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Abstract
The mechanical function of many matrix molecules is unknown. A common method to determine whether a molecule is a load-carrying structural molecule is to measure the mechanical properties of a tissue, digest the tissue with an enzyme specific for cleaving that molecule, and then remeasure the mechanical properties. A limitation of this technique is that there are no specific lytic enzymes for most molecules of interest. This article introduces a method that may allow evaluation of a large number of candidate structural molecules. A translated thrombin proteolytic recognition and cleavage site is inserted in the cDNA of a target molecule, and the target molecule then expressed in a cell that produces a tissue. After growing the tissue with cells expressing the engineered target molecule, the traditional procedure of mechanical testing, digesting, and retesting is performed. This method was demonstrated using decorin and its dermatan sulfate (DS) glycosaminoglycan chain in a neocartilage. A tissue was generated with cells expressing a genetically engineered decorin with a thrombin cleavage site. The tissue was then tested in tension and compression, digested with thrombin, and mechanically retested. The decorin protein was found in the tissue, the DS glycosaminoglycan chain was removed with thrombin digestion, and there was no change in the mechanical properties of the tissue due to the thrombin digestion relative to controls. These findings were in agreement with previously reported tests on decorin, collectively supporting the proposed method. All methods involving animals were reviewed and approved by our Institutional Review Board.
Acknowledgments
Jennifer Westendorf, PhD, gave valuable advice in the early work on which this article is based; we are very appreciative of her contribution. Ann Brearley, PhD, from the Biostatistical Design and Analysis Center at the Clinical and Translational Science Institute, gave valuable advice on the statistical analysis of data. We also acknowledge and appreciate her contribution.
Declaration of interest
This study was made possible by Grant Number AR060196 from NIAMS/NIH and by support from the Minnesota Supercomputer Institute of the University of Minnesota. The authors have no financial or personal relationships with other individuals or organizations that could bias this work and serve as a potential conflict of interest.