Browsing by Author "Barreto, M."
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- Compensatory T-Cell Regulation in Unaffected Relatives of SLE Patients, and Opposite IL-2/CD25-Mediated Effects Suggested by Coreferentiality ModelingPublication . Fesel, C.; Barreto, M.; Ferreira, R.C.; Costa, N.; Venda, L.L.; Pereira, C.; Carvalho, C.; Morães-Fontes, M.F.; Ferreira, C.M.; Vasconcelos, C.; Viana, J.F.; Santos, E.; Martins, B.; Demengeot, J.; Vicente, A.M.In human systemic lupus erythematosus (SLE), diverse autoantibodies accumulate over years before disease manifestation. Unaffected relatives of SLE patients frequently share a sustained production of autoantibodies with indiscriminable specificity, usually without ever acquiring the disease. We studied relations of IgG autoantibody profiles and peripheral blood activated regulatory T-cells (aTregs), represented by CD4(+)CD25(bright) T-cells that were regularly 70-90% Foxp3(+). We found consistent positive correlations of broad-range as well as specific SLE-associated IgG with aTreg frequencies within unaffected relatives, but not patients or unrelated controls. Our interpretation: unaffected relatives with shared genetic factors compensated pathogenic effects by aTregs engaged in parallel with the individual autoantibody production. To study this further, we applied a novel analytic approach named coreferentiality that tests the indirect relatedness of parameters in respect to multivariate phenotype data. Results show that independently of their direct correlation, aTreg frequencies and specific SLE-associated IgG were likely functionally related in unaffected relatives: they significantly parallelled each other in their relations to broad-range immunoblot autoantibody profiles. In unaffected relatives, we also found coreferential effects of genetic variation in the loci encoding IL-2 and CD25. A model of CD25 functional genetic effects constructed by coreferentiality maximization suggests that IL-2-CD25 interaction, likely stimulating aTregs in unaffected relatives, had an opposed effect in SLE patients, presumably triggering primarily T-effector cells in this group. Coreferentiality modeling as we do it here could also be useful in other contexts, particularly to explore combined functional genetic effects.
- Dysfunction of the Heteromeric KV7.3/KV7.5 Potassium Channel is Associated with Autism Spectrum DisordersPublication . Gilling, M.; Rasmussen, H.B.; Calloe, K.; Sequeira, A.F.; Barreto, M.; Oliveira, G.; Almeida, J.; Lauritsen, M.B.; Ullmann, R.; Boonen, S.E.; Brondum-Nielsen, K.; Kalscheuer, V.M.; Tümer, Z.; Vicente, A.M.; Schmitt, N.; Tommerup, N.Heterozygous mutations in the KCNQ3 gene on chromosome 8q24 encoding the voltage-gated potassium channel KV7.3 subunit have previously been associated with rolandic epilepsy and idiopathic generalized epilepsy (IGE) including benign neonatal convulsions. We identified a de novo t(3;8) (q21;q24) translocation truncating KCNQ3 in a boy with childhood autism. In addition, we identified a c.1720C > T [p.P574S] nucleotide change in three unrelated individuals with childhood autism and no history of convulsions. This nucleotide change was previously reported in patients with rolandic epilepsy or IGE and has now been annotated as a very rare SNP (rs74582884) in dbSNP. The p.P574S KV7.3 variant significantly reduced potassium current amplitude in Xenopus laevis oocytes when co-expressed with KV7.5 but not with KV7.2 or KV7.4. The nucleotide change did not affect trafficking of heteromeric mutant KV7.3/2, KV7.3/4, or KV7.3/5 channels in HEK 293 cells or primary rat hippocampal neurons. Our results suggest that dysfunction of the heteromeric KV7.3/5 channel is implicated in the pathogenesis of some forms of autism spectrum disorders, epilepsy, and possibly other psychiatric disorders and therefore, KCNQ3 and KCNQ5 are suggested as candidate genes for these disorders.
