Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration

Tom W. Andrew; Lauren S. Koepke; Yuting Wang; Michael Lopez; Holly Steininger; Danielle Struck; Tatiana Boyko; Thomas H. Ambrosi; Xinming Tong; Yuxi Sun; Gunsagar S. Gulati; Matthew P. Murphy; Owen Marecic; Ruth Telvin; Katharina Schallmoser; Dirk Strunk; Jun Seita; Stuart B. Goodman; Fan Yang; Michael T. Longaker; George P. Yang; Charles K.F. Chan

doi:10.1038/s41467-022-34063-5

Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration

Tom W. Andrew
, Lauren S. Koepke
, Yuting Wang
, Michael Lopez
, Holly Steininger
, Danielle Struck
, Tatiana Boyko
, Thomas H. Ambrosi
, Xinming Tong
, Yuxi Sun
, Gunsagar S. Gulati
, Matthew P. Murphy
, Owen Marecic
, Ruth Telvin
, Katharina Schallmoser
, Dirk Strunk
, Jun Seita
, Stuart B. Goodman
, Fan Yang
, Michael T. Longaker

George P. Yang, Charles K.F. Chan

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

33 Scopus citations

Abstract

Sexually dimorphic tissues are formed by cells that are regulated by sex hormones. While a number of systemic hormones and transcription factors are known to regulate proliferation and differentiation of osteoblasts and osteoclasts, the mechanisms that determine sexually dimorphic differences in bone regeneration are unclear. To explore how sex hormones regulate bone regeneration, we compared bone fracture repair between adult male and female mice. We found that skeletal stem cell (SSC) mediated regeneration in female mice is dependent on estrogen signaling but SSCs from male mice do not exhibit similar estrogen responsiveness. Mechanistically, we found that estrogen acts directly on the SSC lineage in mice and humans by up-regulating multiple skeletogenic pathways and is necessary for the stem cell’s ability to self- renew and differentiate. Our results also suggest a clinically applicable strategy to accelerate bone healing using localized estrogen hormone therapy.

Original language	English
Article number	6491
Journal	Nature communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-34063-5
State	Published - Dec 2022

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Andrew, T. W., Koepke, L. S., Wang, Y., Lopez, M., Steininger, H., Struck, D., Boyko, T., Ambrosi, T. H., Tong, X., Sun, Y., Gulati, G. S., Murphy, M. P., Marecic, O., Telvin, R., Schallmoser, K., Strunk, D., Seita, J., Goodman, S. B., Yang, F., ... Chan, C. K. F. (2022). Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration. Nature communications, 13(1), Article 6491. https://doi.org/10.1038/s41467-022-34063-5

@article{4c56261044a54a2ba5fd344709b7409a,

title = "Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration",

abstract = "Sexually dimorphic tissues are formed by cells that are regulated by sex hormones. While a number of systemic hormones and transcription factors are known to regulate proliferation and differentiation of osteoblasts and osteoclasts, the mechanisms that determine sexually dimorphic differences in bone regeneration are unclear. To explore how sex hormones regulate bone regeneration, we compared bone fracture repair between adult male and female mice. We found that skeletal stem cell (SSC) mediated regeneration in female mice is dependent on estrogen signaling but SSCs from male mice do not exhibit similar estrogen responsiveness. Mechanistically, we found that estrogen acts directly on the SSC lineage in mice and humans by up-regulating multiple skeletogenic pathways and is necessary for the stem cell{\textquoteright}s ability to self- renew and differentiate. Our results also suggest a clinically applicable strategy to accelerate bone healing using localized estrogen hormone therapy.",

