Estrogen treatment prevents osteopenia and depresses bone turnover in ovariectomized rats

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Wronski, T. J.¹; Cintron, M.¹; Doherty, A. L.¹; Dann, L. M.¹

Estrogen treatment prevents osteopenia and depresses bone turnover in ovariectomized rats

Endocrinology. August 1988;123(2):681-686

©1988 The Endocrine Society

Affiliations

¹Department of Physiological Sciences, University of Florida College of Veterinary Medicine, Gainesville, Florida 32610
Abstract

Female Sprague-Dawley rats were subjected to bilateral ovariectomy (OVX) or sham surgery (control). Groups of ovariectomized (OVX) and control rats were injected daily with low, medium, or high doses of 17β-estradiol (10, 25, or 50 μg/kg BW, respectively). An additional group of OVX and control rats was injected daily with vehicle alone. All rats were killed 35 days after OVX, and their proximal tibiae were processed undecalcified for quantitative bone histomorphometry. Trabecular bone volume was markedly reduced in vehicletreated OVX rats relative to that in control rats (12.1% vs. 26.7%). This bone loss was associated with a 2-fold increase in osteoclast surface and a 4-fold increase in osteoblast surface. The bone formation rate, studied with fluorochrome labeling, was also significantly elevated in vehicle-treated OVX rats (0.111 vs. 0.026 μ3/μm².day). In contrast, treatment of OVX rats with the three doses of estradiol resulted in normalization of tibial trabecular bone volume and a decline in histomorphometric indices of bone resorption and formation. Our results indicate that estrogen treatment provides complete protection against osteopenia in OVX rats. The protective mechanism involves estrogenic suppression of bone turnover. These findings are consistent with the skeletal effects of estrogen therapy in postmenopausal women.
Links

DOI: 10.1210/endo-123-2-681

PubMed: 3396505

WoS: A1988P507100002
History

Received: 1987-10-12

Cited Works (9)

Year	Entry
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Cited By (15)

Year	Entry
1993	Chow JW, Jagger CJ, Chambers TJ. Characterization of osteogenic response to mechanical stimulation in cancellous bone of rat caudal vertebrae. Am J Physiol Endocrinol Metab. August 1993;265(2, pt 1):E340-E347.
1995	Dempster DW, Birchman R, Xu R, Lindsay R, Shen V. Temporal changes in cancellous bone structure of rats immediately after ovariectomy. Bone. January 1995;16(1):157-161.
1991	Kalu DN. The ovariectomized rat model of postmenopausal bone loss. Bone Miner. December 1991;15(3):175-191.
1992	Frost HM, Jee WSS. On the rat model of human osteopenias and osteoporoses. Bone Miner. September 1992;18(3):227-236.
1993	Chambers TJ, Evans M, Gardner TN, Turner-Smith A, Chow JWM. Induction of bone formation in rat tail vertebrae by mechanical loading. Bone Miner. February 1993;20(2):167-178.
1993	Danielsen CC, Mosekilde L, Svenstrup B. Cortical bone mass, composition, and mechanical properties in female rats in relation to age, long-term ovariectomy, and estrogen substitution. Calcif Tiss Int. January 1993;52(1):26-33.
2018	Morton JJ, Bennison M, Lievers WB, Waldman SD, Pilkey AK. Failure behaviour of rat vertebrae determined through simultaneous compression testing and micro-CT imaging. J Mech Behav Biomed Mater. March 2018;79:73-82.
2002	Lane NE, Kumer JL, Majumdar S, Khan M, Lotz J, Stevens RE, Klein R, Phelps KV. The effects of synthetic conjugated estrogens, a (cenestin) on trabecular bone structure and strength in the ovariectomized rat model. Osteoporos Int. October 2002;13(10):816-823.
2020	O’Sullivan LM, Allison H, Parle EE, Schiavi J, McNamara LM. Secondary alterations in bone mineralisation and trabecular thickening occur after long-term estrogen deficiency in ovariectomised rat tibiae, which do not coincide with initial rapid bone loss. Osteoporos Int. March 2020;31(3):587-599.
1994	Sims NA. The Pathogenesis of Post-Menopausal Osteopaenia Using the Oophorectomised Rat Model [PhD thesis]. Adelaide, Australia: The University of Adelaide; July 1994.
2010	Lynch ME. Cancellous Bone Adaptation to Non-Invasive Mechanical Loading in the Murine Tibia [PhD thesis]. Ithaca, NY: Cornell University; August 2010.
2017	Kreipke TC. Structural, Mechanical, and Biological Relationships of Trabecular Bone in Osteoporosis [PhD thesis]. Notre Dame, IN: University of Notre Dame; April 2017.
2020	O’Sullivan LM. Time-Sequence of Biomechanical Adaption in Trabecular Tissue During Estrogen Deficiency [PhD thesis]. National University of Ireland Galway; March 2020.
1993	McCubbrey DA. The Macroscopic Architectural Properties of Vertebral Trabecular Bone and Their Relation to Whole Vertebral Failure Loads [PhD thesis]. University of Michigan; 1993.
1996	Sheng MH. The Role of Boron Alone or in Combination With Estrogen or PTH in the Treatment of Postmenopausal Osteoporosis in Ovariectomized Rats [PhD thesis]. Virginia Polytechnic Institute and State University; December 1996.