Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing

Jessika Appelt; Serafeim Tsitsilonis; Ellen Otto; Denise Jahn; Paul Köhli; Anke Baranowsky; Shan Jiang; Melanie Fuchs; Christian H Bucher; Georg N Duda; Karl-Heinz Frosch; Johannes Keller

doi:10.3390/cells10092304

Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing

Standard

Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing. / Appelt, Jessika; Tsitsilonis, Serafeim; Otto, Ellen; Jahn, Denise; Köhli, Paul; Baranowsky, Anke; Jiang, Shan; Fuchs, Melanie; Bucher, Christian H; Duda, Georg N; Frosch, Karl-Heinz ; Keller, Johannes.

in: CELLS-BASEL, Jahrgang 10, Nr. 9, 03.09.2021, S. 2304.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Appelt, J, Tsitsilonis, S, Otto, E, Jahn, D, Köhli, P, Baranowsky, A, Jiang, S, Fuchs, M, Bucher, CH, Duda, GN, Frosch, K-H & Keller, J 2021, 'Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing', CELLS-BASEL, Jg. 10, Nr. 9, S. 2304. https://doi.org/10.3390/cells10092304

APA

Appelt, J., Tsitsilonis, S., Otto, E., Jahn, D., Köhli, P., Baranowsky, A., Jiang, S., Fuchs, M., Bucher, C. H., Duda, G. N., Frosch, K-H., & Keller, J. (2021). Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing. CELLS-BASEL, 10(9), 2304. https://doi.org/10.3390/cells10092304

Vancouver

Appelt J, Tsitsilonis S, Otto E, Jahn D, Köhli P, Baranowsky A et al. Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing. CELLS-BASEL. 2021 Sep 3;10(9):2304. https://doi.org/10.3390/cells10092304

Bibtex

@article{54fe4f1c508643dc830251aac8a31133,

title = "Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing",

abstract = "Despite significant advances in surgical techniques, treatment options for impaired bone healing are still limited. Inadequate bone regeneration is not only associated with pain, prolonged immobilization and often multiple revision surgeries, but also with high socioeconomic costs, underlining the importance of a detailed understanding of the bone healing process. In this regard, we previously showed that mice lacking the calcitonin receptor (CTR) display increased bone formation mediated through the increased osteoclastic secretion of sphingosine-1-phosphate (S1P), an osteoanabolic molecule promoting osteoblast function. Although strong evidence is now available for the crucial role of osteoclast-to-osteoblast coupling in normal bone hemostasis, the relevance of this paracrine crosstalk during bone regeneration is unknown. Therefore, our study was designed to test whether increased osteoclast-to-osteoblast coupling, as observed in CTR-deficient mice, may positively affect bone repair. In a standardized femoral osteotomy model, global CTR-deficient mice displayed no alteration in radiologic callus parameters. Likewise, static histomorphometry demonstrated moderate impairment of callus microstructure and normal osseous bridging of osteotomy ends. In conclusion, bone regeneration is not accelerated in CTR-deficient mice, and contrary to its osteoanabolic action in normal bone turnover, osteoclast-to-osteoblast coupling specifically involving the CTR-S1P axis, may only be of minor relevance during bone healing.",

author = "Jessika Appelt and Serafeim Tsitsilonis and Ellen Otto and Denise Jahn and Paul K{\"o}hli and Anke Baranowsky and Shan Jiang and Melanie Fuchs and Bucher, {Christian H} and Duda, {Georg N} and Karl-Heinz Frosch and Johannes Keller",

year = "2021",

month = sep,

day = "3",

doi = "10.3390/cells10092304",

language = "English",

volume = "10",

pages = "2304",

journal = "CELLS-BASEL",

issn = "2073-4409",

publisher = "MDPI Multidisciplinary Digital Publishing Institute",

number = "9",

}

RIS

TY - JOUR

T1 - Mice Lacking the Calcitonin Receptor Do Not Display Improved Bone Healing

AU - Appelt, Jessika

AU - Tsitsilonis, Serafeim

AU - Otto, Ellen

AU - Jahn, Denise

AU - Köhli, Paul

AU - Baranowsky, Anke

AU - Jiang, Shan

AU - Fuchs, Melanie

AU - Bucher, Christian H

AU - Duda, Georg N

AU - Frosch, Karl-Heinz

AU - Keller, Johannes

PY - 2021/9/3

Y1 - 2021/9/3

N2 - Despite significant advances in surgical techniques, treatment options for impaired bone healing are still limited. Inadequate bone regeneration is not only associated with pain, prolonged immobilization and often multiple revision surgeries, but also with high socioeconomic costs, underlining the importance of a detailed understanding of the bone healing process. In this regard, we previously showed that mice lacking the calcitonin receptor (CTR) display increased bone formation mediated through the increased osteoclastic secretion of sphingosine-1-phosphate (S1P), an osteoanabolic molecule promoting osteoblast function. Although strong evidence is now available for the crucial role of osteoclast-to-osteoblast coupling in normal bone hemostasis, the relevance of this paracrine crosstalk during bone regeneration is unknown. Therefore, our study was designed to test whether increased osteoclast-to-osteoblast coupling, as observed in CTR-deficient mice, may positively affect bone repair. In a standardized femoral osteotomy model, global CTR-deficient mice displayed no alteration in radiologic callus parameters. Likewise, static histomorphometry demonstrated moderate impairment of callus microstructure and normal osseous bridging of osteotomy ends. In conclusion, bone regeneration is not accelerated in CTR-deficient mice, and contrary to its osteoanabolic action in normal bone turnover, osteoclast-to-osteoblast coupling specifically involving the CTR-S1P axis, may only be of minor relevance during bone healing.

AB - Despite significant advances in surgical techniques, treatment options for impaired bone healing are still limited. Inadequate bone regeneration is not only associated with pain, prolonged immobilization and often multiple revision surgeries, but also with high socioeconomic costs, underlining the importance of a detailed understanding of the bone healing process. In this regard, we previously showed that mice lacking the calcitonin receptor (CTR) display increased bone formation mediated through the increased osteoclastic secretion of sphingosine-1-phosphate (S1P), an osteoanabolic molecule promoting osteoblast function. Although strong evidence is now available for the crucial role of osteoclast-to-osteoblast coupling in normal bone hemostasis, the relevance of this paracrine crosstalk during bone regeneration is unknown. Therefore, our study was designed to test whether increased osteoclast-to-osteoblast coupling, as observed in CTR-deficient mice, may positively affect bone repair. In a standardized femoral osteotomy model, global CTR-deficient mice displayed no alteration in radiologic callus parameters. Likewise, static histomorphometry demonstrated moderate impairment of callus microstructure and normal osseous bridging of osteotomy ends. In conclusion, bone regeneration is not accelerated in CTR-deficient mice, and contrary to its osteoanabolic action in normal bone turnover, osteoclast-to-osteoblast coupling specifically involving the CTR-S1P axis, may only be of minor relevance during bone healing.

U2 - 10.3390/cells10092304

DO - 10.3390/cells10092304

M3 - SCORING: Journal article

C2 - 34571953

VL - 10

SP - 2304

JO - CELLS-BASEL

JF - CELLS-BASEL

SN - 2073-4409

IS - 9

ER -