Cristina M. Junta
University of São Paulo
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Featured researches published by Cristina M. Junta.
Radiation Research | 2007
Ana Lúcia Fachin; Stephano S. Mello; Paula Sandrin-Garcia; Cristina M. Junta; Eduardo A. Donadi; Geraldo A. Passos; Elza T. Sakamoto-Hojo
Abstract Fachin, A. L., Mello, S. S., Sandrin-Garcia, P., Junta, C. M., Donadi, E. A., Passos, G. A. S. and Sakamoto-Hojo, E. T. Gene Expression Profiles in Human Lymphocytes Irradiated In Vitro with Low Doses of Gamma Rays. Radiat. Res. 168, 650–665 (2007). The molecular mechanisms underlying responses to low radiation doses are still unknown, especially in normal lymphocytes, despite the evidence suggesting specific changes that may characterize cellular responses. Our purpose was to analyze gene expression profiles by DNA microarrays in human lymphocytes after in vitro irradiation (10, 25 and 50 cGy) with γ rays. A cytogenetic analysis was also carried out for different radiation doses. G0 lymphocytes were irradiated and induced to proliferate for 48 h; then RNA samples were collected for gene expression analysis. ANOVA was applied to data obtained in four experiments with four healthy donors, followed by SAM analysis and hierarchical clustering. For 10, 25 and 50 cGy, the numbers of significantly (FDR ≤ 0.05) modulated genes were 86, 130 and 142, respectively, and 25, 35 and 33 genes were exclusively modulated for each dose, respectively. We found CYP4X1, MAPK10 and ATF6 (10 cGy), DUSP16 and RAD51L1 (25 cGy), and RAD50, REV3L and DCLRE1A (50 cGy). A set of 34 significant genes was common for all doses; while SERPINB2 and C14orf104 were up-regulated, CREB3L2, DDX49, STK25 and XAB2 were down-regulated. Chromosome damage was significantly induced for doses ≥10 cGy (total aberrations) and ≥50 cGy (dicentrics/ rings). Therefore, low to moderate radiation doses induced qualitative and/or quantitative differences and similarities in transcript profiles, reflecting the type and extent of DNA lesions. The main biological processes associated with modulated genes were metabolism, stress response/DNA repair, cell growth/differentiation, and transcription regulation. The results indicate a potential risk to humans regarding the development of genetic instability and acquired diseases.
Journal of Biomedical Materials Research Part A | 2009
Karina Fittipaldi Bombonato-Prado; L.S. Bellesini; Cristina M. Junta; Márcia Martins Marques; Geraldo A. Passos; Adalberto Luiz Rosa
Several biomaterials have been widely used in bone regeneration/substitution procedures in orthopedic and oral surgery. However, how these biomaterials alter osteoblast gene expression is poorly understood. We therefore attempted to address this question by using cDNA microarray technique to identify genes that are differentially regulated in osteoblasts exposed to biomaterials comprehending the biocompatibility spectrum of bioactive (bioglass and hydroxyapatite), bioinert (Ti and stainless steel), and biotolerant (polymethylmethacrylate). By using a cDNA microarray containing 687 human IMAGE sequences, we identified in primary cultures of osteoblastic cells differentiated from the human bone marrow and exposed to these biomaterials, genes whose expression was significantly upregulated or downregulated. Among the differentially expressed genes we have found those involved with cell cycle regulation, cell differentiation and proliferation, apoptosis, cell adhesion, bone mineralization and skeletal development. These results can be relevant to a better understanding of the molecular mechanism underlying the behavior of osteoblasts in bone regenerative procedures.
