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Literature DB >> 18550699

New SMS mutation leads to a striking reduction in spermine synthase protein function and a severe form of Snyder-Robinson X-linked recessive mental retardation syndrome.

G de Alencastro, D E McCloskey, S E Kliemann, C M C Maranduba, A E Pegg, X Wang, D R Bertola, C E Schwartz, M R Passos-Bueno, A L Sertié.

Abstract

We report the identification of a novel mutation at a highly conserved residue within the N-terminal region of spermine synthase (SMS) in a second family with Snyder-Robinson X-linked mental retardation syndrome (OMIM 309583). This missense mutation, p.G56S, greatly reduces SMS activity and leads to severe epilepsy and cognitive impairment. Our findings contribute to a better delineation and expansion of the clinical spectrum of Snyder-Robinson syndrome, support the important role of the N-terminus in the function of the SMS protein, and provide further evidence for the importance of SMS activity in the development of intellectual processing and other aspects of human development.

Entities: Disease Gene Mutation Species

Mesh：

Substances：
Spermine Synthase

Year: 2008 PMID： 18550699 DOI： 10.1136/jmg.2007.056713

Source DB: PubMed Journal: J Med Genet ISSN： 0022-2593 Impact factor: 6.318

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Cited

28 in total

Review 1. Mammalian polyamine metabolism and function.

Authors: Anthony E Pegg
Journal: IUBMB Life Date: 2009-09 Impact factor: 3.885

2. N(8)-acetylspermidine as a potential plasma biomarker for Snyder-Robinson syndrome identified by clinical metabolomics.

Authors: Lucia Abela; Luke Simmons; Katharina Steindl; Bernhard Schmitt; Massimo Mastrangelo; Pascal Joset; Mihaela Papuc; Heinrich Sticht; Alessandra Baumer; Lisa M Crowther; Déborah Mathis; Anita Rauch; Barbara Plecko
Journal: J Inherit Metab Dis Date: 2015-07-15 Impact factor: 4.982

New SMS mutation leads to a striking reduction in spermine synthase protein function and a severe form of Snyder-Robinson X-linked recessive mental retardation syndrome.

Review 1. Mammalian polyamine metabolism and function.

2. N(8)-acetylspermidine as a potential plasma biomarker for Snyder-Robinson syndrome identified by clinical metabolomics.

Review 3. Current status of the polyamine research field.

4. Characterization of transgenic mice with overexpression of spermidine synthase.

5. A rational free energy-based approach to understanding and targeting disease-causing missense mutations.

6. Molecular analyses of neurogenic defects in a human pluripotent stem cell model of fragile X syndrome.

7. (R,R)-1,12-Dimethylspermine can mitigate abnormal spermidine accumulation in Snyder-Robinson syndrome.

8. Sequence feature-based prediction of protein stability changes upon amino acid substitutions.

9. Association of polyaminergic loci with anxiety, mood disorders, and attempted suicide.

10. The impact of spermine synthase (SMS) mutations on brain morphology.