We report the clinical and biochemical findings from a patient who presented with Bosch-Boonstra-Schaaf optic atrophy syndrome (BBSOAS), an autosomal-dominant disorder characterized by optic atrophy, developmental delay and intellectual disability. In addition, the patient also displays hypotonia, stroke-like episodes, and complex IV deficiency of the mitochondrial respiratory chain. Whole-exome sequencing (WES) uncovered a novel heterozygous mutation in the NR2F1 gene (NM_005654:c.286A>G:p.Lys96Glu) that encodes for the COUP transcription factor 1 protein (COUP-TF1). Loss-of-function mutations in this protein have been associated with BBSOAS, and a luciferase reporter assay showed that this variant, in the zinc-finger DNA-binding domain (DBD) of COUP-TF1 protein, impairs its transcriptional activity. The additional features of this patient are more related with mitochondrial diseases that with BBSOAS, indicating a mitochondrial involvement. Finally, our data expand both the genetic and phenotypic spectrum associated with NR2F1 gene mutations.
We report the clinical and genetic findings in a 15‐year‐old Spanish boy presenting prenatal and postnatal growth retardation, reduced subcutaneous adipose tissue, premature skin wrinkling, sparse hair, short distal phalanges with small nails, umbilical hernia, wide anterior fontanel, and normal cognitive and motor development. Exome sequencing uncovered a heterozygous mutation in SLC25A24 (NM_013386: c.650G>A: p.R217H) that encodes for the calcium‐binding mitochondrial carrier protein SCaMC‐1. This gain‐of‐function variant has been previously associated with Fontaine syndrome and Gorlin‐Chaudhry‐Moss syndrome, two entities that show overlapping features, and have been recently subsumed under the name Fontaine progeroid syndrome (FPS; MIM: 612289) in OMIM. Here, we describe the first male patient with genetically confirmed FPS who survives at least until adolescence.
Striated muscle needs to maintain cellular homeostasis in adaptation to increases in physiological and metabolic demands. Failure to do so can result in rhabdomyolysis. The identification of novel genetic conditions associated with rhabdomyolysis helps to shed light on hitherto unrecognized homeostatic mechanisms. Here we report seven individuals in six families from different ethnic backgrounds with biallelic variants in MLIP, which encodes the Muscular Lamin A/C-interacting protein MLIP. Patients presented with a consistent phenotype characterized by mild muscle weakness, exercise-induced muscle pain, variable susceptibility to episodes of rhabdomyolysis, and persistent basal elevated serum creatine kinase levels. The biallelic truncating variants were predicted to result in disruption of the nuclear localizing signal of MLIP. Additionally, reduced overall RNA expression levels of the predominant MLIP isoform were observed in patients’ skeletal muscle. Collectively, our data increase the understanding of the genetic landscape of rhabdomyolysis to now include MLIP as a novel disease gene in humans, and solidifies MLIP's role in normal and diseased skeletal muscle homeostasis.
We report the case of a Caucasian Spanish origin female who showed severe psychomotor developmental delay, hypotonia, strabismus, epilepsy, short stature, and poor verbal language development. Brain magnetic resonance imaging scans showed thickened corpus callosum, cortical malformations, and dilated and abnormal configuration of the lateral ventricles without hydrocephalus. Whole-exome sequence uncovered a de novo variant in the microtubule associated serine/threonine kinase 1 gene (MAST1; NM_014975.3:c.1565G>A:p.(Gly522Glu)) that encodes for the MAST1.Only 12 patients have been identified worldwide with 10 different variants in this gene: six patients with mega-corpus-callosum syndrome with cerebellar hypoplasia and cortical malformations; two patients with microcephaly and cerebellar hypoplasia; two patients with autism, one patient with diplegia, and one patient with microcephaly and dysmorphism. Our patient shows a new phenotypic subtype defined by mega-corpus-callosum syndrome with cortical malformations without cerebellar hypoplasia. In conclusion, our data expand the phenotypic spectrum associated to MAST1 gene variants. K E Y W O R D S cerebellar hypoplasia, cortical malformations, growth hormone, MAST1, mega-corpus-callosum syndrome, microcephaly
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