Snyder-Robinson syndrome is a rare form of X-linked intellectual disability caused by mutations in the spermine synthase (SMS) gene, and characterized by intellectual disability, thin habitus with diminished muscle mass, osteoporosis, kyphoscoliosis, facial dysmorphism (asymmetry, full lower lip), long great toes, and nasal or dysarthric speech. Physical signs seem to evolve from childhood to adulthood. We describe the first Italian patient with Snyder-Robinson syndrome and a novel nonsense mutation in SMS (c.200G>A; p.G67X). Apart from the typical features of the syndrome, the index patient presented with an ectopic right kidney and epilepsy from the first year of age that was characterized by focal motor seizures and negative myoclonus. The clinical and molecular evaluation of this family and the review of the literature expand the phenotype of Snyder-Robinson syndrome to include myoclonic or myoclonic-like seizures (starting even in the first years of life) and renal abnormalities in affected males.
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Identification of a Rare Branch Point Variant in the SMS Gene in a Large Family With a Severe Form of Snyder-Robinson Syndrome.
Clin Genet
November 2024
Service de Génétique, Centre Hospitalier Régional Universitaire de Tours, Tours, France.
Identification of the first pathogenic branch point variant in the SMS gene in a large French non-consanguineous family with a phenotype retrospectively consistent with Snyder-Robinson syndrome. RT-PCR analysis followed by RNA-sequencing demonstrated that this variant, lead to the synthesis of a predominant aberrant transcript with complete intron 6 retention.
View Article and Find Full Text PDFInactivation of spermine synthase in mice causes osteopenia due to reduced osteoblast activity.
J Bone Miner Res
October 2024
Department of Osteology and Biomechanics, University Medical Center Hamburg-Eppendorf, Hamburg 20246, Hamburg, Germany.
Spermine synthase, encoded by the SMS gene, is involved in polyamine metabolism, as it is required for the synthesis of spermine from its precursor molecule spermidine. Pathogenic variants of SMS are known to cause Snyder-Robinson syndrome (SRS), an X-linked recessive disorder causing various symptoms, including intellectual disability, muscular hypotonia, infertility, but also skeletal abnormalities, such as facial dysmorphisms and osteoporosis. Since the impact of a murine SMS deficiency has so far only been analyzed in Gy mice, where a large genomic deletion also includes the neighboring Phex gene, there is only limited knowledge about the potential role of SMS in bone cell regulation.
View Article and Find Full Text PDFStructural Insights into the Mechanisms Underlying Polyaminopathies.
Int J Mol Sci
June 2024
Cooperative Innovation Center of Industrial Fermentation (Ministry of Education & Hubei Province), Key Laboratory of Fermentation Engineering (Ministry of Education), Wuhan 430068, China.
Article Synopsis
- Polyamines are essential compounds found in nearly all living organisms, playing key roles in various physiological processes and being linked to multiple diseases.
- Polyaminopathies are rare genetic disorders caused by faulty proteins in the polyamine metabolism network, posing risks for affected individuals and their descendants.
- This review discusses the structural changes in mutated proteins related to polyaminopathies, detailing their genetic causes, clinical symptoms, and potential treatments to aid future diagnosis and precision medicine.
Snyder-Robinson syndrome presenting with learning disability, epilepsy, and osteoporosis: a novel gene variant.
Rare
December 2023
Center for Rare Childhood Disorders, Translational Genomics Research Institute, Phoenix, AZ, United States.
Snyder-Robinson syndrome (SRS) is a rare X-linked recessive disorder characterized by a collection of clinical features including mild to severe intellectual disability, hypertonia, marfanoid habitus, facial asymmetry, osteoporosis, developmental delay and seizures. Whole genome sequencing (WGS) identified a mutation in the spermine synthase () gene (c.746 A>G, p.
View Article and Find Full Text PDFReduction of spermine synthase enhances autophagy to suppress Tau accumulation.
Cell Death Dis
May 2024
Department of Molecular and Cellular Pharmacology, University of Miami Miller School of Medicine, Miami, FL, USA.
Precise polyamine metabolism regulation is vital for cells and organisms. Mutations in spermine synthase (SMS) cause Snyder-Robinson intellectual disability syndrome (SRS), characterized by significant spermidine accumulation and autophagy blockage in the nervous system. Emerging evidence connects polyamine metabolism with other autophagy-related diseases, such as Tauopathy, however, the functional intersection between polyamine metabolism and autophagy in the context of these diseases remains unclear.
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