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Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_8 | Pages 38 - 38
11 Apr 2023
Stewart M Nguyen J
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Osteoprogenitors on the inner layer of periosteum are the major cellular contributors to appositional bone growth and bone repair by callus formation. Previous work showed that periosteal-derived cells have little or no osteogenic activity under standard in vitro osteogenic culture conditions. This study was conducted to determine what growth factor(s) can activate periosteal osteogenic capacity.

This study was conducted with IACUC approval. Periosteum from five equine donors was digested in collagenase for 3-4 hours at 37C. Isolated periosteal cells were maintained in DMEM/10% FBS medium and exposed to PDGF, Prostaglandin E2, BMP-2 and TGF-b3 at a range of concentrations for 72 hours. Changes in osteogenic gene expression (Runx2, OSX and ALP) were measured by qPCR. Periosteal cells were pre-treated with TGF-b3 or maintained in control medium were transferred into basal or osteogenic medium. Osteogenic status was assessed by Alizarin Red staining for mineralized matrix, ALP enzymatic activity and induction of osteogenic genes.

PDGF, PgE2 and BMP-2 had little impact on expression of osteogenic markers by periosteal cells. In contrast, TGF-b3 stimulated significant increases in Osterix (over 100-fold) ALP expression (over 70-fold). Pre-treating periosteal cells with TGF-b3 for 72 hours stimulated rapid cell aggregation and aggregate mineralization once cells were transferred to osteogenic medium, while cells not exposed to TGF-b3 exhibited minimal evidence of osteogenic activity.

This study indicate that TGF-b signaling is vital for periosteal osteogenic activity. Transient ‘priming’ of periosteal cells through TGF-b exposure was sufficient to activate subsequent osteogenesis without requiring ongoing growth factor stimulation. TGF beta ligands are secreted by many cell types, including periosteal progenitors and osteocytes, providing opportunities for both autocrine and paracrine pathways to regulate periosteal bone formation under homeostatic and reparative conditions.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 259 - 259
1 Jul 2014
Durgam S Mayandi S Stewart M
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Summary

Objective assessment of tendon histomorphology, particularly in the context of tissue repair, requires comprehensive analyses of both cellular distribution and matrix architecture. Fourier Transform analyses of histological images collected with second harmonic generation (SHG-FT) technique provide objective, quantitative assessment of collagen fiber organization with high specificity. Concurrent nuclear staining allows simultaneous analyses of cell morphology and distribution.

Introduction

Tendon injuries can be career-limiting in human and equine athletes, since the architectural organization of the tissues are lost in the course of fibrotic repair. Objective assessment of tendon repair is problematical, particularly in research addressing potential therapies. Fourier Transform analyses of histological images collected with second harmonic generation (SHG-FT) technique can provide objective, quantitative assessments of collagen fiber organization with high specificity. This study describes the use of SHG-FT with fluorescently-labelled tendon-derived cells (TDC) in an in-vivo model of equine tendinitis to assess the temporal and spatial effects of cell delivery on collagen fiber organization.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 327 - 327
1 Jul 2014
Herzog K Durgam S Stewart M
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Summary

Corticosteroids (CS) are commonly administered by intra-articular injection to control the symptoms of osteoarthritis; however, CSs also suppress articular chondrocyte matrix synthesis. Both triamcinolone and methylprednisolone acetate significantly suppressed BMPs −2 and −7, and TGF-b1 expression, suggesting a mechanism by which CSs suppress articular chondrocyte matrix synthesis and cartilage homeostasis.

Introduction

Osteoarthritis (OA) is a common and debilitating disease that affects approximately 30% of the US population and is also a major clinical problem in companion animals. There are many drugs available to manage the symptoms of OA. Of these, intra-articular corticosteroid (CS) administration is a common and very effective anti-arthritic therapy, and is frequently administered to equine athletes. CSs exert their potent anti-inflammatory effects by blocking phospholipase A and reducing inflammatory mediator production; however, CSs also suppress matrix-biosynthetic activity of articular chondrocytes. This activity, along with ther increased joint use that symptomatic relief allows, has been linked to ‘steroid arthropathy’; a progression of arthritis driven by compromised chondrocyte homeostatic capacity. Several lines of experimental and clinical evidence emphasise the importance of TGF-b and BMP autocrine/paracrine activity in maintaining the homeostatic status of articular chondrocytes (reviewed in Oshin and Stewart 2007). This study was carried out to address the following objectives: 1) To assess the effects of CS on expression of chondro-protective TGF-β and BMP ligands in equine articular chondrocytes, and 2) To determine if exogenous BMP ligand administration can mitigate the suppressive effects of CSs on articular chondrocyte synthesis of collagen type II (Coll II) and glycosaminoglycans (sGAG).