Background: SINO syndrome (Spastic paraplegia, Intellectual disability, Nystagmus and Obesity) is a rare autosomal dominant condition caused by heterozygous variants in KIDINS220. A total of 12 individuals are reported, comprising eight with SINO and four with an autosomal recessive condition attributed to bi-allelic KIDINS220 variants. Methods: In our international cohort, we have comprised 14 individuals, carrying 13 novel pathogenic KIDINS220 variants in heterozygous form. We assessed clinical and molecular data of our cohort and previously reported individuals and based on functional experiments reached a better understanding of the pathogenesis behind KIDINS220-related disease. Results: Using fetal tissue and in vitro assays, we demonstrate that the variants generate KIDINS220 truncated forms that mislocalize in punctate intracellular structures, with decreased levels of the full-length protein, suggesting a trans-dominant negative effect. 92% had their diagnosis within three years, with symptoms of developmental delay, spasticity, hypotonia, lack of eye contact and nystagmus. We identified a KIDINS220 variant associated with fetal hydrocephalus and show that 58% of examined individuals present brain ventricular dilatation. We extend the phenotypic spectrum of SINO syndrome to behavioral manifestations not previously highlighted. Conclusion: Our study provides further insights into the clinical spectrum, etiology and predicted functional impact of KIDINS220 variants.

Refining the phenotype of SINO syndrome: A comprehensive cohort report of 14 novel cases

Fabrizia Cesca
Co-primo
;
Alicja Krawczun-Rygmaczewska
Secondo
;
2024-01-01

Abstract

Background: SINO syndrome (Spastic paraplegia, Intellectual disability, Nystagmus and Obesity) is a rare autosomal dominant condition caused by heterozygous variants in KIDINS220. A total of 12 individuals are reported, comprising eight with SINO and four with an autosomal recessive condition attributed to bi-allelic KIDINS220 variants. Methods: In our international cohort, we have comprised 14 individuals, carrying 13 novel pathogenic KIDINS220 variants in heterozygous form. We assessed clinical and molecular data of our cohort and previously reported individuals and based on functional experiments reached a better understanding of the pathogenesis behind KIDINS220-related disease. Results: Using fetal tissue and in vitro assays, we demonstrate that the variants generate KIDINS220 truncated forms that mislocalize in punctate intracellular structures, with decreased levels of the full-length protein, suggesting a trans-dominant negative effect. 92% had their diagnosis within three years, with symptoms of developmental delay, spasticity, hypotonia, lack of eye contact and nystagmus. We identified a KIDINS220 variant associated with fetal hydrocephalus and show that 58% of examined individuals present brain ventricular dilatation. We extend the phenotypic spectrum of SINO syndrome to behavioral manifestations not previously highlighted. Conclusion: Our study provides further insights into the clinical spectrum, etiology and predicted functional impact of KIDINS220 variants.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/3089138
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