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Diabetic Fracture Healing

$351,918R01FY2014ARNIH

University Of Pennsylvania, Philadelphia PA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Abstract Diabetes causes osteopenia and increased fracture risk. Furthermore, diabetes interferes with fracture repair of the mandible and long bones. We have recently found that a major difference between normoglycemic and diabetic mice is the accelerated loss of cartilage in the diabetic group. This points to a previously unrecognized catabolic defect in diabetic fracture healing and suggests that rapid removal of cartilage may reduce the anlage for endochondral bone formation. Furthermore, diabetic fracture calluses are characterized by significantly elevated levels of FOXO1 activity and increased FOXO1 nuclear translocation in chondrocytes. The goal of the proposed studies is to test the hypothesis that diabetes enhanced FOXO1 activity alters gene expression in chondrocytes that contributes to impaired diabetic fracture healing. Aim 1 will investigate mechanisms by which conditions that are present in diabetic fracture healing, elevated TNF-1, advanced glycation end products or high glucose levels stimulate FOXO1 activation in chondrogenic cells. These experiments will FOXO1 post- translational modification assesses by mass spectrometry which is significant since it regulates FOXO1 nuclear localization and DNA binding activity. Aim 2 will establish whether chondrocyte specific deletion of FOXO1 using the Cre/lox system will reverse the impact of diabetes on the accelerated removal of cartilage. To investigate how FOXO1 could affect the healing process we will examine FOXO1 deletion on pro- osteoclastogenic gene expression, osteoclast numbers and mechanical strength. Aim 3 will utilize the same mice to determine whether conditional deletion of FOXO1 in chondrocytes reverses diabetes enhanced chondrocyte apoptosis and pro-apoptotic gene expression during diabetic fracture healing.

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