lopes, Sara Larriba, Rogelio J. Palomino-Morales, F. David Carmona, Lara Bossini-Castillo, IVIRMA Group, and Lisbon Clinical Group

Subjects

oligozoospermia, spermatogenesis, TEX15, polymorphisms, association study, Biology (General), QH301-705.5

Abstract

Background: Severe spermatogenic failure (SPGF) represents one of the most relevant causes of male infertility. This pathological condition can lead to extreme abnormalities in the seminal sperm count, such as severe oligozoospermia (SO) or non-obstructive azoospermia (NOA). Most cases of SPGF have an unknown aetiology, and it is known that this idiopathic form of male infertility represents a complex condition. In this study, we aimed to evaluate whether common genetic variation in TEX15, which encodes a key player in spermatogenesis, is involved in the susceptibility to idiopathic SPGF.Materials and Methods: We designed a genetic association study comprising a total of 727 SPGF cases (including 527 NOA and 200 SO) and 1,058 unaffected men from the Iberian Peninsula. Following a tagging strategy, three tag single-nucleotide polymorphisms (SNPs) of TEX15 (rs1362912, rs323342, and rs323346) were selected for genotyping using TaqMan probes. Case-control association tests were then performed by logistic regression models. In silico analyses were also carried out to shed light into the putative functional implications of the studied variants.Results: A significant increase in TEX15-rs1362912 minor allele frequency (MAF) was observed in the group of SO patients (MAF = 0.0842) compared to either the control cohort (MAF = 0.0468, OR = 1.90, p = 7.47E-03) or the NOA group (MAF = 0.0472, OR = 1.83, p = 1.23E-02). The genotype distribution of the SO population was also different from those of both control (p = 1.14E-02) and NOA groups (p = 4.33–02). The analysis of functional annotations of the human genome suggested that the effect of the SO-associated TEX15 variants is likely exerted by alteration of the binding affinity of crucial transcription factors for spermatogenesis.Conclusion: Our results suggest that common variation in TEX15 is involved in the genetic predisposition to SO, thus supporting the notion of idiopathic SPGF as a complex trait.

Published

2022

2. Contribution of

Author

Andrea, Guzmán-Jiménez, Sara, González-Muñoz, Miriam, Cerván-Martín, Rocío, Rivera-Egea, Nicolás, Garrido, Saturnino, Luján, Samuel, Santos-Ribeiro, José A, Castilla, M Carmen, Gonzalvo, Ana, Clavero, F Javier, Vicente, Vicente, Maldonado, Javier, Villegas-Salmerón, Miguel, Burgos, Rafael, Jiménez, Maria Graça, Pinto, Isabel, Pereira, Joaquim, Nunes, Josvany, Sánchez-Curbelo, Olga, López-Rodrigo, Iris, Pereira-Caetano, Patricia Isabel, Marques, Filipa, Carvalho, Alberto, Barros, Lluís, Bassas, Susana, Seixas, João, Gonçalves, Alexandra M, Lopes, Sara, Larriba, Rogelio J, Palomino-Morales, F David, Carmona, and Lara, Bossini-Castillo

Published

2022

3. Common Variation in the PIN1 Locus Increases the Genetic Risk to Suffer from Sertoli Cell-Only Syndrome

Author

Miriam, Cerván-Martín, Lara, Bossini-Castillo, Andrea, Guzmán-Jimenez, Rocío, Rivera-Egea, Nicolás, Garrido, Saturnino, Luján, Gema, Romeu, Samuel, Santos-Ribeiro, Ivirma Group, Lisbon Clinical Group, José A, Castilla, M Carmen, Gonzalvo, Ana, Clavero, F Javier, Vicente, Vicente, Maldonado, Sara, González-Muñoz, Inmaculada, Rodríguez-Martín, Miguel, Burgos, Rafael, Jiménez, Maria Graça, Pinto, Isabel, Pereira, Joaquim, Nunes, Josvany, Sánchez-Curbelo, Olga, López-Rodrigo, Iris, Pereira-Caetano, Patricia Isabel, Marques, Filipa, Carvalho, Alberto, Barros, Lluís, Bassas, Susana, Seixas, João, Gonçalves, Sara, Larriba, Alexandra M, Lopes, F David, Carmona, and Rogelio J, Palomino-Morales

