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Blockage of Src by Specific siRNA as a Novel Therapeutic Strategy to Prevent Destructive Repair in Steroid‐Associated Osteonecrosis in Rabbits
Journal of bone and mineral research, 2015-11, Vol.30 (11), p.2044-2057
Zheng, Li‐zhen
Cao, Hui‐juan
Chen, Shi‐hui
Tang, Tao
Fu, Wei‐min
Huang, Le
Chow, Dick Ho Kiu
Wang, Yi‐xiang
Griffith, James Francis
He, Wei
Zhou, Hong
Zhao, De‐wei
Zhang, Ge
Wang, Xin‐luan
Qin, Ling
2015
Volltextzugriff (PDF)
Details
Autor(en) / Beteiligte
Zheng, Li‐zhen
Cao, Hui‐juan
Chen, Shi‐hui
Tang, Tao
Fu, Wei‐min
Huang, Le
Chow, Dick Ho Kiu
Wang, Yi‐xiang
Griffith, James Francis
He, Wei
Zhou, Hong
Zhao, De‐wei
Zhang, Ge
Wang, Xin‐luan
Qin, Ling
Titel
Blockage of Src by Specific siRNA as a Novel Therapeutic Strategy to Prevent Destructive Repair in Steroid‐Associated Osteonecrosis in Rabbits
Ist Teil von
Journal of bone and mineral research, 2015-11, Vol.30 (11), p.2044-2057
Ort / Verlag
United States: Wiley Subscription Services, Inc
Erscheinungsjahr
2015
Quelle
Wiley-Blackwell Journals
Beschreibungen/Notizen
ABSTRACT Vascular hyperpermeability and highly upregulated bone resorption in the destructive repair progress of steroid‐associated osteonecrosis (SAON) are associated with a high expression of VEGF and high Src activity (Src is encoded by the cellular sarcoma [c‐src] gene). This study was designed to prove our hypothesis that blocking the VEGF‐Src signaling pathway by specific Src siRNA is able to prevent destructive repair in a SAON rabbit model. Destructive repair in SAON was induced in rabbits. At 2, 4, and 6 weeks after SAON induction, VEGF, anti‐VEGF, Src siRNA, Src siRNA+VEGF, control siRNA, and saline were introduced via intramedullary injection into proximal femora for each group, respectively. Vascularization and permeability were quantified by dynamic contrast‐enhanced (DCE) MRI. At week 6 after SAON induction, proximal femurs were dissected for micro–computed tomography (μCT)‐based trabecular architecture with finite element analysis (FEA), μCT‐based angiography, and histological analysis. Histological evaluation revealed that VEGF enhanced destructive repair, whereas anti‐VEGF prevented destructive repair and Src siRNA and Src siRNA+VEGF prevented destructive repair and enhanced reparative osteogenesis. Findings of angiography and histomorphometry were consistent with those determined by DCE MRI. Src siRNA inhibited VEGF‐mediated vascular hyperpermeability but preserved VEGF‐induced neovascularization. Bone resorption was enhanced in the VEGF group and inhibited in the anti‐VEGF, Src siRNA, Src siRNA+VEGF groups as determined by both 3D μCT and 2D histomorphometry. FEA showed higher estimated failure load in the Src siRNA and Src siRNA+VEGF groups when compared to the vehicle control group. Blockage of VEGF‐Src signaling pathway by specific Src siRNA was able to prevent steroid‐associated destructive repair while improving reconstructive repair in SAON, which might become a novel therapeutic strategy. © 2015 American Society for Bone and Mineral Research.
Sprache
Englisch
Identifikatoren
ISSN: 0884-0431
eISSN: 1523-4681
DOI: 10.1002/jbmr.2542
Titel-ID: cdi_proquest_miscellaneous_1727674126
Format
–
Schlagworte
Animals
,
Disease Models, Animal
,
Finite Element Analysis
,
Gene Knockdown Techniques
,
Gene Silencing
,
Male
,
Models, Biological
,
Osteogenesis
,
OSTEONECROSIS
,
Osteonecrosis - chemically induced
,
Osteonecrosis - diagnostic imaging
,
Osteonecrosis - enzymology
,
Osteonecrosis - pathology
,
Perfusion
,
Rabbits
,
REPAIR
,
RNA, Small Interfering - metabolism
,
SIRNA
,
SRC
,
src-Family Kinases - antagonists & inhibitors
,
src-Family Kinases - metabolism
,
Steroids - adverse effects
,
Wound Healing
,
X-Ray Microtomography
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