CARLOS ALBERTO MOREIRA FILHO

(Fonte: Lattes)
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Departamento de Pediatria, Faculdade de Medicina - Docente
LIM/36 - Laboratório de Pediatria Clínica, Hospital das Clínicas, Faculdade de Medicina - Líder

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Colaboração internacional: Portugal ×

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  • article 57 Citação(ões) na Scopus
    Innate immune response is differentially dysregulated between bipolar disease and schizophrenia
    (2015) BAUMONT, Angelica de; MASCHIETTO, Mariana; LIMA, Leandro; CARRARO, Dirce Maria; OLIVIERI, Eloisa Helena; FIORINI, Alex; BARRETA, Luiz Andre Nardin; PALHA, Joana Almeida; BELMONTE-DE-ABREU, Paulo; MOREIRA FILHO, Carlos Alberto; BRENTANI, Helena
    Schizophrenia (SZ) and bipolar disorder (BD) are severe psychiatric conditions with a neurodevelopmental component. Genetic findings indicate the existence of an overlap in genetic susceptibility across the disorders. Also, image studies provide evidence for a shared neurobiological basis, contributing to a dimensional diagnostic approach. This study aimed to identify the molecular mechanisms that differentiate SZ and BD patients from health controls but also that distinguish both from health individuals. Comparison of gene expression profiling in post-mortem brains of both disorders and health controls (30 cases), followed by a further comparison between 29 BD and 29 SZ revealed 28 differentially expressed genes. These genes were used in co-expression analysesthat revealed the pairs CCR1/SERPINA1, CCR5/HCST, C1QA/CD68, CCR5/S100A11 and SERPINA1/TLR1 as presenting the most significant difference in co-expression between SZ and BD. Next, a protein-protein interaction (PPI) network using the 28 differentially expressed genes as seeds revealed CASP4, TYROBP, CCR1, SERPINA1, CCR5 and C1QA as having a central role in the diseases manifestation. Both co-expression and network topological analyses pointed to genes related to microglia functions. Based on this data, we suggest that differences between SZ and BP are due to genes involved with response to stimulus, defense response, immune system process and response to stress biological processes, all having a role in the communication of environmental factors to the cells and associated to microglia.
  • article 64 Citação(ões) na Scopus
    Decreased AIRE Expression and Global Thymic Hypofunction in Down Syndrome
    (2011) LIMA, Flavia A.; MOREIRA-FILHO, Carlos A.; RAMOS, Patricia L.; BRENTANI, Helena; LIMA, Leandro de A.; ARRAIS, Magaly; BENTO-DE-SOUZA, Luiz C.; BENTO-DE-SOUZA, Luciana; DUARTE, Maria I.; COUTINHO, Antonio; CARNEIRO-SAMPAIO, Magda
    The Down syndrome (DS) immune phenotype is characterized by thymus hypotrophy, higher propensity to organ-specific autoimmune disorders, and higher susceptibility to infections, among other features. Considering that AIRE (autoimmune regulator) is located on 21q22.3, we analyzed protein and gene expression in surgically removed thymuses from 14 DS patients with congenital heart defects, who were compared with 42 age-matched controls with heart anomaly as an isolated malformation. Immunohistochemistry revealed 70.48 +/- 49.59 AIRE-positive cells/mm(2) in DS versus 154.70 +/- 61.16 AIRE-positive cells/mm(2) in controls (p < 0.0001), and quantitative PCR as well as DNA microarray data confirmed those results. The number of FOXP3-positive cells/mm(2) was equivalent in both groups. Thymus transcriptome analysis showed 407 genes significantly hypoexpressed in DS, most of which were related, according to network transcriptional analysis (FunNet), to cell division and to immunity. Immune response-related genes included those involved in 1) Ag processing and presentation (HLA-DQB1, HLA-DRB3, CD1A, CD1B, CD1C, ERAP) and 2) thymic T cell differentiation (IL2RG, RAG2, CD3D, CD3E, PRDX2, CDK6) and selection (SH2D1A, CD74). It is noteworthy that relevant AIRE-partner genes, such as TOP2A, LAMNB1, and NUP93, were found hypoexpressed in DNA microarrays and quantitative real-time PCR analyses. These findings on global thymic hypofunction in DS revealed molecular mechanisms underlying DS immune phenotype and strongly suggest that DS immune abnormalities are present since early development, rather than being a consequence of precocious aging, as widely hypothesized. Thus, DS should be considered as a non-monogenic primary immunodeficiency. The Journal of Immunology, 2011, 187: 3422-3430.
