Rebecca Pollitt scite author profile

Osteogenesis Imperfecta (OI) is a heterogeneous group of inherited disorders characterized by increased bone fragility, with clinical severity ranging from mild to lethal. To date, seven types of OI have been described, based on clinical phenotype and histological findings. Most patients with a clinical diagnosis of OI type I-IV have a mutation in the COL1A1 or COL1A2 genes which encode the two alpha chains of type I collagen, the major component of the bone matrix. Analysis of COL1A1 and COL1A2 in a cohort of 83 unrelated patients with OI type I-IV identified a total of 62 mutations. Thirty-eight appear novel, 26 in COL1A1, and 12 in COL1A2, and these are described here. The largest group consists of point mutations affecting glycine residues in the triple helical domain of the two alpha chains, predicted to disrupt protein folding and structure. This is in accordance with previously published data. A doublet GC deletion, an unusual 398 base deletion predicted to completely remove exon 20 of COL1A2, and a point mutation resulting in substitution of a conserved cysteine in the C-terminal propeptide are described. In addition rare mutations at the cleavage sites of the C-propeptide and the N-terminal signal peptide are described.

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Compound heterozygous variants in NBAS as a cause of atypical osteogenesis imperfecta

Balasubramanian

Hurst

Brown

et al. 2017

Bone

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Background Osteogenesis imperfecta (OI), the commonest inherited bone fragility disorder, affects 1 in 15,000 live births resulting in frequent fractures and reduced mobility, with significant impact on quality of life. Early diagnosis is important, as therapeutic advances can lead to improved clinical outcome and patient benefit. Report Whole exome sequencing in patients with OI identified, in two patients with a multi-system phenotype, compound heterozygous variants in NBAS (Neuroblastoma amplified sequence). Patient 1: NBAS c.5741G>A p.(Arg1914His); c.3010C>T p.(Arg1004*) in a 10-year old boy with significant short stature, bone fragility requiring treatment with bisphosphonates, developmental delay and immunodeficiency. Patient 2: NBAS c.5741G>A p.(Arg1914His); c.2032C>T p.(Glu678*) in a 5-year old boy with similar presenting features, bone fragility, mild developmental delay, abnormal liver function tests and immunodeficiency. Discussion Homozygous missense NBAS variants cause SOPH syndrome (Short stature; Optic atrophy; Pelger-Huet anomaly), the same missense variant was found in our patients on one allele and a nonsense variant in the other allele. Recent literature suggests a multi-system phenotype. In this study, patient fibroblasts have shown reduced collagen expression, compared to control cells and RNAseq studies, in bone cells show that NBAS is expressed in osteoblasts and osteocytes of rodents and primates. These findings provide proof-of-concept that NBAS mutations have mechanistic effects in bone, and that NBAS variants are a novel cause of bone fragility, which is distinguishable from ‘Classical’ OI. Conclusions Here we report on variants in NBAS, as a cause of bone fragility in humans, and expand the phenotypic spectrum associated with NBAS. We explore the mechanism underlying NBAS and the striking skeletal phenotype in our patients.

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A cohort of 17 patients with kyphoscoliotic Ehlers–Danlos syndrome caused by biallelic mutations in FKBP14: expansion of the clinical and mutational spectrum and description of the natural history

Giunta

Baumann

Fauth

et al. 2018

Genetics in Medicine

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Purpose: In 2012 we reported in six individuals a clinical condition almost indistinguishable from PLOD1-kyphoscoliotic EhlersDanlos syndrome (PLOD1-kEDS), caused by biallelic mutations in FKBP14, and characterized by progressive kyphoscoliosis, myopathy, and hearing loss in addition to connective tissue abnormalities such as joint hypermobility and hyperelastic skin. FKBP14 is an ER-resident protein belonging to the family of FK506-binding peptidyl-prolyl cis-trans isomerases (PPIases); it catalyzes the folding of type III collagen and interacts with type III, type VI, and type X collagens. Only nine affected individuals have been reported to date. Methods:We report on a cohort of 17 individuals with FKBP14-kEDS and the follow-up of three previously reported patients, and provide an extensive overview of the disorder and its natural history based on clinical, biochemical, and molecular genetics data.Results: Based on the frequency of the clinical features of 23 patients from the present and previous cohorts, we define major and minor features of FKBP14-kEDS. We show that myopathy is confirmed by histology and muscle imaging only in some patients, and that hearing impairment is predominantly sensorineural and may not be present in all individuals. Conclusion:Our data further support the extensive clinical overlap with PLOD1-kEDS and show that vascular complications are rare manifestations of FKBP14-kEDS.

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Novel PLS3 variants in X‐linked osteoporosis: Exploring bone material properties

Balasubramanian

Fratzl‐Zelman

O'Sullivan

et al. 2018

American J of Med Genetics Pt A

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Rebecca Pollitt

Mutation analysis ofCOL1A1andCOL1A2in patients diagnosed with osteogenesis imperfecta type I-IV

Compound heterozygous variants in NBAS as a cause of atypical osteogenesis imperfecta

A cohort of 17 patients with kyphoscoliotic Ehlers–Danlos syndrome caused by biallelic mutations in FKBP14: expansion of the clinical and mutational spectrum and description of the natural history

Novel PLS3 variants in X‐linked osteoporosis: Exploring bone material properties

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