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Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen

Standard

Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen. / Teufel, Stefan; Grötsch, Bettina; Luther, Julia; Derer, Anja; Schinke, Thorsten; Amling, Michael; Schett, Georg; Mielenz, Dirk; David, Jean-Pierre.

in: J IMMUNOL, Jahrgang 193, Nr. 1, 01.07.2014, S. 223-233.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Teufel, S, Grötsch, B, Luther, J, Derer, A, Schinke, T, Amling, M, Schett, G, Mielenz, D & David, J-P 2014, 'Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen', J IMMUNOL, Jg. 193, Nr. 1, S. 223-233. https://doi.org/10.4049/jimmunol.1302713

APA

Teufel, S., Grötsch, B., Luther, J., Derer, A., Schinke, T., Amling, M., Schett, G., Mielenz, D., & David, J-P. (2014). Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen. J IMMUNOL, 193(1), 223-233. https://doi.org/10.4049/jimmunol.1302713

Vancouver

Teufel S, Grötsch B, Luther J, Derer A, Schinke T, Amling M et al. Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen. J IMMUNOL. 2014 Jul 1;193(1):223-233. https://doi.org/10.4049/jimmunol.1302713

Bibtex

@article{af9b419768b84f08a634b07e26471a3d,
title = "Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen",
abstract = "The bone marrow provides niches for early B cell differentiation and long-lived plasma cells. Therefore, it has been hypothesized that perturbing bone homeostasis might impact B cell function and Ab production. This hypothesis is highly relevant for patients receiving long-term treatment with antiresorptive drugs. We therefore analyzed the humoral immune response of mice chronically treated with ibandronate, a commonly used bisphosphonate. We confirmed the increased bone mass caused by inhibition of osteoclast activity and also the strongly reduced bone formation because of decreased osteoblast numbers in response to ibandronate. Thus, bisphosphonate drastically inhibited bone remodeling. When ibandronate was injected into mice after a primary immunization to mimic common antiosteoporotic treatments, the generation of the various B cell populations, the response to booster immunization, and the generation of plasma cells were surprisingly normal. Mice also responded normally to immunization when ibandronate was applied to naive mice. However, there, ibandronate shunted the homing of bone marrow plasma cells. Interestingly, ibandronate reduced the numbers of megakaryocytes, a known component of the bone marrow plasma cell niche. In line with normal Ab responses, increased plasma cell populations associated with increased megakaryocyte numbers were then observed in the spleens of the ibandronate-treated mice. Thus, although inhibition of bone remodeling disturbed the bone marrow plasma cell niche, a compensatory niche may have been created by relocating the megakaryocytes into the spleen, thereby allowing normal B cell responses. Therefore, megakaryocytes may act as a key regulator of plasma cell niche plasticity.",
author = "Stefan Teufel and Bettina Gr{\"o}tsch and Julia Luther and Anja Derer and Thorsten Schinke and Michael Amling and Georg Schett and Dirk Mielenz and Jean-Pierre David",
note = "Copyright {\textcopyright} 2014 by The American Association of Immunologists, Inc.",
year = "2014",
month = jul,
day = "1",
doi = "10.4049/jimmunol.1302713",
language = "English",
volume = "193",
pages = "223--233",
journal = "J IMMUNOL",
issn = "0022-1767",
publisher = "American Association of Immunologists",
number = "1",

}

RIS

TY - JOUR

T1 - Inhibition of bone remodeling in young mice by bisphosphonate displaces the plasma cell niche into the spleen

AU - Teufel, Stefan

AU - Grötsch, Bettina

AU - Luther, Julia

AU - Derer, Anja

AU - Schinke, Thorsten

AU - Amling, Michael

AU - Schett, Georg

AU - Mielenz, Dirk

AU - David, Jean-Pierre

N1 - Copyright © 2014 by The American Association of Immunologists, Inc.

PY - 2014/7/1

Y1 - 2014/7/1

N2 - The bone marrow provides niches for early B cell differentiation and long-lived plasma cells. Therefore, it has been hypothesized that perturbing bone homeostasis might impact B cell function and Ab production. This hypothesis is highly relevant for patients receiving long-term treatment with antiresorptive drugs. We therefore analyzed the humoral immune response of mice chronically treated with ibandronate, a commonly used bisphosphonate. We confirmed the increased bone mass caused by inhibition of osteoclast activity and also the strongly reduced bone formation because of decreased osteoblast numbers in response to ibandronate. Thus, bisphosphonate drastically inhibited bone remodeling. When ibandronate was injected into mice after a primary immunization to mimic common antiosteoporotic treatments, the generation of the various B cell populations, the response to booster immunization, and the generation of plasma cells were surprisingly normal. Mice also responded normally to immunization when ibandronate was applied to naive mice. However, there, ibandronate shunted the homing of bone marrow plasma cells. Interestingly, ibandronate reduced the numbers of megakaryocytes, a known component of the bone marrow plasma cell niche. In line with normal Ab responses, increased plasma cell populations associated with increased megakaryocyte numbers were then observed in the spleens of the ibandronate-treated mice. Thus, although inhibition of bone remodeling disturbed the bone marrow plasma cell niche, a compensatory niche may have been created by relocating the megakaryocytes into the spleen, thereby allowing normal B cell responses. Therefore, megakaryocytes may act as a key regulator of plasma cell niche plasticity.

AB - The bone marrow provides niches for early B cell differentiation and long-lived plasma cells. Therefore, it has been hypothesized that perturbing bone homeostasis might impact B cell function and Ab production. This hypothesis is highly relevant for patients receiving long-term treatment with antiresorptive drugs. We therefore analyzed the humoral immune response of mice chronically treated with ibandronate, a commonly used bisphosphonate. We confirmed the increased bone mass caused by inhibition of osteoclast activity and also the strongly reduced bone formation because of decreased osteoblast numbers in response to ibandronate. Thus, bisphosphonate drastically inhibited bone remodeling. When ibandronate was injected into mice after a primary immunization to mimic common antiosteoporotic treatments, the generation of the various B cell populations, the response to booster immunization, and the generation of plasma cells were surprisingly normal. Mice also responded normally to immunization when ibandronate was applied to naive mice. However, there, ibandronate shunted the homing of bone marrow plasma cells. Interestingly, ibandronate reduced the numbers of megakaryocytes, a known component of the bone marrow plasma cell niche. In line with normal Ab responses, increased plasma cell populations associated with increased megakaryocyte numbers were then observed in the spleens of the ibandronate-treated mice. Thus, although inhibition of bone remodeling disturbed the bone marrow plasma cell niche, a compensatory niche may have been created by relocating the megakaryocytes into the spleen, thereby allowing normal B cell responses. Therefore, megakaryocytes may act as a key regulator of plasma cell niche plasticity.

U2 - 10.4049/jimmunol.1302713

DO - 10.4049/jimmunol.1302713

M3 - SCORING: Journal article

C2 - 24899506

VL - 193

SP - 223

EP - 233

JO - J IMMUNOL

JF - J IMMUNOL

SN - 0022-1767

IS - 1

ER -