Clinical & Developmental Immunology | 2006
Danielle Aparecida Rosa de Magalhães; Eduardo L. V. Silveira; Cristina M. Junta; Paula Sandrin-Garcia; Ana Lúcia Fachin; Eduardo A. Donadi; Elza T. Sakamoto-Hojo; Geraldo A. Passos
The thymus is a complex organ with an epithelium formed by two main cell types, the cortical thymic epithelial (cTECs) and medullary thymic epithelial cells (mTECs), referred to as stroma. Immature thymocytes arising from the bone marrow, macrophages and dendritic cells also populate the thymus. Thymocytes evolve to mature T cells featuring cell differentiation antigens (CDs), which characterize the phenotypically distinct stages, defined as double-negative (DN), double positive (DP) and single positive (SP), based on expression of the coreceptors CD4 and CD8. The thymus is therefore implicated in T cell differentiation and during development into T cells thymocytes are in close association with the stroma. Recent evidence showed that mTECs express a diverse set of genes coding for parenchymal organ specific proteins. This phenomenon has been termed promiscuous gene expression (PGE) and has led to the reconsideration of the role of the thymus in central T cell tolerance to self-antigens, which prevents autoimmunity. The evidence of PGE is causing a reanalysis in the scope of central tolerance understanding. We summarize the evidence of PGE in the thymus, focusing particularly the use of cDNA microarray technology for the broad characterization of gene expression and demarcation of PGE emergence during thymus ontogeny.
Immunology | 2009
Cristina M. Junta; Paula Sandrin-Garcia; Ana Lúcia Fachin-Saltoratto; Stephano S. Mello; Renê Donizeti Ribeiro de Oliveira; Diane Meyre Rassi; Silvana Giuliatti; Elza T. Sakamoto-Hojo; Paulo Louzada-Junior; Eduardo A. Donadi; Geraldo A. Passos
This study aimed to evaluate the association between the differential gene expression profiling of peripheral blood mononuclear cells of rheumatoid arthritis patients with their immunogenetic (human leucocyte antigen shared‐epitope, HLA‐SE), autoimmune response [anti‐cyclic citrullinated peptide (CCP) antibodies], disease activity score (DAS‐28) and treatment (disease‐modifying antirheumatic drugs and tumour necrosis factor blocker) features. Total RNA samples were copied into Cy3‐labelled complementary DNA probes, hybridized onto a glass slide microarray containing 4500 human IMAGE complementary DNA target sequences. The Cy3‐monocolour microarray images from patients were quantified and normalized. Analysis of the data using the significance analysis of microarrays algorithm together with a Venn diagram allowed the identification of shared and of exclusively modulated genes, according to patient features. Thirteen genes were exclusively associated with the presence of HLA‐SE alleles, whose major biological function was related to signal transduction, phosphorylation and apoptosis. Ninety‐one genes were associated with disease activity, being involved in signal transduction, apoptosis, response to stress and DNA damage. One hundred and one genes were associated with the presence of anti‐CCP antibodies, being involved in signal transduction, cell proliferation and apoptosis. Twenty‐eight genes were associated with tumour necrosis factor blocker treatment, being involved in intracellular signalling cascade, phosphorylation and protein transport. Some of these genes had been previously associated with rheumatoid arthritis pathogenesis, whereas others were unveiled for future research.
Journal of Gene Medicine | 2009
Carlos Rodrigo Zárate Bladés; Vânia Luiza Deperon Bonato; Eduardo Lani Volpe da Silveira; Marina Oliveira e Paula; Cristina M. Junta; Paula Sandrin-Garcia; Ana Lúcia Fachin; Stephano S. Mello; Renato Cardoso; Fabio C. S. Galetti; Arlete A. M. Coelho-Castelo; Simone G. Ramos; Eduardo A. Donadi; Elza T. Sakamoto-Hojo; Geraldo A. Passos; Célio Lopes Silva
The continued increase in tuberculosis (TB) rates and the appearance of extremely resistant Mycobacterium tuberculosis strains (XDR‐TB) worldwide are some of the great problems of public health. In this context, DNA immunotherapy has been proposed as an effective alternative that could circumvent the limitations of conventional drugs. Nonetheless, the molecular events underlying these therapeutic effects are poorly understood.
