Identification of potential non-invasive biomarkers in diastrophic dysplasia

Chiara Paganini; Ricki S. Carroll; Chiara Gramegna Tota; Andrea J. Schelhaas; Alessandra Leone; Angela L. Duker; David A. O'Connell; Ryan F. Coghlan; Brian Johnstone; Carlos R. Ferreira; Sabrina Peressini; Riccardo Albertini; Antonella Forlino; Luisa Bonafé; Ana Belinda Campos-Xavier; Andrea Superti-Furga; Andreas Zankl; Antonio Rossi; Michael B. Bober

doi:10.1016/j.bone.2023.116838

Identification of potential non-invasive biomarkers in diastrophic dysplasia

Chiara Paganini, Ricki S. Carroll, Chiara Gramegna Tota, Andrea J. Schelhaas, Alessandra Leone, Angela L. Duker, David A. O'Connell, Ryan F. Coghlan, Brian Johnstone, Carlos R. Ferreira, Sabrina Peressini, Riccardo Albertini, Antonella Forlino, Luisa Bonafé, Ana Belinda Campos-Xavier, Andrea Superti-Furga, Andreas Zankl, Antonio Rossi, Michael B. Bober

Orthopaedics and Rehabilitation

Research output: Contribution to journal › Article › peer-review

Abstract

Diastrophic dysplasia (DTD) is a recessive chondrodysplasia caused by pathogenic variants in the SLC26A2 gene encoding for a cell membrane sulfate/chloride antiporter crucial for sulfate uptake and glycosaminoglycan (GAG) sulfation. Research on a DTD animal model has suggested possible pharmacological treatment approaches. In view of future clinical trials, the identification of non-invasive biomarkers is crucial to assess the efficacy of treatments. Urinary GAG composition has been analyzed in several metabolic disorders including mucopolysaccharidoses. Moreover, the N-terminal fragment of collagen X, known as collagen X marker (CXM), is considered a real-time marker of endochondral ossification and growth velocity and was studied in individuals with achondroplasia and osteogenesis imperfecta. In this work, urinary GAG sulfation and blood CXM levels were investigated as potential biomarkers for individuals affected by DTD. Chondroitin sulfate disaccharide analysis was performed on GAGs isolated from urine by HPLC after GAG digestion with chondroitinase ABC and ACII, while CXM was assessed in dried blood spots. Results from DTD patients were compared with an age-matched control population. Undersulfation of urinary GAGs was observed in DTD patients with some relationship to the clinical severity and underlying SLC26A2 variants. Lower than normal CXM levels were observed in most patients, even if the marker did not show a clear pattern in our small patient cohort because CXM values are highly dependent on age, gender and growth velocity. In summary, both non-invasive biomarkers are promising assays targeting various aspects of the disorder including overall metabolism of sulfated GAGs and endochondral ossification.

Original language	English (US)
Article number	116838
Journal	Bone
Volume	175
DOIs	https://doi.org/10.1016/j.bone.2023.116838
State	Published - Oct 2023

Keywords

Biomarker
Collagen X
Diastrophic dysplasia
Glycosaminoglycan
Sulfation
Urine

ASJC Scopus subject areas

Endocrinology, Diabetes and Metabolism
Physiology
Histology

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10.1016/j.bone.2023.116838

Cite this

Paganini, C., Carroll, R. S., Gramegna Tota, C., Schelhaas, A. J., Leone, A., Duker, A. L., O'Connell, D. A., Coghlan, R. F., Johnstone, B., Ferreira, C. R., Peressini, S., Albertini, R., Forlino, A., Bonafé, L., Campos-Xavier, A. B., Superti-Furga, A., Zankl, A., Rossi, A., & Bober, M. B. (2023). Identification of potential non-invasive biomarkers in diastrophic dysplasia. Bone, 175, Article 116838. https://doi.org/10.1016/j.bone.2023.116838

Paganini, C, Carroll, RS, Gramegna Tota, C, Schelhaas, AJ, Leone, A, Duker, AL, O'Connell, DA, Coghlan, RF, Johnstone, B, Ferreira, CR, Peressini, S, Albertini, R, Forlino, A, Bonafé, L, Campos-Xavier, AB, Superti-Furga, A, Zankl, A, Rossi, A & Bober, MB 2023, 'Identification of potential non-invasive biomarkers in diastrophic dysplasia', Bone, vol. 175, 116838. https://doi.org/10.1016/j.bone.2023.116838

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title = "Identification of potential non-invasive biomarkers in diastrophic dysplasia",

abstract = "Diastrophic dysplasia (DTD) is a recessive chondrodysplasia caused by pathogenic variants in the SLC26A2 gene encoding for a cell membrane sulfate/chloride antiporter crucial for sulfate uptake and glycosaminoglycan (GAG) sulfation. Research on a DTD animal model has suggested possible pharmacological treatment approaches. In view of future clinical trials, the identification of non-invasive biomarkers is crucial to assess the efficacy of treatments. Urinary GAG composition has been analyzed in several metabolic disorders including mucopolysaccharidoses. Moreover, the N-terminal fragment of collagen X, known as collagen X marker (CXM), is considered a real-time marker of endochondral ossification and growth velocity and was studied in individuals with achondroplasia and osteogenesis imperfecta. In this work, urinary GAG sulfation and blood CXM levels were investigated as potential biomarkers for individuals affected by DTD. Chondroitin sulfate disaccharide analysis was performed on GAGs isolated from urine by HPLC after GAG digestion with chondroitinase ABC and ACII, while CXM was assessed in dried blood spots. Results from DTD patients were compared with an age-matched control population. Undersulfation of urinary GAGs was observed in DTD patients with some relationship to the clinical severity and underlying SLC26A2 variants. Lower than normal CXM levels were observed in most patients, even if the marker did not show a clear pattern in our small patient cohort because CXM values are highly dependent on age, gender and growth velocity. In summary, both non-invasive biomarkers are promising assays targeting various aspects of the disorder including overall metabolism of sulfated GAGs and endochondral ossification.",

