Silvia Serrano-Acedo scite author profile

Global DNA hypomethylation in CD4+ T cells has been detected in systemic lupus erythematosus (SLE), and it seems to be linked to its pathogenesis. We investigated the relationship between overall DNA methylation and the expression of two methyl CpG-binding domain (MBD) proteins. DNA deoxymethylcytosine (d(m)C) content of purified CD4(+) T cells from 29 SLE patients and 30 healthy controls was measured by means of an ELISA. Transcript levels of two methyl CpG-binding proteins (MBD2 and MBD4) were quantified by real-time RT-PCR. Association studies were also carried out with several laboratory parameters, as well as with the patients' clinical manifestations. SLE patients had significantly less CD4+ T cell DNA d(m)C content than controls (0.802+/-0.134 vs. 0.901+/-0.133; P=0.007). MBD2 and MBD4 mRNA levels were considerably higher in the patients' group: 0.975 +/- 0683 versus 0.604 +/- 0.614 (P=0.004) and 0.359 +/- 0.330 versus 0.092 +/- 0.169, respectively (P<0.0005). It is interesting that SLE patients showed a negative correlation between methylation indices and MBD2 (r=-0.609, P<0.0005) and MBD4 (r=-0.395, P=0.034) transcript levels. MBD2 and MBD4 transcript overexpression and inverse correlations with DNA methylation indices indicate that both enzymes may really have a direct and active role on the genome-wide DNA hypomethylation observed in CD4+ T cells from SLE patients.

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Transcript levels of DNA methyltransferases DNMT1, DNMT3A and DNMT3B in CD4⁺T cells from patients with systemic lupus erythematosus

Balada

Ordi‐Ros

Serrano-Acedo

et al. 2008

Immunology

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In mammals, DNA methylation only occurs at cytosine residues found within cytosine-phosphate-guanosine (CpG) dinucleotides and it involves methylation in the fifth carbon of the pyrimidine ring, leading to the formation of 5-methylcytosine (5-m C). The majority of CpG sites (70-80%) in human DNA are methylated and many of the non-methylated sites are found in the so-called CpG islands, which are normally on functioning promoters. Several studies report a strong correlation between DNA methylation and genetic inactivity.1 On the other hand, DNA methylation inhibitors [5-azacytidine (5-aza-C)] are able to re-activate genes that have been previously methylated and silenced.2 Thus, DNA methylation is an epigenetic process linked to the regulation of several biological events, including embryonic development, 3 transcriptional regulation of gene expression, X-chromosome inactivation, genomic 'imprinting', chromatin modification and the silencing of endogenous retroviruses. 4-7Altered DNA-methylation patterns have been detected and widely studied in tumorigenic events. 8The enzymes that methylate DNA are known as DNA cytosine-5-methyltransferases (DNMTs), the most studied among them being DNMT1. DNMT1 prefers hemimethylated DNA as a substrate and therefore will methylate newly replicated DNA only when the template nucleotides are methylated. DNMT1 is constitutively expressed and is required to maintain global methylation after DNA replication has taken place. Recently, other enzymes with the ability to methylate DNA have been identified, including DNMT3A and DNMT3B, which appear to be involved in SummaryGlobal DNA hypomethylation in CD4 + T cells has been detected in systemic lupus erythematosus (SLE) and it seems to be linked to its pathogenesis. We investigated the relationship between overall DNA methylation and the expression of three DNA (cytosine-5) methyltransferases involved in the DNA methylation process. The DNA deoxymethylcytosine (dmC) content of purified CD4 + T cells from 29 SLE patients and 30 healthy controls was measured by means of an enzyme-linked immunosorbent assay (ELISA). The transcript levels of DNA cytosine-5-methyltransferase 1 (DNMT1), DNA cytosine-5-methyltransferase 3A (DNMT3A) and DNA cytosine-5-methyltransferase 3B (DNMT3B) were quantified by real-time reverse transcription-polymerase chain reaction (RT-PCR). Association studies were also carried out with several laboratory parameters, as well as with the patients' clinical manifestations. SLE patients had a significantly lower CD4 + T-cell DNA dmC content than controls (0Á802 ± 0Á134 versus 0Á901 ± 0Á133) (P = 0Á007). No differences in transcript levels were observed for DNMT1, DNMT3A and DNMT3B between patients and controls. The simultaneous association of low complement counts with lymphopenia, high titres of anti-double-stranded DNA (anti-dsDNA), or an SLE disease activity index (SLEDAI) of > 5, resulted in the increase of at least one of the three DNA methyltransferases. It is possible that patients were reacting indirectly to an u...