  • article 9 Citação(ões) na Scopus
    Intrauterine IPEX
    (2020) CARNEIRO-SAMPAIO, Magda; MOREIRA-FILHO, Carlos Alberto; BANDO, Silvia Yumi; DEMENGEOT, Jocelyne; COUTINHO, Antonio
    IPEX is one of the few Inborn Errors of Immunity that may manifest in the fetal period, and its intrauterine forms certainly represent the earliest human autoimmune diseases. Here, we review the clinical, histopathologic, and genetic findings from 21 individuals in 11 unrelated families, with nine different mutations, described as cases of intrauterine IPEX. Recurrent male fetal death (multigenerational in five families) due to hydrops in the midsemester of pregnancy was the commonest presentation (13/21). Noteworthy, in the affected families, there were only fetal- or perinatal-onset cases, with no affected individuals presenting milder forms with later-life manifestation. Most alive births were preterm (5/6). Skin desquamation and intrauterine growth restriction were observed in part of the cases. Fetal ultrasonography showed hyperechoic bowel or dilated bowel loops in the five cases with available imaging data. Histopathology showed multi-visceral infiltrates with T lymphocytes and other cells, including eosinophils, the pancreas being affected in most of the cases (11/21) and as early as at 18 weeks of gestational age. Regarding the nine FOXP3 mutations found in these cases, six determine protein truncation and three predictably impair protein function. Having found distinct presentations for the same FOXP3 mutation in different families, we resorted to the mouse system and showed that the scurfy mutation also shows divergent severity of phenotype and age of death in C57BL/6 and BALB/c backgrounds. We also reviewed age-of-onset data from other monogenic Tregopathies leading to IPEX-like phenotypes. In monogenic IPEX-like syndromes, the intrauterine onset was only observed in two kindreds with IL2RB mutations, with two stillbirths and two premature neonates who did not survive. In conclusion, intrauterine IPEX cases seem to constitute a particular IPEX subgroup, certainly with the most severe clinical presentation, although no strict mutation-phenotype correlations could be drawn for these cases.
  • article 48 Citação(ões) na Scopus
    Fetal-onset IPEX: Report of two families and review of literature
    (2015) XAVIER-DA-SILVA, Mariana Moraes; MOREIRA-FILHO, Carlos A.; SUZUKI, Edson; PATRICIO, Francy; COUTINHO, Antonio; COUTINHO, Antonio; CARNEIRO-SAMPAIO, Magda
    Early-life autoimmunity is an IPEX characteristic, however intrauterine forms had not yet been described. Here, two unrelated families with clear evidence of fetal-onset IPEX are reported. One had 5 miscarriages of males in two generations, and a newborn presenting type-1 diabetes mellitus immediately after birth, diarrhea, thrombocytopenia, eczematous dermatitis, eosinophilia, high IgE levels and autoantibodies to pancreatic islet antigens at 4-days-old. Maternal serology was negative. He presented a FOXP3 mutation, c.1189C>T, p.Arg397Trp, previously described only in another family with IPEX at birth. The second family had several miscarriages of males in three consecutive generations and a novel FOXP3 c.319_320delTC mutation was observed in two miscarried monochorionic twin male fetuses. These twins died at 21 weeks of gestation due to hydrops, and CD3+ infiltrating lymphocytes were found in their pancreas. We demonstrate that: i) IPEX may develop in fetal life; and ii) c.1189C>T and c.319_320delTC mutations are associated with early-onset phenotype.