Chemical sympathectomy impairs bone resorption in rats: a role for the sympathetic system on bone metabolism

Chemical sympathectomy impairs bone resorption in rats: a role for the sympathetic system on bone metabolism

The possibility that the nervous system may control bone metabolism has been raised, as neuromediators physiologically conveyed by sympathetic fibers (eg, vasoactive intestinal peptide) influence bone resorption in vitro. In this study, the sympathetic system was inactivated by treating rats with gu...

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Bibliographic Details
Published in:Bone (New York, N.Y.) Vol. 25; no. 5; pp. 545 - 551
Main Authors: Cherruau, M, Facchinetti, P, Baroukh, B, Saffar, J.L
Format: Journal Article
Language:English
Published: New York, NY Elsevier Inc 01-11-1999
Elsevier Science
Subjects:
Alkaline Phosphatase - analysis
Alkaline Phosphatase - metabolism
Animals
Biological and medical sciences
Bone Resorption - metabolism
Bone Resorption - physiopathology
Calcitonin Gene-Related Peptide - metabolism
Calcitonin Gene-Related Peptide - physiology
CGRP
Dental Pulp - innervation
Fundamental and applied biological sciences. Psychology
Guanethidine
Male
Mandible - enzymology
Mandible - innervation
Mandible - metabolism
Nervous system
Osteoclast-osteoblast interactions
Osteoclasts - cytology
Periosteum - cytology
Periosteum - enzymology
Periosteum - innervation
Periosteum - metabolism
Preosteoclast
Rats
Rats, Wistar
Resorption
Skeleton and joints
Substance P
Substance P - metabolism
Substance P - physiology
Sympathectomy
Sympathectomy, Chemical
Sympathetic Nervous System - physiology
Vertebrates: osteoarticular system, musculoskeletal system
Sympathectomy
Substance P
Osteoclast-osteoblast interactions
Resorption
Guanethidine
Preosteoclast
Nervous system
CGRP
Animal model
Rat
Rodentia
Osteoclast
Sympathetic nervous system
In vitro
Osteoarticular system
Vertebrata
Mammalia
Neuromediator
Chemical sympathectomy
Osteoblast
Biological effect
Bone
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Summary:The possibility that the nervous system may control bone metabolism has been raised, as neuromediators physiologically conveyed by sympathetic fibers (eg, vasoactive intestinal peptide) influence bone resorption in vitro. In this study, the sympathetic system was inactivated by treating rats with guanethidine (40 mg/kg/day), a sympathetic neurotoxic, for 21 days, after which a wave of osteoclastic resorption was induced along the mandibular buccal cortex. The effects of denervation were assessed 4 days later (corresponding to the peak of resorption in this model). The rats exhibited ptosis soon after starting guanethidine, proving the success of the sympathectomy. This was associated with a significant increase in calcitonin gene-related peptide- (+54%, p < 0.02) and substance P-immunoreactive sensory fibers (+29%, p < 0.02), a known effect of sympathectomy. For the quantitation of the bone parameters, the study zone was divided into a juxta-osseous alkaline phosphatase-positive osteogenic compartment and a nonosteogenic compartment. In the osteogenic compartment, the resorption surface was reduced by 56% ( p < 0.001) in the treated animals, together with a fall in the number of osteoclasts (−25%, p < 0.05) and impaired osteoclast access to the bone surface. Tartrate-resistant acid phosphatase-positive (TRAP +) mononuclear preosteoclasts were found only in this compartment; they were reduced by 43% ( p < 0.05) by the sympathectomy. No change in nonspecific esterase (NSE) + osteoclast precursors was found. In the nonosteogenic compartment, vasodilation was the only effect of sympathectomy (+80%, p < 0.05); in particular, the number of NSE + cells was not modified. Our results indicate that: (1) interactions of NSE + precursors with osteogenic cells are required for their differentiation into TRAP + preosteoclasts; (2) the sympathetic nervous system is not involved in osteoclast precursor recruitment; but (3) has a significant effect on resorption by inhibiting preosteoclast differentiation and disturbing osteoclast activation. These data suggest that depletion of sympathetic mediators may disturb osteogenic cell-mediated osteoclast differentiation.
ISSN:8756-3282
1873-2763
DOI:10.1016/S8756-3282(99)00211-2