Mechanical regulation of PTHrP expression in entheses

The PTHrP gene is expressed in the periosteum and in tendon and ligament insertion sites in a PTHrP-IacZ knockin reporter mouse. Here, we present a more detailed histological evaluation of PTHrP expression in these sites and study the effects of mechanical force on PTHrP expression in selected sites. We studied the periosteum and selected entheses by histological, histochemical, and in situ hybridization histochemical techniques, and tendons or ligaments were unloaded by tail suspension or surgical transection. In the periosteum, PTHrP is expressed in the fibrous layer and the type 1 PTH/PTHrP receptor (PTH1R) in the subjacent cambial layer. PTHrP has distinct temporospatial patterns of expression in the periosteum, one hot spot being the metaphyseal periosteum in growing animals. PTHrP is also strongly expressed in a number of fibrous insertion sites. In the tibia these include the insertions of the medial collateral ligament (MCL) and the semimembranosus (SM). In young animals, the MCL and SM sites display a combination of underlying osteoblastic and osteoclastic activities that may be associated with the migration of these entheses during linear growth. Unloading the MCL and SM by tail suspension or surgical transection leads to a marked decrease in PTHrP/lacZ expression and a rapid disappearance of the subjacent osteoblastic population. We have not been able to identify PTHrP-lacZ in any internal bone cell population in the PTHrP-lacZ knockin mouse in either a CD-1 or C57B1/6 genetic background. In conclusion, we have identified PTHrP expression in surface structures that connect skeletal elements to each other and to surrounding muscle but not in intrinsic internal bone cell populations. In these surface sites, mechanical force seems to be an important regulator of PTHrP expression. In selected sites and/or at specific times, PTHrP may influence the recruitment and/or activities of underlying bone cell populations. (c) 2007 Elsevier Inc. All rights reserved.