Retno Sutomo scite author profile

Spinal muscular atrophy (SMA) is a common autosomal recessive neuromuscular disorder that is characterized by degeneration of the anterior horn cells of the spinal cord, which leads to the axial and limb weakness associated with muscle atrophy. SMA is classified into three groups based on the clinical severity: type I (severe), type II (intermediate) and type III (mild). All three clinical subtypes of SMA are caused by mutations of the SMN1 gene. More than 95 % of SMA patients show homozygous deletion of SMN1. It is thought that SMN2, which is a highly homologous gene of SMN1, compensates for the SMN1 deletion to some degree. To clarify the relationship between SMN2 and the disease severity of SMA, we performed fluorescence-based quantitative polymerase chain reaction assay of the copy number of SMN2 in 27 patients (11 type I and 16 type II-III) homozygous for SMN1 deletion. The SMN2 copy number in type II-III patients was 3.1 +/- 0.3 (mean +/- SD), which is significantly higher than that observed in type I patients, 2.2 +/- 0.6 (P < 0.01). However, three of the 11 type I patients carried 3 SMN2 copies. A type I patient with 3 SMN2 copies was studied further. RT-PCR analysis of the patient showed a trace of full-length SMN2 mRNA species, but a large amount of the truncated SMN2 mRNA species lacking exon 7. In conclusion, SMN2 alleles are not functionally equivalent among SMA patients, although in general the SMN2 copy number is correlated with the severity of SMA. Genetic background influencing splicing mechanisms of the SMN2 gene may be more critical in some SMA patients.

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A novel mutation at the N-terminal of SMN Tudor domain inhibits its interaction with target proteins

Kotani

Sutomo

Sasongko

et al. 2007

J Neurol

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Although most patients with spinal muscular atrophy (SMA) are homozygous for deletion of the SMN1 gene, some patients bear one SMN1 copy with a subtle mutation. Detection of such an intragenic mutation may be helpful not only in confirming diagnosis but also in elucidating functional domains of the SMN protein. In this study, we identified a novel mutation in SMN1 of two Japanese patients with type I SMA. DHPLC and sequencing analysis revealed that they harbored a point mutation in SMN1 exon 3, 275G > C, leading to tryptophan-to-serine substitution at amino acid 92 (W92S) at the Nterminal of SMN Tudor domain. In-vitro protein binding assays showed that the mutation severely reduced interaction of the domain with SmB protein and fibrillarin, suggesting that it impairs the critical function of SMN. In conclusion, we reported here that a novel mutation, W92S, in the Tudor domain affects the interaction of SMN with the target proteins.

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Switch From Oral to Inactivated Poliovirus Vaccine in Yogyakarta Province, Indonesia: Summary of Coverage, Immunity, and Environmental Surveillance

Wahjuhono¹,

Revolusiana²,

Widhiastuti³

et al. 2014

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Screening for G71R mutation of the UGT1A1 gene in the Javanese‐Indonesian and Malay‐Malaysian populations

Sutomo

Talib²,

Yusoff³

et al. 2004

Pediatrics International

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Rapid SMN1 deletion test using DHPLC to screen patients with spinal muscular atrophy

et al. 2002

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Retno Sutomo

Correlation between SMN2 copy number and clinical phenotype of spinal muscular atrophy: three SMN2 copies fail to rescue some patients from the disease severity

A novel mutation at the N-terminal of SMN Tudor domain inhibits its interaction with target proteins

Switch From Oral to Inactivated Poliovirus Vaccine in Yogyakarta Province, Indonesia: Summary of Coverage, Immunity, and Environmental Surveillance

Screening for G71R mutation of the UGT1A1 gene in the Javanese‐Indonesian and Malay‐Malaysian populations

Rapid SMN1 deletion test using DHPLC to screen patients with spinal muscular atrophy

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