Immunology | 2006
Renato Cardoso; Danielle Aparecida Rosa de Magalhães; Ana Maria T. Baião; Cristina M. Junta; Claudia Macedo; Márcia M.C. Marques; Elza T. Sakamoto-Hojo; Eduardo A. Donadi; Geraldo A. Passos
T‐cell differentiation and induction of tolerance to self‐antigens occurs mainly in the thymus. Thymic stromal cells, specifically medullary thymic epithelial cells, express a diverse set of genes encoding parenchymal organ‐specific proteins. This phenomenon has been termed promiscuous gene expression (PGE) and has been implicated in preventing organ‐specific autoimmunity by inducing T‐cell tolerance to self antigens. Early thymopoiesis and the critical factors involved in T‐cell differentiation can be reproduced in vitro by murine fetal thymus organ culture (FTOC), which mimics the natural thymic microenvironment. To evaluate the occurrence of PGE in FTOC, gene expression profiling during in vitro thymic development in BALB/c mice was performed using a set of nylon cDNA microarrays containing 9216 sequences. The statistical analysis of the microarray data (sam program) revealed the temporal repression and induction of 57 parenchymal and seven lymphoid organ‐specific genes. Most of the genes analysed are repressed during early thymic development (15–17 days post‐coitum). The expression of the autoimmune regulator (AIRE) gene at 16 days post‐coitum marks the onset of PGE. This precedes the induction of parenchymal organ genes during the late developmental phase at 20 days post‐coitum. The mechanism of T‐cell tolerance induction begins during fetal development and continues into adulthood. Our findings are significant because they show a fine demarcation of PGE onset, which plays a central role in induction of T‐cell tolerance.
Molecular Immunology | 2009
Claudia Macedo; Adriane F. Evangelista; Danielle Aparecida Rosa de Magalhães; Thaís A. Fornari; Leandra L. Linhares; Cristina M. Junta; Guilherme Frederico Bernardo Lenz e Silva; Elza T. Sakamoto-Hojo; Eduardo A. Donadi; Wilson Savino; Geraldo A. Passos
The expression of peripheral tissue antigens (PTAs) in the thymus by medullary thymic epithelial cells (mTECs) is essential for the central self-tolerance in the generation of the T cell repertoire. Due to heterogeneity of autoantigen representation, this phenomenon has been termed promiscuous gene expression (PGE), in which the autoimmune regulator (Aire) gene plays a key role as a transcription factor in part of these genes. Here we used a microarray strategy to access PGE in cultured murine CD80(+) 3.10 mTEC line. Hierarchical clustering of the data allowed observation that PTA genes were differentially expressed being possible to found their respective induced or repressed mRNAs. To further investigate the control of PGE, we tested the hypothesis that genes involved in this phenomenon might also be modulated by transcriptional network. We then reconstructed such network based on the microarray expression data, featuring the guanylate cyclase 2d (Gucy2d) gene as a main node. In such condition, we established 167 positive and negative interactions with downstream PTA genes. Silencing Aire by RNA interference, Gucy2d while down regulated established a larger number (355) of interactions with PTA genes. T- and G-boxes corresponding to AIRE protein binding sites located upstream to ATG codon of Gucy2d supports this effect. These findings provide evidence that Aire plays a role in association with Gucy2d, which is connected to several PTA genes and establishes a cascade-like transcriptional control of promiscuous gene expression in mTEC cells.
The Journal of Rheumatology | 2012
Renê Donizeti Ribeiro de Oliveira; Vanessa Fontana; Cristina M. Junta; Márcia M.C. Marques; Claudia Macedo; Diane Meyre Rassi; Geraldo A. Passos; Eduardo A. Donadi; Paulo Louzada-Junior
Objective. We aimed to evaluate whether the differential gene expression profiles of patients with rheumatoid arthritis (RA) could distinguish responders from nonresponders to methotrexate (MTX) and, in the case of MTX nonresponders, responsiveness to MTX plus anti-tumor necrosis factor-α (anti-TNF) combined therapy. Methods. We evaluated 25 patients with RA taking MTX 15–20 mg/week as a monotherapy (8 responders and 17 nonresponders). All MTX nonresponders received infliximab and were reassessed after 20 weeks to evaluate their anti-TNF responsiveness using the European League Against Rheumatism response criteria. A differential gene expression analysis from peripheral blood mononuclear cells was performed in terms of hierarchical gene clustering, and an evaluation of differentially expressed genes was performed using the significance analysis of microarrays program. Results. Hierarchical gene expression clustering discriminated MTX responders from nonresponders, and MTX plus anti-TNF responders from nonresponders. The evaluation of only highly modulated genes (fold change > 1.3 or < 0.7) yielded 5 induced (4 antiapoptotic and CCL4) and 4 repressed (4 proapoptotic) genes in MTX nonresponders compared to responders. In MTX plus anti-TNF non-responders, the CCL4, CD83, and BCL2A1 genes were induced in relation to responders. Conclusion. Study of the gene expression profiles of RA peripheral blood cells permitted differentiation of responders from nonresponders to MTX and anti-TNF. Several candidate genes in MTX non-responders (CCL4, HTRA2, PRKCD, BCL2A1, CAV1, TNIP1, CASP8AP2, MXD1, and BTG2) and 3 genes in MTX plus anti-TNF nonresponders (CCL4, CD83, and BCL2A1) were identified for further study.
