Centre for Toxicogenomics and Human Health

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Common genetic variation in KATNAL1 non-coding regions is involved in the susceptibility to severe phenotypes of male infertility

Publication . Cerván‐Martín, Miriam; Bossini‐Castillo, Lara; Guzmán‐Jiménez, Andrea; Rivera‐Egea, Rocío; Garrido, Nicolás; Lujan, Saturnino; Romeu, Gema; Santos‐Ribeiro, Samuel; Castilla, José Antonio; Gonzalvo, María del Carmen; Clavero, Ana; Maldonado, Vicente; Vicente, Francisco Javier; Burgos, Miguel; Jiménez, Rafael; González‐Muñoz, Sara; Sánchez‐Curbelo, Josvany; López‐Rodrigo, Olga; Pereira‐Caetano, Iris; Marques, Patricia Isabel; Carvalho, Filipa; Barros, Alberto; Bassas, Lluís; Seixas, Susana; Gonçalves, João; Larriba, Sara; Lopes, Alexandra Manuel; Palomino‐Morales, Rogelio Jesús; Carmona, Francisco David

Background: Previous studies in animal models evidenced that genetic mutations of KATNAL1, resulting in dysfunction of its encoded protein, lead to male infertility through disruption of microtubule remodelling and premature germ cell exfoliation. Subsequent studies in humans also suggested a possible role of KATNAL1 single nucleotide polymorphisms in the development of male infertility as a consequence of severe spermatogenic failure. Objectives: The main objective of the present study is to evaluate the effect of the common genetic variation of KATNAL1 in a large and phenotypically well-characterised cohort of infertile men because of severe spermatogenic failure. Materials and methods: A total of 715 infertile men because of severe spermato genic failure, including 210 severe oligospermia and 505 non-obstructive azoospermia patients, as well as 1058 unaffected controls were genotyped for three KATNAL1 single-nucleotide polymorphism taggers (rs2077011, rs7338931 and rs2149971). Case–control association analyses by logistic regression assuming different models and in silico functional characterisation of risk variants were conducted. Results: Genetic associations were observed between the three analysed taggers and different severe spermatogenic failure groups. However, in all cases, the haplotype model (rs2077011*C | rs7338931*T | rs2149971*A) better explained the observed associations than the three risk alleles independently. This haplotype was associated with non-obstructive azoospermia (adjusted p = 4.96E-02, odds ratio = 2.97), Sertoli cell only syndrome (adjusted p = 2.83E-02, odds ratio = 5.16) and testicular sperm extraction unsuccessful outcomes (adjusted p = 8.99E-04, odds ratio = 6.13). The in silico analyses indicated that the effect on severe spermatogenic failure predisposition could be because of an alteration of the KATNAL1 splicing pattern. Conclusions: Specific allelic combinations of KATNAL1 genetic polymorphisms may confer a risk of developing severe male infertility phenotypes by favouring the overrepresentation of a short non-functional transcript isoform in the testis.

2022-10Journal article

Open access

Whole human genome 5’-mC methylation analysis using long read nanopore sequencing

Publication . Silva, Catarina; Machado, Miguel; Ferrão, José; Sebastião Rodrigues, António; Vieira, Luís

Methylation microarray and bisulphite sequencing are often used to study 5'-methylcytosine (5'-mC) modification of CpG dinucleotides in the human genome. Although both technologies produce trustworthy results, the evaluation of the methylation status of CpG sites suffers from the potential side effects of DNA modification by bisulphite and/or the ambiguity of mapping short reads in repetitive and highly homologous genomic regions, respectively. Nanopore sequencing is an attractive alternative for the study of 5'-mC since it allows sequencing of native DNA molecules, whereas the long reads produced by this technology help to increase the resolution of those genomic regions. In this work, we show that nanopore sequencing with 10X coverage depth, using DNA from a human cell line, produces 5'-mC methylation frequencies consistent with those obtained by 450k microarray, digital restriction enzyme analysis of methylation, and reduced representation bisulphite sequencing. High correlation between methylation frequencies obtained by nanopore sequencing and the other methodologies was also noticeable in either low or high GC content regions, including CpG islands and transcription start sites. We also showed that a minimum of five reads per CpG yields strong correlations (>0.89) in replicate nanopore sequencing runs and an almost uniform linearity of the methylation frequency variation between zero and one. Furthermore, nanopore sequencing was able to correctly display methylation frequency patterns based on genomic annotations of CpG regions. These results demonstrate that nanopore sequencing is a fast, robust, and reliable approach to the study of 5'-mC in the human genome with low coverage depth.

