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Blood, 15 August 2003, Vol. 102, No. 4, pp. 1554-1555 Silencing of the SOCS-1 gene by CpG methylation?Correspondence: Ingo Melzner, Institute of Pathology, University of Ulm, Albert Einstein Allee 11, D-89081 Ulm, Germany; e-mail: ingo.melzner{at}medizin.uni-ulm.de There is wide acceptance that methylation of cytosine in cytosine-phosphate-guanosine (CpG)–dense sequences (CpG islands) located within the promoters of many genes plays an important regulatory role in mammalian gene expression, contributing to X-chromosomal inactivation, genomic imprinting, as well as transcriptional regulation of tissue-specific genes during cellular differentiation.1-3 Besides this epigenetic mechanism of gene silencing by DNA methylation observed in normal cells and tissues, global genomic hypomethylation, accompanied by hypermethylation of CpG islands in promoter regions, is a common characteristic in neoplastic cells.4 Chromosomal hypomethylation is thought to promote chromosomal instability. Hypermethylation of CpG islands is associated with the inactivation of virtually all pathways involved with the neoplastic process, including DNA repair (eg, hMLH1, BRCA1, MGMT), cell cycle regulation (eg, p16(INK4a), PTEN, RB), inflammatory/stress response (eg, COX-2), and apoptosis (eg, DAPK, APAF-1). The methylation status of CpG islands within promoter sequences works as an essential regulatory element by modifying the binding affinity of transcription factors toward its cognate DNA binding sites. Furthermore, transcriptional repression is achieved by proteins (eg, methyl-CpG-binding protein 1, methyl-CpG-binding domain protein 2) that bind to promoter-proximal methylated DNA sequences, thereby maintaining the condensed nucleosomal structure of nontranscribed genes.5,6
Recently, SOCS-1 was described as able to function as a new potential tumor suppressor.7 The protein families of suppressors of cytokine signaling (SOCS-1 to -7), also known as signal transducer and activator of transcription (STAT)–induced STAT inhibitors (SSIs), are members of cytokine-inducible negative regulators of cytokine signaling. SOCS expression is induced by a subset of cytokines, including interleukin-2 (IL2), IL3, erythropoietin, and interferon- The human SOCS-1 gene maps to chromosome 16p13.2 and spans about 2.2 kilobase (kb) within a conserved protamine gene cluster. The sequence was submitted to GenBank (accession no. Z46940 [GenBank] ). A CpG island (441 bp length, 72.8% CG, CG observed/expected 0.86) is located within the promoter region upstream of the untranslated exon 1 of the gene consisting of 2 exons. The SOCS-1 cDNA includes exon 2 coding for a 211–amino acid protein. We read with interest the article by Galm et al9 in which these authors show that the expression of the SOCS-1 gene is silenced by DNA methylation in multiple myeloma. In essence, these data correspond to results published by the same group in Nature Genetics suggesting that aberrant methylation of the SOCS-1 gene correlates with its transcriptional silencing in hepatocellular carcinoma cell lines.10 While searching for genes containing CpG-rich promoter sites probably regulated by methylation and involved in cell cycle regulation of B-cell malignancies, we identified SOCS-1 as a candidate. Controlling the cited primer sequences for methylation-specific polymerase chain reaction of the SOCS-1 gene by Galm et al,9 we found them, to our big surprise, located within the coding region of exon 2 and not, as expected, in the CpG island of the SOCS-1 promoter (Figure 1). As far as we know and as positively stated by the authors,9 gene silencing by CpG methylation functions via aberrant methylation of promoter sequences with the consequent inhibition of the transcriptional machinery. We kindly ask whether these authors have information inaccessible to us about CpG methylation-sensitive regulatory elements in exon 2 of the SOCS-1 gene that regulate its expression.
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Response:Response: CpG island methylation: location mattersDrs Melzner and Möller raise important issues concerning the methylation abnormalities, which are applicable to the epigenetic silencing mechanism in general, described in the SOCS-1 gene. The authors are correct in finding that the primers that were used for methylation-specific polymerase chain reaction (MSP) are located within what is now termed exon 2 of the SOCS-1 gene. This location is unusual in that, as their letter indicates, methylation of the promoters of specific genes is associated with gene silencing. Our choice of this region must be understood in the context of how we came to study methylation of the SOCS-1 gene. Our attention to SOCS-1 as a potential target of methylation changes was the result of a screening technique called restriction landmark genome scanning (RLGS), which identifies cancer alterations based on 2-dimensional gel analysis. As has been well documented,1 most cancer alterations are due to methylation of the NotI site commonly used in RLGS, as was the case for SOCS-1. Since the NotI site was located in the region characterized as exon 1 of the SOCS-1 gene at that time, and our genomic bisulfite sequencing confirmed this methylation change associated with loss of gene expression, this suggested that the location of MSP primers at this NotI site would be useful in correlating this epigenetic change with lack of SOCS-1 expression.2The recently published study3 extended the analysis of methylation of the cytosine-phosphate-guanosine (CpG) island to multiple myeloma and examined this same region. As demonstrated,3 methylation of this region of SOCS-1 was found in multiple myeloma cell lines that did not express SOCS-1 mRNA and was not present in normal peripheral blood mononuclear cells that express SOCS-1. Furthermore, treatment of myeloma cell lines methylated at SOCS-1 with demethylating agents resulted in restoration of gene expression, demonstrating the importance of methylation changes for gene silencing.3 However, throughout this report,3 we were careful to refer to our findings as methylation of SOCS-1 and as not methylation of the SOCS-1 promoter. As the sequencing results of SOCS-1 methylation demonstrate,2 it is not a specific methylation pattern that is associated with gene silencing, but a regional increase in methylation that changes chromatin conformation and leads to gene inactivation. In this respect, it is important to recognize that the current "exon 2," which includes the NotI site and the MSP primer location, is part of a single, continuous CpG island that extends 5' to include the newly identified exon 1 and approximately 1000 bp further 5'. Although varying criteria exist for a CpG island, this area of SOCS-1 with increased CpG frequency incorporates 2.5 bp of sequence. A portion of this region shown in Figure 1 shows the distribution of CpG sites. Thus, methylation of this area of the SOCS-1 gene studied is not separate from the upstream region where transcription initiates. It remains to be proved as to whether the region studied3 is the best location to examine methylation changes in the SOCS-1 gene. However, this region demonstrates tumor-specific methylation2,3 that correlates with loss of gene expression,2,3 two important criteria when methylation changes are examined.
Correspondence: James G. Herman, The Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins, 1650 Orleans, Baltimore, MD 21231; e-mail: hermanji{at}jhmi.edu
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