Blockade of the sympathetic nervous system degrades ligament in a rat MCL model

Kelley W. Dwyer, Paolo P. Provenzano, Peter Muir, Wilmot B. Valhmu, Ray Vanderby

Research output: Contribution to journalArticlepeer-review

Abstract

We hypothesize that blockade of the sympathetic nervous system degrades ligament. We tested this hypothesis in a rat medial collateral ligament (MCL) model. Fifteen animals were treated for 10 days with the sympathetic chemotoxin guanethidine using osmotic pumps, whereas 15 control rats received pumps containing saline. A reduction in plasma concentrations of norepinephrine in the guanethidine rats indicated a significant decrease in sympathetic nerve activity. Vasoactive intestinal peptide and neuropeptide Y were decreased in MCLs from guanethidine animals, as quantified by radioimmunoassays. Tissue vascularity was substantially increased in guanethidine MCLs, whereas mechanical properties were significantly decreased. Proteases, such as matrix metalloproteinases (MMP) and cysteine proteases, play a major role in ligament degradation. The proteases MMP-13, cathepsin K, and tartrate-resistant acid phosphatase (TRAP) have collagenolytic activity and have been shown in rat ligament tissues. To determine whether the degradation seen in this study was due to protease activity, we determined the expression of these enzymes in control and treated MCLs. Real-time quantitative PCR revealed that guanethidine treatment increased expression of MMP-13 and cathepsin K mRNAs, although overall expression levels of MMP-13 and TRAP were relatively low. Histology also identified increases in TRAP and cathepsin K, but not MMP-13, in guanethidine-treated tissues. Results support our hypothesis that blockade of the sympathetic nervous system substantially degrades ligament.

Original languageEnglish (US)
Pages (from-to)711-718
Number of pages8
JournalJournal of applied physiology
Volume96
Issue number2
DOIs
StatePublished - Feb 2004
Externally publishedYes

Keywords

  • Guanethidine
  • Medial collateral ligament
  • Neuropeptide
  • Tissue engineering
  • Tissue mechanics

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