Abstract
Proteoglycans have a core polypeptide connected to glycosaminoglycans (GAGs) via a common tetrasaccharide linker region. Defects in enzymes that synthesize the linker result in a group of autosomal recessive conditions called “linkeropathies”. Disease manifests with skeletal and connective tissue features, including short stature, hyperextensible skin, and joint hypermobility. We report a family with three affected pregnancies showing short limbs, cystic hygroma, and perinatal death. Two spontaneously aborted; one survived 1 day after term delivery, and had short limbs, bell-shaped thorax, 11 ribs, absent thumbs, and cleft palate. Exome sequencing of the proband and one affected fetus identified compound heterozygous missense variants, NM_007255.3: c.808C>T (p.(Arg270Cys)) and NM_007255.3: c.398A>G (p.(Gln133Arg)), in B4GALT7, a gene required for GAG linker biosynthesis. Homozygosity for p.(Arg270Cys), associated with partial loss of B4GALT7 function, causes Larsen of Reunion Island syndrome (LRS), however no previous studies have linked p.(Gln133Arg) to disease. The p.(Gln133Arg) and p.(Arg270Cys) variants were transfected into CHO pgsB-618 cells. High protein expression of p.(Gln133Arg) was found, with mislocalization, compared to p.(Arg270Cys) that had a normal Golgi-like pattern. The p.(Gln133Arg) had almost no enzyme activity and little production of heparan sulfate GAGs, while p.(Arg270Cys) only had 17% of wild-type activity. These findings expand the phenotype of B4GALT7-related linkeropathies to include lethal skeletal dysplasia due to more severe loss of function.
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Acknowledgements
We thank this family for participation in research. Special thanks to Haley Guggenheim for technical support.
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This work was funded by the Abigail Wexner Research Institute at Nationwide Children’s Hospital and supported by NIH grants R01 AR049722 and P50 AR070604 to PTM.
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Mihalic Mosher, T., Zygmunt, D.A., Koboldt, D.C. et al. Expansion of B4GALT7 linkeropathy phenotype to include perinatal lethal skeletal dysplasia. Eur J Hum Genet 27, 1569–1577 (2019). https://doi.org/10.1038/s41431-019-0464-8
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DOI: https://doi.org/10.1038/s41431-019-0464-8
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