cDNA microarray analysis in multiple sclerosis lesions: detection of genes associated with disease activity

doi:10.1093/brain/awg107

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Brain, Vol. 126, No. 5, 1048-1057, May 2003
© 2003 Guarantors of Brain
doi: 10.1093/brain/awg107

cDNA microarray analysis in multiple sclerosis lesions: detection of genes associated with disease activity

Marcin P. Mycko¹, Ruben Papoian², Ursula Boschert², Cedric S. Raine³ and Krzysztof W. Selmaj¹^,3

¹ Department of Neurology, Medical University of Lodz, Lodz, Poland, ² Serono Research Institute, Geneva, Switzerland and ³ Departments of Pathology (Neuropathology) and Neurology, Albert Einstein College of Medicine, New York, USA

Correspondence to: Krzysztof W. Selmaj, MD, PhD, Department of Neurology, Medical University of Lodz, Kopcinskiego Street 22, 90–153 Lodz, Poland E-mail: kselmaj{at}afazja.am.lodz.pl

cDNA microarray analysis of the regions of pathologically provendifferent activity of multiple sclerosis lesions was performed.Major differences in gene expression (DGE) occurred betweenthe lesion margin and lesion centre in active lesions studied(57 and 69 genes differentially expressed, respectively), whereasthe margins and centres of silent lesions showed markedly reducedheterogeneity (only 11 and two genes differentially expressed,respectively). To compare differences between chronic activeand silent lesions, we performed DGE comparison of the pooleddata from both types of lesions. The major DGE occurred at thelesion margin, 156 (26; 5%), the greater number representingupregulated genes at the margin of active lesions (15%). Fourteengenes were found to be significantly upregulated in marginalversus central zones in active lesions examined. These genescomprised predominantly inflammation/immune-related factors.We also performed DGE analysis of pooled genes upregulated atthe margin of active lesions and found that among the 50 genesshowing differences, nine out of 14 were identified in the previousanalysis of overlapping differentially expressed genes. Thusthis microarray analysis has identified a novel set of genesassociated with lesion activity in multiple sclerosis, manyof them not previously linked with the disease.

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