Significance of the Tks4 scaffold protein in bone tissue homeostasis

Virag Vas; Tamás Kovács; Szandra Körmendi; Andrea Bródy; Gyöngyi Kudlik; Bálint Szeder; Diána Mező; Dóra Kállai; Kitti Koprivanacz; Balázs L. Merő; Metta Dülk; József Tóvári; Péter Vajdovich; Neslihan Şenel; Ilknur Özcan; Zsuzsanna Helyes; Csaba Dobó-Nagy; László Buday

doi:10.1038/s41598-019-42250-6

Significance of the Tks4 scaffold protein in bone tissue homeostasis

Virag Vas (Lead / Corresponding author), Tamás Kovács, Szandra Körmendi, Andrea Bródy, Gyöngyi Kudlik, Bálint Szeder, Diána Mező, Dóra Kállai, Kitti Koprivanacz, Balázs L. Merő, Metta Dülk, József Tóvári, Péter Vajdovich, Neslihan Şenel, Ilknur Özcan, Zsuzsanna Helyes, Csaba Dobó-Nagy, László Buday

Biological Chemistry and Drug Discovery

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Abstract

The main driver of osteoporosis is an imbalance between bone resorption and formation. The pathogenesis of osteoporosis has also been connected to genetic alterations in key osteogenic factors and dysfunction of bone marrow mesenchymal stem/stromal cells (BM-MSCs). Tks4 (encoded by the Sh3pxd2b gene) is a scaffold protein involved in podosome organization. Homozygous mutational inactivation of Sh3pxd2b causes Frank-ter Haar syndrome (FTHS), a genetic disease that affects bone tissue as well as eye, ear, and heart functions. To date, the role of Tks4 in adult bone homeostasis has not been investigated. Therefore, the aim of this study was to analyze the facial and femoral bone phenotypes of Sh3pxd2b knock-out (KO) mice using micro-CT methods. In addition to the analysis of the Sh3pxd2b-KO mice, the bone microstructure of an FTHS patient was also examined. Macro-examination of skulls from Tks4-deficient mice revealed craniofacial malformations that were very similar to symptoms of the FTHS patient. The femurs of the Sh3pxd2b-KO mice had alterations in the trabecular system and showed signs of osteoporosis, and, similarly, the FTHS patient also showed increased trabecular separation/porosity. The expression levels of the Runx2 and osteocalcin bone formation markers were reduced in the bone and bone marrow of the Sh3pxd2b-KO femurs, respectively. Our recent study demonstrated that Sh3pxd2b-KO BM-MSCs have a reduced ability to differentiate into osteoblast lineage cells; therefore, we concluded that the Tks4 scaffold protein is important for osteoblast formation, and that it likely plays a role in bone cell homeostasis.

Original language	English
Article number	5781
Number of pages	10
Journal	Scientific Reports
Volume	9
Issue number	1
Early online date	8 Apr 2019
DOIs	https://doi.org/10.1038/s41598-019-42250-6
Publication status	Published - 1 Dec 2019

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Vas, V., Kovács, T., Körmendi, S., Bródy, A., Kudlik, G., Szeder, B., Mező, D., Kállai, D., Koprivanacz, K., Merő, B. L., Dülk, M., Tóvári, J., Vajdovich, P., Şenel, N., Özcan, I., Helyes, Z., Dobó-Nagy, C., & Buday, L. (2019). Significance of the Tks4 scaffold protein in bone tissue homeostasis. Scientific Reports, 9(1), Article 5781. https://doi.org/10.1038/s41598-019-42250-6

@article{7307eac4886c42dcb4185b8037514291,

title = "Significance of the Tks4 scaffold protein in bone tissue homeostasis",

abstract = "The main driver of osteoporosis is an imbalance between bone resorption and formation. The pathogenesis of osteoporosis has also been connected to genetic alterations in key osteogenic factors and dysfunction of bone marrow mesenchymal stem/stromal cells (BM-MSCs). Tks4 (encoded by the Sh3pxd2b gene) is a scaffold protein involved in podosome organization. Homozygous mutational inactivation of Sh3pxd2b causes Frank-ter Haar syndrome (FTHS), a genetic disease that affects bone tissue as well as eye, ear, and heart functions. To date, the role of Tks4 in adult bone homeostasis has not been investigated. Therefore, the aim of this study was to analyze the facial and femoral bone phenotypes of Sh3pxd2b knock-out (KO) mice using micro-CT methods. In addition to the analysis of the Sh3pxd2b-KO mice, the bone microstructure of an FTHS patient was also examined. Macro-examination of skulls from Tks4-deficient mice revealed craniofacial malformations that were very similar to symptoms of the FTHS patient. The femurs of the Sh3pxd2b-KO mice had alterations in the trabecular system and showed signs of osteoporosis, and, similarly, the FTHS patient also showed increased trabecular separation/porosity. The expression levels of the Runx2 and osteocalcin bone formation markers were reduced in the bone and bone marrow of the Sh3pxd2b-KO femurs, respectively. Our recent study demonstrated that Sh3pxd2b-KO BM-MSCs have a reduced ability to differentiate into osteoblast lineage cells; therefore, we concluded that the Tks4 scaffold protein is important for osteoblast formation, and that it likely plays a role in bone cell homeostasis.",

