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PTHrP regulates the modeling of cortical bone surfaces at fibrous insertion sites during growth.


ABSTRACT: The sites that receive ligament and tendon insertions (entheses) on the cortical surfaces of long bones are poorly understood, particularly regarding modeling and regulation. Entheses are classified as either fibrocartilaginous or fibrous based on their structures. Fibrous entheses typically insert into the metaphysis or diaphysis of a long bone, bear a periosteal component, and are modeled during long-bone growth. This modeling forms a root system by which the insertions attach to the cortical surface. In the case of the medial collateral ligament, modeling drives actual migration of the ligament along the cortical surface in order to accommodate linear growth, whereas in other sites modeling may excavate a deep cortical root system (eg, the teres major insertion) or a shallow root system with a large footprint (eg, the latissimus dorsi insertion). We report here that conditionally deleting parathyroid hormone-related protein (PTHrP) in fibrous entheses via Scleraxis-Cre targeting causes modeling to fail in these three iterations of osteoclast-driven enthesis excavation or migration. These iterations appear to represent formes frustes of a common modeling strategy, presumably differing from each other as a consequence of differences in biomechanical control. In sites in which PTHrP is not induced, either physiologically or because of conditional deletion, modeling does not take place and fibrocartilage is induced. These findings represent the initial genetic evidence that PTHrP regulates periosteal/intramembranous bone cell activity on cortical bone surfaces and indicate that PTHrP serves as a load-induced modeling tool in fibrous insertion sites during linear growth.

SUBMITTER: Wang M 

PROVIDER: S-EPMC3574208 | biostudies-literature | 2013 Mar

REPOSITORIES: biostudies-literature

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PTHrP regulates the modeling of cortical bone surfaces at fibrous insertion sites during growth.

Wang Meina M   VanHouten Joshua N JN   Nasiri Ali R AR   Johnson Randy L RL   Broadus Arthur E AE  

Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research 20130301 3


The sites that receive ligament and tendon insertions (entheses) on the cortical surfaces of long bones are poorly understood, particularly regarding modeling and regulation. Entheses are classified as either fibrocartilaginous or fibrous based on their structures. Fibrous entheses typically insert into the metaphysis or diaphysis of a long bone, bear a periosteal component, and are modeled during long-bone growth. This modeling forms a root system by which the insertions attach to the cortical  ...[more]

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