2022-12Journal article

Restricted access

Investigation of the genotoxicity of digested titanium dioxide nanomaterials in human intestinal cells

Publication . Vieira, Adriana; Rolo, Dora; Vital, Nádia; Martins, Carla; Assunção, Ricardo; Alvito, Paula; Gonçalves, Lídia; Bettencourt, Ana F.; Silva, Maria João; Louro, Henriqueta

About Investigation of the genotoxicity of digested titanium dioxide nanomaterials in human intestinal cells

2022-03-22Conference object

Restricted access

Nosocomial Outbreak of SARS-CoV-2 in a “Non-COVID-19” Hospital Ward: Virus Genome Sequencing as a Key Tool to Understand Cryptic Transmission

Publication . Borges, Vítor; Isidro, Joana; Macedo, Filipe; Neves, José; Silva, Luís; Paiva, Mário; Barata, José; Catarino, Judite; Ciobanu, Liliana; Duarte, Sílvia; Vieira, Luís; Guiomar, Raquel; Gomes, João Paulo

Dissemination of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in healthcare institutions affects both patients and health-care workers (HCW), as well as the institutional capacity to provide essential health services. Here, we investigated an outbreak of SARS-CoV-2 in a "non-COVID-19" hospital ward unveiled by massive testing, which challenged the reconstruction of transmission chains. The contacts network during the 15-day period before the screening was investigated, and positive SARS-CoV-2 RNA samples were subjected to virus genome sequencing. Of the 245 tested individuals, 48 (21 patients and 27 HCWs) tested positive for SARS-CoV-2. HCWs were mostly asymptomatic, but the mortality among patients reached 57.1% (12/21). Phylogenetic reconstruction revealed that all cases were part of the same transmission chain. By combining contact tracing and genomic data, including analysis of emerging minor variants, we unveiled a scenario of silent SARS-CoV-2 dissemination, mostly driven by the close contact within the HCWs group and between HCWs and patients. This investigation triggered enhanced prevention and control measures, leading to more timely detection and containment of novel outbreaks. This study shows the benefit of combining genomic and epidemiological data for disclosing complex nosocomial outbreaks, and provides valuable data to prevent transmission of COVID-19 in healthcare facilities.

2021-04-01Journal article

Open access

Avaliação do desempenho de uma core-facility de sequenciação genómica especializada em saúde pública

Publication . Vieira, Luís; Silva, Catarina; Duarte, Sílvia; Mendonça, Joana; Carpinteiro, Dina; Sampaio, Daniel A.; Ferrão, José; Santos, Daniela; Machado, Miguel; Isidro, Joana; Barreiro, Paula; Isidro, Glória

A Unidade de Tecnologia e Inovação (UTI) do Departamento de Genética Humana foi criada em 2009 pelo despacho normativo n.º 15/2009. Apesar de estar integrada num departamento técnico científico, esta unidade constituiu-se desde logo como core-facility de sequenciação genómica do Instituto Nacional de Saúde Doutor Ricardo Jorge (INSA). Este papel envolve uma gestão contínua de prioridades dos serviços a prestar aos utilizadores, no âmbito da resposta a diferentes problemas de saúde pública, aliada a uma preocupação permanente com a qualidade dos resultados e os tempos de resposta. Neste trabalho, apresentamos os resultados da avaliação do desempenho da UTI, desde a introdução da tecnologia de Next-Generation Sequencing (NGS) em 2013, em termos de: (i) métricas de produção da Unidade, (ii) impacto dos resultados publicados no âmbito de colaborações científicas com os grupos de investigação do INSA ou de entidades externas e de (iii) avaliação dos serviços através de um inquérito dirigido aos utilizadores. Até final de 2021, o número de ensaios de NGS e de citações dos trabalhos publicados cresceram, por ano, 39% e 61%, respetivamente. Os utilizadores avaliaram de forma muito positiva os serviços prestados pela UTI em 2021. Globalmente, estes resultados demonstram que o modelo de trabalho de "core- -facility" exercido pela UTI é uma mais-valia na resposta aos problemas da saúde pública em Portugal.

2022-05Journal article

Open access