- Low frequency of CD4+CD25+ Treg in SLE patients: a heritable trait associated with CTLA4 and TGFbeta gene variantsPublication . Barreto, M.; Ferreira, R.C.; Lourenço, L.; Moraes-Fontes, M.F.; Santos, E.; Alves, M.; Carvalho, C.; Martins, B.; Andreia, R.; Viana, J.F.; Vasconcelos, C.; Mota-Vieira, L.; Ferreira, C.; Demengeot, J.; Vicente, A.M.CD4+CD25+ regulatory T cells play an essential role in maintaining immune homeostasis and preventing autoimmunity. Therefore, defects in Treg development, maintenance or function have been associated with several human autoimmune diseases including Systemic Lupus Erythematosus (SLE), a systemic autoimmune disease characterized by loss of tolerance to nuclear components and significantly more frequent in females. RESULTS: To investigate the involvement of Treg in SLE pathogenesis, we determined the frequency of CD4+CD25+CD45RO+ T cells, which encompass the majority of Treg activity, in the PBMC of 148 SLE patients (76 patients were part of 54 families), 166 relatives and 117 controls. SLE patients and their relatives were recruited in several Portuguese hospitals and through the Portuguese Lupus Association. Control individuals were blood donors recruited from several regional blood donor centers. Treg frequency was significantly lower in SLE patients than healthy controls (z = -6.161, P < 0.00001) and intermediate in the relatives' group. Remarkably, this T cell subset was also lower in females, most strikingly in the control population (z = 4.121, P < 0.001). We further ascertained that the decreased frequency of Treg in SLE patients resulted from the specific reduction of bona fide FOXP3+CD4+CD25+ Treg. Treg frequency was negatively correlated with SLE activity index (SLEDAI) and titers of serum anti-dsDNA antibodies. Both Treg frequency and disease activity were modulated by IVIg treatment in a documented SLE case. The segregation of Treg frequency within the SLE families was indicative of a genetic trait. Candidate gene analysis revealed that specific variants of CTLA4 and TGFbeta were associated with the decreased frequency of Treg in PBMC, while FOXP3 gene variants were associated with affection status, but not with Treg frequency. CONCLUSION: SLE patients have impaired Treg production or maintenance, a trait strongly associated with SLE disease activity and autoantibody titers, and possibly resulting from the inability to convert FOXP3+CD25- into FOXP3+CD25+ T cells. Treg frequency is highly heritable within SLE families, with specific variants of the CTLA4 and TGFbeta genes contributing to this trait, while FOXP3 contributes to SLE through mechanisms not involving a modulation of Treg frequency. These findings establish that the genetic components in SLE pathogenesis include genes related to Treg generation or maintenance.
- A remarkable depletion of both naïve CD4+ and CD8+ with high proportion of memory T cells in an IPEX infant with a FOXP3 mutation in the forkhead domainPublication . Costa-Carvalho, B.T.; de Moraes-Pinto, M.I.; de Almeida, L.C.; de Seixas Alves, M.T.; Maia, R.P.; de Souza, R.L.; Barreto, M.; Lourenço, L.; Vicente, A.M.; Coutinho, A.; Carneiro-Sampaio, M.IPEX is a rare X-linked syndrome, with immune dysfunction, polyendocrinopathy and enteropathy. We describe an infant who died at the age of 11 months after developing eczema, severe diarrhoea, diabetes, hypothyroidism, thrombocytopenia and four episodes of septicaemia. Immunophenotyping of peripheral blood at 8 months revealed normal CD3+ T, CD4+ T and CD8+ T cell numbers, with low NK and B cells. CD4+ and CD8+ T lymphocytes showed remarkably low numbers and percentages of naïve cells and high numbers of memory CD4 and CD8 cells. At autopsy, an intense depletion of immune cells in thymus, spleen and lymph nodes was observed. No Hassall's corpuscles were found in thymus. Lymphocytic pancreatitis and intense villous atrophy with mucosal lymphocytic infiltration in small bowel were also seen. FOXP3 gene studies revealed a: C-->G substitution 3 bp upstream of exon 10, which prevents splicing between exons 9 and 10, likely resulting in a functionally altered or deficient protein. Florid clinical findings are usually observed in association of forkhead DNA-binding domain mutations. The intense depletion of naïve T cells we report suggest that depletion of immune cells might take place due to uncontrolled activation due to the absence of regulatory T cells.