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Lack of ?2C-Adrenoceptor Results in Contrasting Phenotypes of Long Bones and Vertebra and Prevents the Thyrotoxicosis-Induced Osteopenia.


ABSTRACT: A series of studies have demonstrated that activation of the sympathetic nervous system (SNS) causes osteopenia via ?2-adrenoceptor (?2-AR) signaling. However, in a recent study, we found an unexpected and generalized phenotype of high bone mass in female mice with chronic sympathetic hyperactivity, due to double gene inactivation of adrenoceptors that negatively regulate norepinephrine release, ?2A-and ?2C-AR (?2A/2C-AR-/-). These findings suggest that ?2-AR is not the single adrenoceptor involved in bone turnover regulation and show that ?2-AR signaling may also mediate the SNS actions in the skeleton. In addition, we found that ?2A/2C-AR-/- animals are resistant to the thyrotoxicosis-induced osteopenia, suggesting that thyroid hormone (TH), when in supraphysiological levels, interacts with the SNS to control bone mass and structure, and that this interaction may also involve ?2-AR signaling. In the present study, to further investigate these hypotheses and to discriminate the roles of ?2-AR subtypes, we have evaluated the bone phenotype of mice with the single gene inactivation of ?2C-AR subtype, which mRNA expression was previously shown to be down regulated by triiodothyronine (T3). A cohort of 30 day-old female ?2CAR-/- mice and their wild-type (WT) controls were treated with a supraphysiological dose of T3 for 30 or 90 days, which induced a thyrotoxic state in both mouse lineages. The micro-computed tomographic (?CT) analysis showed that ?2C-AR-/- mice present lower trabecular bone volume (BV/TV) and number (Tb.N), and increased trabecular separation (Tb.Sp) in the femur compared with WT mice; which was accompanied by decreased bone strength (determined by the three-point bending test) in the femur and tibia. The opposite was observed in the vertebra, where ?2C-AR-/- mice show increased BV/TV, Tb.N and trabecular thickness (Tb.Th), and decreased Tb.Sp, compared with WT animals. In spite of the contrasting bone phenotypes of the femur and L5, thyrotoxicosis negatively regulated most of the micro architectural features of the trabecular bone in both skeletal sites of WT, but not of ?2C-AR-/- mice. T3 treatment also decreased biomechanical properties (maximum load and ultimate load) in the femur and tibia of WT, but not of knockout mice. The mRNA expression of osteocalcin, a marker of mature osteoblasts, and tartrate-resistant acid phosphatase, which is expressed by osteoclasts and is involved in collagen degradation, was increased by T3 treatment only in WT, and not in ?2C-AR-/- mice. Altogether, these findings suggest that ?2C-AR subtype mediates the effects of the SNS in the bone in a skeletal site-dependent manner, and that thyrotoxicosis depends on ?2C-AR signaling to promote bone loss, which sustains the hypothesis of a TH-SNS interaction to modulate bone remodeling and structure.

SUBMITTER: Cruz Grecco Teixeira MB 

PROVIDER: S-EPMC4729682 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Lack of α2C-Adrenoceptor Results in Contrasting Phenotypes of Long Bones and Vertebra and Prevents the Thyrotoxicosis-Induced Osteopenia.

Cruz Grecco Teixeira Marilia Bianca MB   Martins Gisele Miyamura GM   Miranda-Rodrigues Manuela M   De Araújo Iasmin Ferreira IF   Oliveira Ricardo R   Brum Patrícia Chakur PC   Azevedo Gouveia Cecilia Helena CH  

PloS one 20160127 1


A series of studies have demonstrated that activation of the sympathetic nervous system (SNS) causes osteopenia via β2-adrenoceptor (β2-AR) signaling. However, in a recent study, we found an unexpected and generalized phenotype of high bone mass in female mice with chronic sympathetic hyperactivity, due to double gene inactivation of adrenoceptors that negatively regulate norepinephrine release, α2A-and α2C-AR (α2A/2C-AR-/-). These findings suggest that β2-AR is not the single adrenoceptor invol  ...[more]

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