Defective Initiation of Glycosaminoglycan Synthesis due to B3GALT6 Mutations Causes a Pleiotropic Ehlers-Danlos-Syndrome-like Connective Tissue Disorder

Malfait, Fransiska; Kariminejad, Ariana; Damme, Tim Van; Gauche, Caroline; Syx, Delfien; Merhi-Soussi, Faten; Gulberti, Sandrine; Symoens, Sofie; Vanhauwaert, Suzanne; Willaert, Andy; Bozorgmehr, Bita; Kariminejad, Mohamad Hasan; Ebrahimiadib, Nazanin; Haußer, Ingrid; Huysseune, Ann; Fournel‐Gigleux, Sylvie; Paepe, Anne De

doi:10.1016/j.ajhg.2013.04.016

Cited by 120 publications

(146 citation statements)

References 43 publications

(39 reference statements)

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“…This indicates that we would not expect XylT2 deficiency to affect articular cartilage, but growth plate cartilage might require both XylT1 and XylT2 activity. Therefore, defects in XYLT1 or those in the remaining enzymatic steps of linker assembly would be expected to affect growth cartilage, and this is supported by observations made in individuals with hypomorphic mutations in XYLT1 and mutations in B4GALT7 (beta1,4-galacosyltransferase 7), B3GALT6 (beta1,3-galactosyltransferase 6) (MIM: 604327), and B3GAT3 (beta1,3-glucuronyltransferase 3) (glucuronyltransferase I) (MIM: 606374) who have significant short stature 6,24,25 (MIM: 606374, 604327).…”

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confidence: 56%

“…5 Three additional sugar residues of the linker region are then added as galactose-galactoseglucuronic acid. Defects at each step of these sugar additions causes various autosomal-recessive disorders (MIM: 604327, 606374), 6,7 illustrating the importance of PG in tissue homeostasis. XYLT1 and XYLT2 are very similar in function and are co-expressed in many tissues, but some temporal, spatial, and tissue-specific differences in expression exist 5,8 and at the cellular level one or the other can be exclusively expressed.…”

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confidence: 99%

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Homozygosity for Frameshift Mutations in XYLT2 Result in a Spondylo-Ocular Syndrome with Bone Fragility, Cataracts, and Hearing Defects

Munns

Fahiminiya

Poudel

et al. 2015

The American Journal of Human Genetics

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Heparan and chondroitin/dermatan sulfated proteoglycans have a wide range of roles in cellular and tissue homeostasis including growth factor function, morphogen gradient formation, and co-receptor activity. Proteoglycan assembly initiates with a xylose monosaccharide covalently attached by either xylosyltransferase I or II. Three individuals from two families were found that exhibited similar phenotypes. The index case subjects were two brothers, individuals 1 and 2, who presented with osteoporosis, cataracts, sensorineural hearing loss, and mild learning defects. Whole exome sequence analyses showed that both individuals had a homozygous c.692dup mutation (GenBank: NM_022167.3) in the xylosyltransferase II locus (XYLT2) (MIM: 608125), causing reduced XYLT2 mRNA and low circulating xylosyltransferase (XylT) activity. In an unrelated boy (individual 3) from the second family, we noted low serum XylT activity. Sanger sequencing of XYLT2 in this individual revealed a c.520del mutation in exon 2 that resulted in a frameshift and premature stop codon (p.Ala174Profs*35). Fibroblasts from individuals 1 and 2 showed a range of defects including reduced XylT activity, GAG incorporation of 35 SO 4 , and heparan sulfate proteoglycan assembly. These studies demonstrate that human XylT2 deficiency results in vertebral compression fractures, sensorineural hearing loss, eye defects, and heart defects, a phenotype that is similar to the autosomal-recessive disorder spondylo-ocular syndrome of unknown cause. This phenotype is different from what has been reported in individuals with other linker enzyme deficiencies. These studies illustrate that the cells of the lens, retina, heart muscle, inner ear, and bone are dependent on XylT2 for proteoglycan assembly in humans.Proteoglycans (PGs) are a class of surface-associated and extracellular matrix proteins that play a key role in many tissues.

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confidence: 56%

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confidence: 99%

Homozygosity for Frameshift Mutations in XYLT2 Result in a Spondylo-Ocular Syndrome with Bone Fragility, Cataracts, and Hearing Defects

Munns

Fahiminiya

Poudel

et al. 2015

The American Journal of Human Genetics

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“…Inactivating mutations in human GALT-II were recently shown to cause Ehlers-Danlos-like syndrome, which is characterized by a spectrum of skeletal and connective tissue disorders (16,38). Genetic screens in zebrafish have established that FAM20B is essential for proper development of cartilage and bone (8).…”

Section: Fam20b-dependent Xylose Phosphorylation Stimulates Synthesis Ofmentioning

confidence: 99%

Xylose phosphorylation functions as a molecular switch to regulate proteoglycan biosynthesis