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Comparative study of the expression of cholinergic system components in the CNS of experimental autoimmune encephalomyelitis mice: Acute vs remitting phase

Pinto

Bari

Martín-Álvarez

et al. 2018

Eur J of Neuroscience

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Acetylcholine (ACh) is involved in the modulation of the inflammatory response. ACh levels are regulated by its synthesizing enzyme, choline acetyltransferase (ChAT), and by its hydrolyzing enzymes, mainly acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE). A more comprehensive understanding of the cholinergic system in experimental autoimmune encephalomyelitis (EAE) disease progression could pave the path for the development of therapies to ameliorate multiple sclerosis (MS). In this work, we analyzed possible alterations of the CNS cholinergic system in the neuroinflammation process by using a MOG-induced EAE mice model. MOG- and vehicle-treated animals were studied at acute and remitting phases. We examined neuropathology and analyzed mRNA expression of ChAT, AChE and the α7 subunit of the nicotinic acetylcholine receptor (α7nAChR), as well as AChE and BuChE enzyme activities, in brain and spinal cord sections during disease progression. The mRNA expression and enzyme activities of these cholinergic markers were up- or down-regulated in many cholinergic areas and other brain areas of EAE mice in the acute and remitting phases of the disease. BuChE was present in a higher proportion of astroglia and microglia/macrophage cells in the EAE remitting group. The observed changes in cholinergic markers expression and cellular localization in the CNS during EAE disease progression suggests their potential involvement in the development of the neuroinflammatory process and may lay the ground to consider cholinergic system components as putative anti-inflammatory therapeutic targets for MS.

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Multiplex family–based study in systemic lupus erythematosus: association between the R620W polymorphism of PTPN22 and the FcγRIIa (CD32A) R131 allele

Balada

Villarreal-Tolchinsky

Ordi‐Ros

et al. 2006

Tissue Antigens

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A functional polymorphism in PTPN22, a gene encoding a phosphatase involved in T-cell signaling, has been associated with autoimmunity. We checked for the prevalence of the PTPN22 R620W polymorphism in multiplex families affected with systemic lupus erythematosus (SLE) and other autoimmune diseases. Its association with other polymorphisms in mannose binding lectin (MBL) and FcgammaRIIa (CD32A) genes was also studied. Deoxyribonucleic acid samples were obtained from 233 Spanish individuals who belonged to 21 families in which at least two members had been diagnosed with some autoimmune disease, mainly SLE. A healthy control population was also included (n= 129). Genotyping for the R620W single-nucleotide polymorphism (SNP) was performed by restriction fragment length polymorphism analysis of polymerase chain reaction products. Allele frequency for the T allele was slightly higher in the families with autoimmune disease, especially when considering the affected individuals (0.094 vs 0.062). Actually, 18.8% affected family members vs 11.6% controls had the polymorphism (P= 0.179). Nineteen percent of affected individuals had both the PTPN22 T and the CD32A R131 alleles, whereas only 8.5% unaffected relatives had both susceptibility alleles simultaneously [P= 0.031, odds ratios 2.508 (95% confidence interval 1.066-5.896)]. The tendency toward finding the T allele more frequently in members affected with some particular autoimmune disorder suggests that this SNP may confer susceptibility to autoimmunity. The fact that more affected than unaffected relatives carried both the T and the R131 alleles simultaneously leads us to think about the existence of a combinatorial effect between genes that could help define individuals prone to autoimmune diseases.

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