Alterations in the osteocyte lacunar–canalicular microenvironment due to estrogen deficiency

Alterations in the osteocyte lacunar–canalicular microenvironment due to estrogen deficiency

Abstract While reduced estrogen levels have been shown to increase bone turnover and induce bone loss, there has been little analysis of the effects of diminished estrogen levels on the lacunar–canalicular porosity that houses the osteocytes. Alterations in the osteocyte lacunar–canalicular microenv...

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Bibliographic Details
Published in:Bone (New York, N.Y.) N.Y.), 2012-09, Vol.51 (3), p.488-497
Main Authors: Sharma, Divya, Ciani, Cesare, Marin, Paula A. Ramirez, Levy, Jessica D, Doty, Stephen B, Fritton, Susannah P
Format: Article
Language:eng
Subjects:
Animals
Biological and medical sciences
Canaliculi
Cellular Microenvironment
Diaphyses - pathology
Diaphyses - ultrastructure
Diseases of the osteoarticular system
Estrogens - deficiency
Estrogens - metabolism
Female
Fundamental and applied biological sciences. Psychology
Haversian System - pathology
Haversian System - ultrastructure
Lacuna
Medical sciences
Microscopy, Confocal
Organ Size
Orthopedics
Osteocyte
Osteocytes - metabolism
Osteocytes - pathology
Osteoporosis
Osteoporosis. Osteomalacia. Paget disease
Ovariectomy
Periosteocytic remodeling
Porosity
Rats
Rats, Sprague-Dawley
Tibia - pathology
Tibia - ultrastructure
Vertebrates: anatomy and physiology, studies on body, several organs or systems
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Summary:Abstract While reduced estrogen levels have been shown to increase bone turnover and induce bone loss, there has been little analysis of the effects of diminished estrogen levels on the lacunar–canalicular porosity that houses the osteocytes. Alterations in the osteocyte lacunar–canalicular microenvironment may affect the osteocyte's ability to sense and translate mechanical signals, possibly contributing to bone degradation during osteoporosis. To investigate whether reduced estrogen levels affect the osteocyte microenvironment, this study used high-resolution microscopy techniques to assess the lacunar–canalicular microstructure in the rat ovariectomy (OVX) model of postmenopausal osteoporosis. Confocal microscopy analyses indicated that OVX rats had a larger effective lacunar–canalicular porosity surrounding osteocytes in both cortical and cancellous bone from the proximal tibial metaphysis, with little change in cortical bone from the diaphysis or cancellous bone from the epiphysis. The increase in the effective lacunar–canalicular porosity in the tibial metaphysis was not due to changes in osteocyte lacunar density, lacunar size, or the number of canaliculi per lacuna. Instead, the effective canalicular size measured using a small molecular weight tracer was larger in OVX rats compared to controls. Further analysis using scanning and transmission electron microscopy demonstrated that the larger effective canalicular size in the estrogen-deficient state was due to nanostructural matrix-mineral level differences like loose collagen surrounding osteocyte canaliculi. These matrix-mineral differences were also found in osteocyte lacunae in OVX, but the small surface changes did not significantly increase the effective lacunar size. The alterations in the lacunar–canalicular surface mineral or matrix environment appear to make OVX bone tissue more permeable to small molecules, potentially altering interstitial fluid flow around osteocytes during mechanical loading.
ISSN:8756-3282
1873-2763