Subjects

Male infertility, Polimorfisme genètic, Esterilitat masculina, Medicine (miscellaneous), Single-Nucleotide Polymorphism, Severe spermatogenic failure, Genetic polymorphisms, Doenças Genéticas, Single nucleotide polymorphism, severe spermatogenic failure, male infertility, PIN1, single-nucleotide polymorphism, Sertoli cell-only syndrome, Male sterility, Sertoli Cell-Only Syndrome

Abstract

We aimed to analyze the role of the common genetic variants located in the PIN1 locus, a relevant prolyl isomerase required to control the proliferation of spermatogonial stem cells and the integrity of the blood–testis barrier, in the genetic risk of developing male infertility due to a severe spermatogenic failure (SPGF). Genotyping was performed using TaqMan genotyping assays for three PIN1 taggers (rs2287839, rs2233678 and rs62105751). The study cohort included 715 males diagnosed with SPGF and classified as suffering from non-obstructive azoospermia (NOA, n = 505) or severe oligospermia (SO, n = 210), and 1058 controls from the Iberian Peninsula. The allelic frequency differences between cases and controls were analyzed by the means of logistic regression models. A subtype specific genetic association with the subset of NOA patients classified as suffering from the Sertoli cell-only (SCO) syndrome was observed with the minor alleles showing strong risk effects for this subset (ORaddrs2287839 = 1.85 (1.17–2.93), ORaddrs2233678 = 1.62 (1.11–2.36), ORaddrs62105751 = 1.43 (1.06–1.93)). The causal variants were predicted to affect the binding of key transcription factors and to produce an altered PIN1 gene expression and isoform balance. In conclusion, common non-coding single-nucleotide polymorphisms located in PIN1 increase the genetic risk to develop SCO., Plan Andaluz de Investigacion, Desarrollo e Innovacion (PAIDI 2020) PY20_00212 P20_00583, Spanish Ministry of Economy and Competitiveness through the Spanish National Plan for Scientific and Technical Research and Innovation SAF2016-78722-R PID2020-120157RB-I00, Proyectos I + D + i del Programa Operativo FEDER 2020 B-CTS-584-UGR20 B-CTS-260-UGR20, Spanish Government RYC-2014-16458, Spanish Ministry of Economy and Competitiveness through the "Juan de la Cierva Incorporacion" program (MCIN/AEI) IJC2018038026-I, European Commission, MCIN/AEI, FSE "El FSE invierte en tu futuro" FPU20/02926 BES-2017-081222, Portuguese Foundation for Science and Technology (FCT) - European Social Funds (COMPETE-FEDER) Portuguese Foundation for Science and Technology IF/01262/2014, FCT from the Portuguese State Budget of the Ministry for Science, Technology and High Education SFRH/BPD/120777/2016, European Social Fund through the Programa Operacional do Capital Humano, Portuguese Foundation for Science and Technology European Commission UID/BIM/00009/2013 UIDB/UIDP/00009/2020, Instituto de Salud Carlos III (FEDER funds/European Regional Development Fund (ERDF)-a way to build Europe) DTS18/00101, Generalitat de Catalunya 2017SGR191, SNS-Dpt. Salut Generalitat de Catalunya CES09/020 MCIN/AEI BES-2017-081222 PEstC/SAU/LA0003/2013 POCI-01-0145-FEDER-007274

Published

2022

4. Known Mutations at the Cause of Alpha-1 Antitrypsin Deficiency an Updated Overview of

Author

Susana, Seixas and Patricia Isabel, Marques

Subjects

Z allele, MMalton allele and QOurém allele, S allele, Review, SERPINA1 variants

Abstract

Alpha-1-Antitrypsin deficiency (AATD), caused by SERPINA1 mutations, is one of the most prevalent Mendelian disorders among individuals of European descend. However, this condition, which is characterized by reduced serum levels of alpha-1-antitrypsin (AAT) and associated with increased risks of pulmonary emphysema and liver disease in both children and adults, remains frequently underdiagnosed. AATD clinical manifestations are often correlated with two pathogenic variants, the Z allele (p.Glu342Lys) and the S allele (p.Glu264Val), which can be combined in severe ZZ or moderate SZ risk genotypes. Yet, screenings of AATD cases and large sequencing efforts carried out in both control and disease populations are disclosing outstanding numbers of rare SERPINA1 variants (>500), including many pathogenic and other likely deleterious mutations. Generally speaking, pathogenic variants can be subdivided into either loss- or gain-of-function according to their pathophysiological effects. In AATD, the loss-of-function is correlated with an uncontrolled activity of elastase by its natural inhibitor, the AAT. This phenomenon can result from the absence of circulating AAT (null alleles), poor AAT secretion from hepatocytes (deficiency alleles) or even from a modified inhibitory activity (dysfunctional alleles). On the other hand, the gain-of-function is connected with the formation of AAT polymers and their switching on of cellular stress and inflammatory responses (deficiency alleles). Less frequently, the gain-of-function is related to a modified protease affinity (dysfunctional alleles). Here, we revisit SERPINA1 mutation spectrum, its origins and population history with a greater emphasis on variants fitting the aforementioned processes of AATD pathogenesis. Those were selected based on their clinical significance and wider geographic distribution. Moreover, we also provide some directions for future studies of AATD clinically heterogeneity and comprehensive diagnosis.

