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Mechanical load
Mechanical loading
Up-regulation of matrix
macromolecules
Matrix synthesis
Maintenance of tissue integrity
Abnormal mechanical
loading
Predominantly catabolic activity
Limited matrix synthesis Tissue atrophy
Canonical WNT signalling
WNT
Casein kinase
Axin APC GSK-3β
Nucleus
Β-catenin
Β-catenin
Β-cateninΒ-catenin
Β-catenin
Dishevelled Key:APC= Adenomatous polyposis coliGSK-3β= Glycogen synthase kinase 3β
MMP 3WISP1WIF1
SFRP1FRZB
Why look at WNT signalling?
ChondrogenesisChondrocyte
differentiation
Cartilagehomeostasis
↑WNTcomponents
Osteoarthritis
END STAGE DISEASE
WNT signalling
Mechanical loading
Hypothesis
Wnt signalling is mechano-regulated in cartilage
Aims
1. Examine the effect of physiological load on WNT signalling
components (activators/inhibitors) in chondrocytes
2. Determine the influence of physiological and non-physiological
load on WNT signalling components in explants.
Methods: Mechanical loading
Chondrocytes Explants
Primary chondrocytes released from cartilage using pronase (1mg/ml) and
collagenase type II (0.4mg/ml) in DMEM F-12 media.
- Seeded 4×106/well- 48 hours stabilisationperiod
7-day old bovine Metacarpophalangeal
joint
4mm explants
Full-depth cartilage explant
- Multiple washes in Hank’s balanced salt solution (HBSS) with 4× strength antibiotics- 48 hours stabilisation period
Bose Electroforce 3200
Methods: Post-load analysis
Chondrocytes
o 7.5% strain 1Hz (1hr, 2, 4 hrs)
• Physiological regime
o 7.5%, 10%, 14% 1Hz (2hrs)
• Physiological injurious
Explants
o Physiological load 2.5MPa 1Hz 10minso Injurious load 8MPa 1 Hz 10 cycles
o Gene level analysis
• Quantitative PCR
o Protein level analysis
• Immunofluorescence in conjunction with confocal microscopy
Evaluation of WNT components
Results: Effect of loading duration (7.5% strain)β-catenin nuclear translocation in chondrocytes subjected to tensile strain
o Loading regime: 7.5% strain 1Hz (physiological)
FITC green= β-catenin; DAPI blue
Differential expression of WNT signalling components exposed to strain
Most WNT activity is
detected at 2hrs
Results: Effect of loading duration (7.5% strain)
Results: Effect of strain level (1 Hz, 2hrs)
β-catenin nuclear translocation in chondrocytes subjected to tensile strain
FITC green= β-catenin; DAPI blue
Results: Explants 2.5MPa 10mins 1 Hz
β-catenin nuclear translocation in chondrocytes subjected to physiological compressive loading.
FITC green= β-catenin; DAPI blue
Canonical WNT
signalling activation
Results: Explants 8 MPa 10mins 1 Hz
FITC green= β-catenin/ WIF-1; DAPI blue
Conclusions
Mechanical loading
Activates canonical WNT
signalling
Up-regulation of WNT components
(gene/protein levels)
Downstream effects?
Mechanism to maintain
tissue integrity
Future aim of project
Dr. Emma Blain
Prof. Vic Duance
Dr.Yadan Zhang
Paulina Stadnik
Kuwait Cultural Office (UK)
Arthritis Research UK Biomechanics and
Bioengineering Centre
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