author = "Virag Vas and Tam{\'a}s Kov{\'a}cs and Szandra K{\"o}rmendi and Andrea Br{\'o}dy and Gy{\"o}ngyi Kudlik and B{\'a}lint Szeder and Di{\'a}na Mez{\H o} and D{\'o}ra K{\'a}llai and Kitti Koprivanacz and Mer{\H o}, {Bal{\'a}zs L.} and Metta D{\"u}lk and J{\'o}zsef T{\'o}v{\'a}ri and P{\'e}ter Vajdovich and Neslihan {\c S}enel and Ilknur {\"O}zcan and Zsuzsanna Helyes and Csaba Dob{\'o}-Nagy and L{\'a}szl{\'o} Buday",

note = "Funding Information: We thank Zita Haidar for technical assistance. We thank Dr. Bernadett Szab{\'o} for valuable help with the serum marker analysis. We thank Dr. Bence T. Szab{\'o} for providing the CBCT data for the control individuals. We thank Dr. Katalin Dezs{\H o} for help with scanning the IHC slides and Tam{\'a}s Kiss for optimizing the micro-CT settings for imaging the young mice. We thank 3DHISTECH Ltd. Hungary for providing the CaseViewer 2.1 software at no cost. We are grateful to Zsuzsanna Erd{\'e}lyi and Ferenc Erd{\'e}lyi for the excellent animal house service in the Institute of Experimental Medicine (Hungarian Academy of Sciences). Tam{\'a}s Kov{\'a}cs specifically thanks Dr. Edina Prondvai for her support and advice. Virag Vas specifically thanks Dr. Ferenc Uher for his help in her training. The work was supported by grants from the National Research, Development and Innovation Fund of Hungary (K 124045 and FIEK_16-1-2016-0005), the MedinProt Program of the Hungarian Academy of Sciences (LB), and the NKFIH K116295 grant (JT). The work of Virag Vas was supported by a J{\'a}nos Bolyai Research Scholarship from the Hungarian Academy of Sciences. Publisher Copyright: {\textcopyright} 2019, The Author(s). Copyright: Copyright 2019 Elsevier B.V., All rights reserved.",

year = "2019",

month = dec,

day = "1",

doi = "10.1038/s41598-019-42250-6",

language = "English",

volume = "9",

journal = "Scientific Reports",

issn = "2045-2322",

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number = "1",

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Vas, V, Kovács, T, Körmendi, S, Bródy, A, Kudlik, G, Szeder, B, Mező, D, Kállai, D, Koprivanacz, K, Merő, BL, Dülk, M, Tóvári, J, Vajdovich, P, Şenel, N, Özcan, I, Helyes, Z, Dobó-Nagy, C & Buday, L 2019, 'Significance of the Tks4 scaffold protein in bone tissue homeostasis', Scientific Reports, vol. 9, no. 1, 5781. https://doi.org/10.1038/s41598-019-42250-6

TY - JOUR

T1 - Significance of the Tks4 scaffold protein in bone tissue homeostasis

AU - Vas, Virag

AU - Kovács, Tamás

AU - Körmendi, Szandra

AU - Bródy, Andrea

AU - Kudlik, Gyöngyi

AU - Szeder, Bálint

AU - Mező, Diána

AU - Kállai, Dóra

AU - Koprivanacz, Kitti

AU - Merő, Balázs L.

