Background and purpose: Progranulin (PGRN) expression is increased in activated microglia in Alzheimer's disease (AD) brain, suggesting a potential role in this pathology. Methods: A mutation scanning of exons and flanking regions of PGRN was carried out in 120 patients with sporadic frontotemporal lobar degeneration and 145 with sporadic AD. Results: Amongst variants not yet deposited, a novel allelic variant was identified in Exon 1 (g100169G > A). It leads to an amino acidic change (p.Gly35Arg) and was observed in a patient with late onset AD. In silico analysis predicted that this mutation is possibly damaging. A second variant (g.100165C > T), resulting in a silent mutation (pAsp33Asp), was found in a patient with semantic dementia and in another with early onset AD. Both variants were absent in 226 controls. In addition, two rare non-pathogenic variants lying very close to PGRN splice-site regions (IVS2 + 7→G > A and IVS7 + 7→G > A) were observed. Transcriptional analysis in peripheral blood mononuclear cells from patients demonstrated they do not affect exon splicing. Conclusions: A novel putative PGRN mutation leading to an amino acidic substitution was identified in a patient with clinical AD. © 2008 The Author(s).
Cortini, F., Fenoglio, C., Guidi, I., Venturelli, E., Pomati, S., Marcone, A., et al. (2008). Novel exon 1 progranulin gene variant in Alzheimer's disease. EUROPEAN JOURNAL OF NEUROLOGY, 15(10), 1111-1117 [10.1111/j.1468-1331.2008.02266.x].
Novel exon 1 progranulin gene variant in Alzheimer's disease
Villa C.;
2008
Abstract
Background and purpose: Progranulin (PGRN) expression is increased in activated microglia in Alzheimer's disease (AD) brain, suggesting a potential role in this pathology. Methods: A mutation scanning of exons and flanking regions of PGRN was carried out in 120 patients with sporadic frontotemporal lobar degeneration and 145 with sporadic AD. Results: Amongst variants not yet deposited, a novel allelic variant was identified in Exon 1 (g100169G > A). It leads to an amino acidic change (p.Gly35Arg) and was observed in a patient with late onset AD. In silico analysis predicted that this mutation is possibly damaging. A second variant (g.100165C > T), resulting in a silent mutation (pAsp33Asp), was found in a patient with semantic dementia and in another with early onset AD. Both variants were absent in 226 controls. In addition, two rare non-pathogenic variants lying very close to PGRN splice-site regions (IVS2 + 7→G > A and IVS7 + 7→G > A) were observed. Transcriptional analysis in peripheral blood mononuclear cells from patients demonstrated they do not affect exon splicing. Conclusions: A novel putative PGRN mutation leading to an amino acidic substitution was identified in a patient with clinical AD. © 2008 The Author(s).
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