Wen¹,

Xiao²,

Rahdar³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Most eukaryotic cells elaborate several proteoglycans critical for transmitting biochemical signals into and between cells. However, the regulation of proteoglycan biosynthesis is not completely understood. We show that the atypical secretory kinase family with sequence similarity 20, member B (Fam20B) phosphorylates the initiating xylose residue in the proteoglycan tetrasaccharide linkage region, and that this event functions as a molecular switch to regulate subsequent glycosaminoglycan assembly. Proteoglycans from FAM20B knockout cells contain a truncated tetrasaccharide linkage region consisting of a disaccharide capped with sialic acid (Siaα2-3Galβ1-4Xylβ1) that cannot be further elongated. We also show that the activity of galactosyl transferase II (GalT-II, B3GalT6), a key enzyme in the biosynthesis of the tetrasaccharide linkage region, is dramatically increased by Fam20B-dependent xylose phosphorylation. Inactivating mutations in the GALT-II gene (B3GALT6) associated with Ehlers-Danlos syndrome cause proteoglycan maturation defects similar to FAM20B deletion. Collectively, our findings suggest that GalT-II function is impaired by loss of Fam20B-dependent xylose phosphorylation and reveal a previously unappreciated mechanism for regulation of proteoglycan biosynthesis.secretory kinase | proteoglycan | xylose phosphorylation | Fam20B | GalT-II

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“…22 This deficiency results in a loss of cohesion of the tissue, which has been further demonstrated by the ultrastructural study showing abnormal connective tissue. 23 In the last few years, the impairment of proteoglycan synthesis has been involved in a few human connective tissue disorders, namely, (1) SED with dislocations due to CHST3 mutations responsible for a defect in carbohydrate chondroitin 6-sulfotransferase with defective sulfation of chondroitin proteoglycan, 8,24 (2) Desbuquois dysplasia due to CANT1 mutations responsible for a defect in GAG synthesis, 9,25 (3) a chondrodysplasia with joint dislocations due to mutations in IMPAD1 (inositol monophosphatase domaincontaining protein 1) encoding the Golgi resident nucleotide phosphatase gPAPP, and responsible for a defect in sulfated substrates, 26 (4) 'a Larsen-like' phenotype with cardiac defects due to B3GAT3 (galactosyltransferase) mutations 27 and affecting, through the linker synthesis defect, dermatan heparan and chondrotin sulfate proteoglycans and (5) very recently, a spondyloepimetaphyseal dysplasia with joint laxity type 1 and a spectrum of disorders affecting a broad range of skeletal and connective tissues characterized by lax skin, muscle hypotonia, joint dislocation and spinal deformity due to B3GALT6 mutations 28 (Supplementary Table).…”

Section: Discussionmentioning

confidence: 99%

Expanding the clinical spectrum of B4GALT7 deficiency: homozygous p.R270C mutation with founder effect causes Larsen of Reunion Island syndrome

et al. 2014

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First described as a variant of Larsen syndrome in Reunion Island (LRS) in the southern Indian Ocean, 'Larsen of Reunion Island syndrome' is characterized by dwarfism, hyperlaxity, multiple dislocations and distinctive facial features. It overlaps with Desbuquois dysplasia, Larsen syndrome and spondyloepiphyseal dysplasia with dislocations ascribed to CANT1, FLNB and CHST3 mutations, respectively. We collected the samples of 22 LRS cases. After exclusion of CANT1, FLNB and CHST3 genes, an exome sequencing was performed in two affected second cousins and one unaffected sister. We identified a homozygous missense mutation in B4GALT7, NM_007255.2: c.808C4T p.(Arg270Cys) named p.R270C, in the two affected cases, not present in the unaffected sister. The same homozygous mutation was subsequently identified in the remaining 20 LRS cases. Our findings demonstrate that B4GALT7 is the causative gene for LRS. The identification of a unique homozygous mutation argues in favor of a founder effect. B4GALT7 encodes a galactosyltransferase, required for the initiation of glycoaminoglycan side chain synthesis of proteoglycans. This study expands the phenotypic spectrum of B4GALT7 mutations, initially described as responsible for the progeroid variant of Ehlers-Danlos syndrome. It further supports a common physiopathological basis involving proteoglycan synthesis in skeletal disorders with dislocations.

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Defective Initiation of Glycosaminoglycan Synthesis due to B3GALT6 Mutations Causes a Pleiotropic Ehlers-Danlos-Syndrome-like Connective Tissue Disorder

Cited by 120 publications

References 43 publications

Homozygosity for Frameshift Mutations in XYLT2 Result in a Spondylo-Ocular Syndrome with Bone Fragility, Cataracts, and Hearing Defects

Homozygosity for Frameshift Mutations in XYLT2 Result in a Spondylo-Ocular Syndrome with Bone Fragility, Cataracts, and Hearing Defects

Xylose phosphorylation functions as a molecular switch to regulate proteoglycan biosynthesis

Expanding the clinical spectrum of B4GALT7 deficiency: homozygous p.R270C mutation with founder effect causes Larsen of Reunion Island syndrome

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