Neusa Pereira da Silva scite author profile

The immune system consists of an intricate network of organs, cells, and molecules responsible for maintaining the body's homeostasis and responding to aggression in general. Innate immunity operates in conjunction with adaptive immunity and is characterized by rapid response to aggression, regardless of previous stimulus, being the organism first line of defense. Its mechanisms include physical, chemical and biological barriers, cellular components, as well as soluble molecules. The organism first line of defense against tissue damage involves several steps closely integrated and constituted by different components of this system. The aim of this review is to restore the foundations of this response, which has high complexity and consists of several components that converge to articulate the development of adaptive immune response. We selected some of the following steps to review: perception and molecular recognition of aggressive agents; activation of intracellular pathways, which result in vascular and tissue changes; production of a myriad of mediators with local and systemic effects on cell activation and proliferation, synthesis of new products involved in the chemoattraction and migration of cells specialized in destruction and removal of offending agent; and finally, tissue recovery with restoration of functional tissue or organ.

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Sistema imunitário - parte II: fundamentos da resposta imunológica mediada por linfócitos T e B

Júnior¹,

Araújo²,

Catelan³

et al. 2010

Rev. Bras. Reumatol.

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Increased myeloperoxidase plasma levels in rheumatoid arthritis

Fernandes¹,

Silva

Sato

2011

Rheumatol Int

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High myeloperoxidase (MPO) serum levels have been shown in several inflammatory diseases, including rheumatoid arthritis (RA). However, the correlation between MPO levels and disease activity in RA patients is still controversial. The aim of the study was to determine MPO plasma levels in RA patients and to investigate potential correlations between MPO levels and disease activity and treatment. MPO plasma levels were measured by ELISA according the manufacturer's instructions. Disease activity was measured by DAS28 ESR and DAS28 CRP scores, and patients were classified into 4 groups: group 1 DAS28 < 2.6; group 2: 2.6 ≤ DAS28 ≤ 3.2; group 3: 3.2 < DAS28 ≤ 5.1 and group 4: DAS28 > 5.1. Rheumatoid factor (RF) was measured by latex agglutination test, and anti-cyclic citrullinated peptide (anti-CCP) antibodies were detected by ELISA with a commercial kit. Fifty-seven female RA patients (mean age: 46.02 ± 13.47 years, mean disease duration: 115.77 ± 99.44 months) and sixty gender- and age-paired healthy controls were included. Mean MPO plasma levels were significantly higher in patients than in controls (72.27 pM vs. 40.78 pM, P = 0.007). RF was found in 59.6% and anti-CCP in 80.7% of the RA patients. No significant difference in MPO levels was seen among the four RA disease activity groups. We did not find significant correlation between MPO levels and disease activity as measured by DAS28 score. In conclusion, we observed significantly higher MPO plasma levels in RA patients when compared to healthy controls. However, we did not find correlation between MPO plasma level and disease activity.

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Redefining the Scl-70 indirect immunofluorescence pattern: autoantibodies to DNA topoisomerase I yield a specific compound immunofluorescence pattern

et al. 2009

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Objectives. To report on a novel IIF pattern specifically associated with antibodies to DNA topo I.Methods. A novel compound IF pattern, designated Scl-70 pattern, was characterized in routine ANA-HEp-2 IIF screening. Within the last 3 years, all serum samples presenting the Scl-70 pattern at the ANA-HEp2 IIF screening were tested for anti-topo I reactivity. Conversely, 16 serum samples with known anti-topo I reactivity and affinity-purified anti-topo I antibody preparations were tested for the Scl-70 pattern.Results. The Scl-70 pattern comprised the staining of five cellular regions: nucleus, nucleolus and cytoplasm in interphase cells; nucleolar organizing region (NOR) and chromosomes in mitotic cells. All 81 serum samples selected as Scl-70 pattern reacted with topo I. All 16 anti-topo I samples and antibody preparations reproduced the Scl-70 pattern. This compound IF pattern was consistently observed in different commercial HEp-2 cell slides and in home-made slides with HEp-2 cells and human fibroblasts fixed with alternative protocols. Double IIF experiments demonstrated the co-localization of topo I and human upstream binding factor at the NOR.Conclusions. The Scl-70 pattern belongs to the group of compound IF patterns that hold strong association with the respective autoantibody specificities, such as that observed with centromere protein F (CENP-F) and nuclear mitotic apparatus-1 (NuMA-1) protein. The identification of the Scl-70 pattern at routine ANA-HEp-2 IIF screening may lead to implementation of specific tests for the identification of anti-topo I antibodies. In addition, the Scl-70 pattern outlines cellular domains other than those previously reported for topo I, which is of interest for further understanding the roles of this enzyme in cell biology.

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Increased plasma myeloperoxidase levels in systemic lupus erythematosus

et al. 2009

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The objective of the study was to quantify plasma myeloperoxidase (MPO) levels in systemic lupus erythematosus (SLE) patients and to evaluate a correlation between MPO levels and disease activity. 71 female SLE patients and 70 controls were studied. Patients were divided into two groups: Group I (n = 48) with SLEDAI-2K score 0-5 and Group II (n = 23) with SLEDAI-2K score > or = 6. Mann-Whitney test and Spearman rank correlation were used. Two-sided P values < 0.05 were considered significant and P values > or = 0.05 and < 0.08 were considered as a tendency. The median age of patients and controls were comparable and the mean disease duration was 99.2 +/- 61.7 months. MPO levels were higher in patients than controls [5.99 (4.38-8.64) vs. 5.00 (3.33-7.08) ng/ml, P = 0.02]. We did not find correlation between MPO levels and SLEDAI-2k (r = 0.07, P = 0.58). MPO levels were not affected by treatment with prednisone, cyclophosphamide or azathioprine, however, a tendency of lower levels was observed among patients under antimalarial drugs. There was no significant difference in MPO plasma levels between Group I and Group II (5.83 vs. 6.02 ng/ml, P = 0.99). MPO levels were higher in patients with arthritis than in those without arthritis (8.15 vs. 5.56 ng/ml, P = 0.010). No difference was observed among patients with and without other organs/systems involvement. SLE patients presented increased MPO plasma levels than healthy controls. Despite the lack of correlation between MPO plasma levels and disease activity, the higher MPO levels in patients with articular involvement suggests MPO may play a different role in the inflammatory process of some SLE manifestations.

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