Annals of the New York Academy of Sciences | 2009
Paula Sandrin-Garcia; Cristina M. Junta; Ana Lúcia Fachin; Stephano S. Mello; Ana Maria T. Baião; Diane M. Rassi; Márcia Cristina T. Ferreira; Glauce L. Trevisan; Elza T. Sakamoto-Hojo; Paulo Louzada-Junior; Geraldo A. Passos; Eduardo A. Donadi
Patients presenting with active systemic lupus erythematosus (SLE) manifestations may exhibit distinct pathogenetic features in relation to inactive SLE. Also, cDNA microarrays may potentially discriminate the gene expression profile of a disease or disease variant. Therefore, we evaluated the expression profile of 4500 genes in peripheral blood lymphocytes (PBL) of SLE patients. We studied 11 patients with SLE (seven with active SLE and four with inactive SLE) and eight healthy controls. Total RNA was isolated from PBL, reverse transcribed into cDNA, and postlabeled with Cy3 fluorochrome. These probes were then hybridized to a glass slide cDNA microarray containing 4500 human IMAGE cDNA target sequences. An equimolar amount of total RNA from human cell lines served as reference. The microarray images were quantified, normalized, and analyzed using the R environment (ANOVA, significant analysis of microarrays, and cluster‐tree view algorithms). Disease activity was assessed by the SLE disease activity index. Compared to the healthy controls, 104 genes in active SLE patients (80 repressed and 24 induced) and 52 genes in nonactive SLE patients (31 induced and 21 repressed) were differentially expressed. The modulation of 12 genes, either induced or repressed, was found in both disease variants; however, each disease variant had differential expression of different genes. Taken together, these results indicate that the two lupus variants studied have common and unique differentially expressed genes. Although the biological significance of the differentially expressed genes discussed above has not been completely understood, they may serve as a platform to further explore the molecular basis of immune deregulation in SLE.
Environmental and Molecular Mutagenesis | 2011
Stephano S. Mello; Ana Lúcia Fachin; Cristina M. Junta; Paula Sandrin-Garcia; Eduardo A. Donadi; Geraldo A. Passos; Elza T. Sakamoto-Hojo
Ionizing radiation (IR) is used in a wide variety of medical and nonmedical applications and poses a potential threat to human health. Knowledge of changes in gene expression in irradiated cells may be helpful for the establishment of effective paradigms for radiation protection. IR‐induced DNA damage triggers a complex cascade of signal transduction. Recently, genome‐wide approaches have allowed the detection of alterations in gene expression across a wide range of radiation doses. However, the delayed or long‐term biological effects of mild‐doses of IR remain largely unknown. The main objective of the present study was to investigate the effects of a moderate dose of gamma‐rays (50 cGy) on gene expression 6 days post‐irradiation. Gene expression using cDNA microarrays revealed statistically significant changes in the expression of 59 genes (FDR < 0.07), whose functions are related to cell‐cycle control, protein trafficking, ubiquitin cycle, Rho‐GTPAse pathway, protein phosphatase signalization, oxidoreductase control, and stress response. A set of 464 genes was also selected by a less stringent approach, and we demonstrate that this broader set of genes can efficiently distinguish the irradiated samples from the unirradiated, defining a long‐term IR signature in human primary fibroblasts. Our findings support the existence of persistent responses to mild doses of IR detectable by changes in gene expression profiles. These results provide insight into delayed effects observed in human primary cells as well as the role of long‐term response in neoplastic transformation. Environ. Mol. Mutagen. 52:117–129, 2011.