keywords = "Biomarker, Collagen X, Diastrophic dysplasia, Glycosaminoglycan, Sulfation, Urine",

author = "Chiara Paganini and Carroll, {Ricki S.} and {Gramegna Tota}, Chiara and Schelhaas, {Andrea J.} and Alessandra Leone and Duker, {Angela L.} and O'Connell, {David A.} and Coghlan, {Ryan F.} and Brian Johnstone and Ferreira, {Carlos R.} and Sabrina Peressini and Riccardo Albertini and Antonella Forlino and Luisa Bonaf{\'e} and Campos-Xavier, {Ana Belinda} and Andrea Superti-Furga and Andreas Zankl and Antonio Rossi and Bober, {Michael B.}",

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year = "2023",

month = oct,

doi = "10.1016/j.bone.2023.116838",

language = "English (US)",

volume = "175",

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AU - Paganini, Chiara

AU - Carroll, Ricki S.

AU - Gramegna Tota, Chiara

AU - Schelhaas, Andrea J.

AU - Leone, Alessandra

AU - Duker, Angela L.

AU - O'Connell, David A.

AU - Coghlan, Ryan F.

AU - Johnstone, Brian

AU - Ferreira, Carlos R.

AU - Peressini, Sabrina

AU - Albertini, Riccardo

AU - Forlino, Antonella

AU - Bonafé, Luisa

AU - Campos-Xavier, Ana Belinda

AU - Superti-Furga, Andrea

AU - Zankl, Andreas

AU - Rossi, Antonio

AU - Bober, Michael B.

PY - 2023/10

Y1 - 2023/10

N2 - Diastrophic dysplasia (DTD) is a recessive chondrodysplasia caused by pathogenic variants in the SLC26A2 gene encoding for a cell membrane sulfate/chloride antiporter crucial for sulfate uptake and glycosaminoglycan (GAG) sulfation. Research on a DTD animal model has suggested possible pharmacological treatment approaches. In view of future clinical trials, the identification of non-invasive biomarkers is crucial to assess the efficacy of treatments. Urinary GAG composition has been analyzed in several metabolic disorders including mucopolysaccharidoses. Moreover, the N-terminal fragment of collagen X, known as collagen X marker (CXM), is considered a real-time marker of endochondral ossification and growth velocity and was studied in individuals with achondroplasia and osteogenesis imperfecta. In this work, urinary GAG sulfation and blood CXM levels were investigated as potential biomarkers for individuals affected by DTD. Chondroitin sulfate disaccharide analysis was performed on GAGs isolated from urine by HPLC after GAG digestion with chondroitinase ABC and ACII, while CXM was assessed in dried blood spots. Results from DTD patients were compared with an age-matched control population. Undersulfation of urinary GAGs was observed in DTD patients with some relationship to the clinical severity and underlying SLC26A2 variants. Lower than normal CXM levels were observed in most patients, even if the marker did not show a clear pattern in our small patient cohort because CXM values are highly dependent on age, gender and growth velocity. In summary, both non-invasive biomarkers are promising assays targeting various aspects of the disorder including overall metabolism of sulfated GAGs and endochondral ossification.

AB - Diastrophic dysplasia (DTD) is a recessive chondrodysplasia caused by pathogenic variants in the SLC26A2 gene encoding for a cell membrane sulfate/chloride antiporter crucial for sulfate uptake and glycosaminoglycan (GAG) sulfation. Research on a DTD animal model has suggested possible pharmacological treatment approaches. In view of future clinical trials, the identification of non-invasive biomarkers is crucial to assess the efficacy of treatments. Urinary GAG composition has been analyzed in several metabolic disorders including mucopolysaccharidoses. Moreover, the N-terminal fragment of collagen X, known as collagen X marker (CXM), is considered a real-time marker of endochondral ossification and growth velocity and was studied in individuals with achondroplasia and osteogenesis imperfecta. In this work, urinary GAG sulfation and blood CXM levels were investigated as potential biomarkers for individuals affected by DTD. Chondroitin sulfate disaccharide analysis was performed on GAGs isolated from urine by HPLC after GAG digestion with chondroitinase ABC and ACII, while CXM was assessed in dried blood spots. Results from DTD patients were compared with an age-matched control population. Undersulfation of urinary GAGs was observed in DTD patients with some relationship to the clinical severity and underlying SLC26A2 variants. Lower than normal CXM levels were observed in most patients, even if the marker did not show a clear pattern in our small patient cohort because CXM values are highly dependent on age, gender and growth velocity. In summary, both non-invasive biomarkers are promising assays targeting various aspects of the disorder including overall metabolism of sulfated GAGs and endochondral ossification.

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KW - Glycosaminoglycan

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Identification of potential non-invasive biomarkers in diastrophic dysplasia

Abstract

Keywords

ASJC Scopus subject areas

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