Published

2021

5. Comparative analysis of the bronchoalveolar microbiome in Portuguese patients with different chronic lung disorders

Author

Susana Seixas, Allison R. Kolbe, Sílvia Gomes, Maria Sucena, Catarina Sousa, Luís Vaz Rodrigues, Gilberto Teixeira, Paula Pinto, Tiago Tavares de Abreu, Cristina Bárbara, Júlio Semedo, Leonor Mota, Ana Sofia Carvalho, Rune Matthiesen, Patrícia Isabel Marques, and Marcos Pérez-Losada

Subjects

Medicine, Science

Abstract

Abstract The lung is inhabited by a diverse microbiome that originates from the oropharynx by a mechanism of micro-aspiration. Its bacterial biomass is usually low; however, this condition shifts in lung cancer (LC), chronic obstructive pulmonary disease (COPD) and interstitial lung disease (ILD). These chronic lung disorders (CLD) may coexist in the same patient as comorbidities and share common risk factors, among which the microbiome is included. We characterized the microbiome of 106 bronchoalveolar lavages. Samples were initially subdivided into cancer and non-cancer and high-throughput sequenced for the 16S rRNA gene. Additionally, we used a cohort of 25 CLD patients where crossed comorbidities were excluded. Firmicutes, Proteobacteria and Bacteroidetes were the most prevalent phyla independently of the analyzed group. Streptococcus and Prevotella were associated with LC and Haemophilus was enhanced in COPD versus ILD. Although no significant discrepancies in microbial diversity were observed between cancer and non-cancer samples, statistical tests suggested a gradient across CLD where COPD and ILD displayed the highest and lowest alpha diversities, respectively. Moreover, COPD and ILD were separated in two clusters by the unweighted UniFrac distance (P value = 0.0068). Our results support the association of Streptoccocus and Prevotella with LC and of Haemophilus with COPD, and advocate for specific CLD signatures.

Published

2021

6. SERPINA2 is a novel gene with a divergent function from SERPINA1.

Author

Patrícia Isabel Marques, Zélia Ferreira, Manuella Martins, Joana Figueiredo, Diana Isabel Silva, Patrícia Castro, Ramiro Morales-Hojas, Joana Simões-Correia, and Susana Seixas

Subjects

Medicine, Science

Abstract

Serine protease inhibitors (SERPINs) are a superfamily of highly conserved proteins that play a key role in controlling the activity of proteases in diverse biological processes. The SERPIN cluster located at the 14q32.1 region includes the gene coding for SERPINA1, and a highly homologous sequence, SERPINA2, which was originally thought to be a pseudogene. We have previously shown that SERPINA2 is expressed in different tissues, namely leukocytes and testes, suggesting that it is a functional SERPIN. To investigate the function of SERPINA2, we used HeLa cells stably transduced with the different variants of SERPINA2 and SERPINA1 (M1, S and Z) and leukocytes as the in vivo model. We identified SERPINA2 as a 52 kDa intracellular glycoprotein, which is localized at the endoplasmic reticulum (ER), independently of the variant analyzed. SERPINA2 is not significantly regulated by proteasome, proposing that ER localization is not due to misfolding. Specific features of SERPINA2 include the absence of insoluble aggregates and the insignificant response to cell stress, suggesting that it is a non-polymerogenic protein with divergent activity of SERPINA1. Using phylogenetic analysis, we propose an origin of SERPINA2 in the crown of primates, and we unveiled the overall conservation of SERPINA2 and A1. Nonetheless, few SERPINA2 residues seem to have evolved faster, contributing to the emergence of a new advantageous function, possibly as a chymotrypsin-like SERPIN. Herein, we present evidences that SERPINA2 is an active gene, coding for an ER-resident protein, which may act as substrate or adjuvant of ER-chaperones.

Published

2013