Browsing by Author "Porto, G."
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- Alterações fenotípicas e genéticas do metabolismo do ferro numa população portuguesa com doença de Alzheimer: potenciais implicações no conhecimento da fisiopatologia e no diagnóstico desta demênciaPublication . Crespo, A.C.; Silva, B.; Marques, L.; Marcelino, E.; Maruta, C.; Costa, S.; Timóteo, A.; Vilares, A.; Couto, F.S.; Faustino, Paula; Correia, A.P.; Verdelho, A.; Porto, G.; Guerreiro, M.; Herrero, A.; Costa, C.; Mendonça, A.; Martins, M.; Costa, L.
- Genetic and biochemical markers in patients with Alzheimer's disease support a concerted systemic iron homeostasis dysregulationPublication . Crespo, A.C.; Silva, B.; Marques, L.; Marcelino, E.; Maruta, C.; Costa, S.; Timóteo, A.; Vilares, A.; Couto, F.S.; Faustino, Paula; Correia, A.P.; Verdelho, A.; Porto, G.; Guerreiro, M.; Herrero, A.; Costa, C.; de Mendonça, A.; Costa, L.; Martins, M.Alzheimer's disease (AD) is the most common form of dementia in the elderly individuals, resulting from a complex interaction between environmental and genetic factors. Impaired brain iron homeostasis has been recognized as an important mechanism underlying the pathogenesis of this disease. Nevertheless, the knowledge gathered so far at the systemic level is clearly insufficient. Herein, we used an integrative approach to study iron metabolism in the periphery, at both genotypic and phenotypic levels, in a sample of 116 patients with AD and 89 healthy control subjects. To assess the potential impact of iron metabolism on the risk of developing AD, genetic analyses were performed along with the evaluation of the iron status profile in peripheral blood by biochemical and gene expression studies. The results obtained showed a significant decrease of serum iron, ferritin, and transferrin concentrations in patients compared with the control subjects. Also, a significant decrease of ferroportin (SLC40A1) and both transferrin receptors TFRC and TFR2 transcripts was found in peripheral blood mononuclear cells from patients. At the genetic level, significant associations with AD were found for single nucleotide polymorphisms in TF, TFR2, ACO1, and SLC40A1 genes. Apolipoprotein E gene, a well-known risk factor for AD, was also found significantly associated with the disease in this study. Taken together, we hypothesize that the alterations on systemic iron status observed in patients could reflect an iron homeostasis dysregulation, particularly in cellular iron efflux. The intracellular iron accumulation would lead to a rise in oxidative damage, contributing to AD pathophysiology.
- Protective effect of an ERAP1 haplotype in ankylosing spondylitis: investigating non-MHC genes in HLA-B27-positive individualsPublication . Bettencourt, B.F.; Rocha, F.L.; Alves, H.; Amorim, R.; Caetano Lopes, J.; Vieira Sousa, E.; Pimentel Santos, F.; Lima, M.; Porto, G.; Branco, J.C.; Fonseca, J.E.; Bruges Armas, J.OBJECTIVE: The association of non-MHC genes with AS has been recently suggested. We aimed to investigate the association of the ERAP1, IL23R and TNFSF15 regions and the susceptibility to and protection from AS in HLA-B27-positive individuals. METHODS: A total of 200 unrelated AS patients and 559 healthy unrelated subjects, all HLA-B27 positive, were tested. Twenty single nucleotide polymorphisms (SNPs) were investigated in and near IL23R (nine SNPs), in ERAP1 (five SNPs) and in TNFSF15 (six SNPs). RESULTS: ERAP1 rs30187 [odds ratio (OR) = 1.5, P = 4.7 × 10(-3)] had the strongest association with AS susceptibility. A protective effect was found in three of the ERAP1 SNPs: rs17482078 (OR = 0.7, P = 2.8 × 10(-2)), rs10050860 (OR = 0.7, P = 2.3 × 10(-2)), rs2287987 (OR = 0.6, P = 1.3 × 10(-2)). The ERAP1 haplotype rs17482078/rs10050860/rs30187/rs2287987-CCTT showed an association with AS susceptibility (P = 6.8 × 10(-3)) and a protective effect was identified in rs17482078/rs10050860/rs30187/rs2287987-TTCC (P = 3.1 × 10(-2)). Significant association with AS susceptibility was found in one IL23R marker (rs1004819, P = 4.3 × 10(-2), OR = 1.3). No associations were observed in the TNFSF15 region. CONCLUSION: The identification of a new protection haplotype in ERAP1 and the lack of association of the TNFSF15 region can provide new insights into the understanding of the mechanisms underlying the susceptibility to and protection from AS.