AU - Dülk, Metta

AU - Tóvári, József

AU - Vajdovich, Péter

AU - Şenel, Neslihan

AU - Özcan, Ilknur

AU - Helyes, Zsuzsanna

AU - Dobó-Nagy, Csaba

AU - Buday, László

N1 - Funding Information: We thank Zita Haidar for technical assistance. We thank Dr. Bernadett Szabó for valuable help with the serum marker analysis. We thank Dr. Bence T. Szabó for providing the CBCT data for the control individuals. We thank Dr. Katalin Dezső for help with scanning the IHC slides and Tamás Kiss for optimizing the micro-CT settings for imaging the young mice. We thank 3DHISTECH Ltd. Hungary for providing the CaseViewer 2.1 software at no cost. We are grateful to Zsuzsanna Erdélyi and Ferenc Erdélyi for the excellent animal house service in the Institute of Experimental Medicine (Hungarian Academy of Sciences). Tamás Kovács specifically thanks Dr. Edina Prondvai for her support and advice. Virag Vas specifically thanks Dr. Ferenc Uher for his help in her training. The work was supported by grants from the National Research, Development and Innovation Fund of Hungary (K 124045 and FIEK_16-1-2016-0005), the MedinProt Program of the Hungarian Academy of Sciences (LB), and the NKFIH K116295 grant (JT). The work of Virag Vas was supported by a János Bolyai Research Scholarship from the Hungarian Academy of Sciences. Publisher Copyright: © 2019, The Author(s). Copyright: Copyright 2019 Elsevier B.V., All rights reserved.

PY - 2019/12/1

Y1 - 2019/12/1

N2 - The main driver of osteoporosis is an imbalance between bone resorption and formation. The pathogenesis of osteoporosis has also been connected to genetic alterations in key osteogenic factors and dysfunction of bone marrow mesenchymal stem/stromal cells (BM-MSCs). Tks4 (encoded by the Sh3pxd2b gene) is a scaffold protein involved in podosome organization. Homozygous mutational inactivation of Sh3pxd2b causes Frank-ter Haar syndrome (FTHS), a genetic disease that affects bone tissue as well as eye, ear, and heart functions. To date, the role of Tks4 in adult bone homeostasis has not been investigated. Therefore, the aim of this study was to analyze the facial and femoral bone phenotypes of Sh3pxd2b knock-out (KO) mice using micro-CT methods. In addition to the analysis of the Sh3pxd2b-KO mice, the bone microstructure of an FTHS patient was also examined. Macro-examination of skulls from Tks4-deficient mice revealed craniofacial malformations that were very similar to symptoms of the FTHS patient. The femurs of the Sh3pxd2b-KO mice had alterations in the trabecular system and showed signs of osteoporosis, and, similarly, the FTHS patient also showed increased trabecular separation/porosity. The expression levels of the Runx2 and osteocalcin bone formation markers were reduced in the bone and bone marrow of the Sh3pxd2b-KO femurs, respectively. Our recent study demonstrated that Sh3pxd2b-KO BM-MSCs have a reduced ability to differentiate into osteoblast lineage cells; therefore, we concluded that the Tks4 scaffold protein is important for osteoblast formation, and that it likely plays a role in bone cell homeostasis.

AB - The main driver of osteoporosis is an imbalance between bone resorption and formation. The pathogenesis of osteoporosis has also been connected to genetic alterations in key osteogenic factors and dysfunction of bone marrow mesenchymal stem/stromal cells (BM-MSCs). Tks4 (encoded by the Sh3pxd2b gene) is a scaffold protein involved in podosome organization. Homozygous mutational inactivation of Sh3pxd2b causes Frank-ter Haar syndrome (FTHS), a genetic disease that affects bone tissue as well as eye, ear, and heart functions. To date, the role of Tks4 in adult bone homeostasis has not been investigated. Therefore, the aim of this study was to analyze the facial and femoral bone phenotypes of Sh3pxd2b knock-out (KO) mice using micro-CT methods. In addition to the analysis of the Sh3pxd2b-KO mice, the bone microstructure of an FTHS patient was also examined. Macro-examination of skulls from Tks4-deficient mice revealed craniofacial malformations that were very similar to symptoms of the FTHS patient. The femurs of the Sh3pxd2b-KO mice had alterations in the trabecular system and showed signs of osteoporosis, and, similarly, the FTHS patient also showed increased trabecular separation/porosity. The expression levels of the Runx2 and osteocalcin bone formation markers were reduced in the bone and bone marrow of the Sh3pxd2b-KO femurs, respectively. Our recent study demonstrated that Sh3pxd2b-KO BM-MSCs have a reduced ability to differentiate into osteoblast lineage cells; therefore, we concluded that the Tks4 scaffold protein is important for osteoblast formation, and that it likely plays a role in bone cell homeostasis.

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DO - 10.1038/s41598-019-42250-6

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SN - 2045-2322

VL - 9

JO - Scientific Reports

JF - Scientific Reports

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Significance of the Tks4 scaffold protein in bone tissue homeostasis

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