author = "Andrew, \{Tom W.\} and Koepke, \{Lauren S.\} and Yuting Wang and Michael Lopez and Holly Steininger and Danielle Struck and Tatiana Boyko and Ambrosi, \{Thomas H.\} and Xinming Tong and Yuxi Sun and Gulati, \{Gunsagar S.\} and Murphy, \{Matthew P.\} and Owen Marecic and Ruth Telvin and Katharina Schallmoser and Dirk Strunk and Jun Seita and Goodman, \{Stuart B.\} and Fan Yang and Longaker, \{Michael T.\} and Yang, \{George P.\} and Chan, \{Charles K.F.\}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-34063-5",

language = "English",

volume = "13",

journal = "Nature communications",

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Andrew, TW, Koepke, LS, Wang, Y, Lopez, M, Steininger, H, Struck, D, Boyko, T, Ambrosi, TH, Tong, X, Sun, Y, Gulati, GS, Murphy, MP, Marecic, O, Telvin, R, Schallmoser, K, Strunk, D, Seita, J, Goodman, SB, Yang, F, Longaker, MT, Yang, GP & Chan, CKF 2022, 'Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration', Nature communications, vol. 13, no. 1, 6491. https://doi.org/10.1038/s41467-022-34063-5

TY - JOUR

T1 - Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration

AU - Andrew, Tom W.

AU - Koepke, Lauren S.

AU - Wang, Yuting

AU - Lopez, Michael

AU - Steininger, Holly

AU - Struck, Danielle

AU - Boyko, Tatiana

AU - Ambrosi, Thomas H.

AU - Tong, Xinming

AU - Sun, Yuxi

AU - Gulati, Gunsagar S.

AU - Murphy, Matthew P.

AU - Marecic, Owen

AU - Telvin, Ruth

AU - Schallmoser, Katharina

AU - Strunk, Dirk

AU - Seita, Jun

AU - Goodman, Stuart B.

AU - Yang, Fan

AU - Longaker, Michael T.

AU - Yang, George P.

AU - Chan, Charles K.F.

PY - 2022/12

Y1 - 2022/12

N2 - Sexually dimorphic tissues are formed by cells that are regulated by sex hormones. While a number of systemic hormones and transcription factors are known to regulate proliferation and differentiation of osteoblasts and osteoclasts, the mechanisms that determine sexually dimorphic differences in bone regeneration are unclear. To explore how sex hormones regulate bone regeneration, we compared bone fracture repair between adult male and female mice. We found that skeletal stem cell (SSC) mediated regeneration in female mice is dependent on estrogen signaling but SSCs from male mice do not exhibit similar estrogen responsiveness. Mechanistically, we found that estrogen acts directly on the SSC lineage in mice and humans by up-regulating multiple skeletogenic pathways and is necessary for the stem cell’s ability to self- renew and differentiate. Our results also suggest a clinically applicable strategy to accelerate bone healing using localized estrogen hormone therapy.

AB - Sexually dimorphic tissues are formed by cells that are regulated by sex hormones. While a number of systemic hormones and transcription factors are known to regulate proliferation and differentiation of osteoblasts and osteoclasts, the mechanisms that determine sexually dimorphic differences in bone regeneration are unclear. To explore how sex hormones regulate bone regeneration, we compared bone fracture repair between adult male and female mice. We found that skeletal stem cell (SSC) mediated regeneration in female mice is dependent on estrogen signaling but SSCs from male mice do not exhibit similar estrogen responsiveness. Mechanistically, we found that estrogen acts directly on the SSC lineage in mice and humans by up-regulating multiple skeletogenic pathways and is necessary for the stem cell’s ability to self- renew and differentiate. Our results also suggest a clinically applicable strategy to accelerate bone healing using localized estrogen hormone therapy.

UR - https://www.scopus.com/pages/publications/85140902408

U2 - 10.1038/s41467-022-34063-5

DO - 10.1038/s41467-022-34063-5

M3 - Article

C2 - 36310174

AN - SCOPUS:85140902408

SN - 2041-1723

VL - 13

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 6491

ER -

Sexually dimorphic estrogen sensing in skeletal stem cells controls skeletal regeneration

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