mrc mouse network models for disorders of bone and cartilage presentation on behalf of bone and...
TRANSCRIPT
![Page 1: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/1.jpg)
MRC Mouse Network
Models for Disorders of Bone and Cartilage
Presentation on behalf of Bone and Cartilage Consortium:
Professor R V ThakkerMay Professor of Medicine
University of Oxford
First meeting of MRC Mouse Network,Harwell, UK
13th January 2012
![Page 2: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/2.jpg)
Aims
1. To establish mouse models of bone and cartilage disorders e.g. osteoporosis, osteoarthritis, skeletal trauma, chondrocalcinosis, Paget’s disease, and skeletal dysplasia
2. To use these models for: elucidating the underlying biological mechanisms, facilitating translational research, and development of biomarkers
3. To evaluate translation of findings to the human population level by comparison to large scale GWAS data sets (GEFOS and TREAT-OA)
![Page 3: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/3.jpg)
Why is this important?
Disorders of bone and mineral homeostasis:
• Osteoporosis• Osteoarthritis• Skeletal trauma• Chondrocalcinosis• Gout• Paget’s disease
These disorders are very common, and a major burden on the health services
Effective treatments and prevention strategies are required
![Page 4: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/4.jpg)
ENDOCRINOLOGY
R ThakkerG WilliamsD Bassett
RHEUMATOLOGY
M BrownM FeldmanS RalstonT Vincent
ORTHOPAEDICS
J Nanchahal
HUMANGENETICS
Rivadeneira Uitterlinden
Group
VETERINARY SURGERY
A Goodship
MOUSE GENETICS
S BrownR Cox
P Potter
BASIC SCIENCE
A BoydeP CroucherJ EdwardsN HorwoodA Pitsillides
T Skerry
ENGINEERING / MATERIAL SCIENCE
H Gupta
ConsortiumMembers
![Page 5: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/5.jpg)
Bone Phenotyping• Primary Screen
- Performed at MRC Harwell
- Bone & cartilage screen fits within primary screens for other systems
- Development, growth, biochemistry, body composition, whole body X-ray, DEXA – for bone mineral density
• Intermediate high resolution secondary screen- Faxitron – high throughput quantative analysis of bone mineral
content
- Micro CT – high throughput quantitative analysis of structure, mineralization and static morphometry
• Detailed and bespoke secondary screening- Back scattered electron scanning electron microscopy (BSE-
SEM)
- Quantitative BSE-SEM
- Bone histology & histomorphometry
- Con-focal microscopy
- Mechanical testing
- Nanomechanical (synchroton X-ray scattering)
- Primary bone cell culture
- Longitudinal studies
![Page 6: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/6.jpg)
Collection, fixation, storage and distribution of skeletal elements between laboratories & multiple analyses per
sample upholds principles of 3Rs and economy
From Williams & Bassett
![Page 7: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/7.jpg)
Bone Phenotyping• Primary Screen
- Performed at MRC Harwell
- Bone & cartilage screen fits within primary screens for other systems
- Development, growth, biochemistry, body composition, whole body X-ray, DEXA – for bone mineral density
• Intermediate high resolution secondary screen- Faxitron – high throughput quantative analysis of bone mineral
content
- Micro CT – high throughput quantitative analysis of structure, mineralization and static morphometry
• Detailed and bespoke secondary screening- Back scattered electron scanning electron microscopy (BSE-
SEM)
- Quantitative BSE-SEM
- Bone histology & histomorphometry
- Con-focal microscopy
- Mechanical testing
- Nanomechanical (synchroton X-ray scattering)
- Primary bone cell culture
- Longitudinal studies
![Page 8: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/8.jpg)
Lpk/+
WT
Lpk: Spondyloepiphyseal Dysplasia CongenitaWT
WT
Lpk/+
Lpk/+
Proliferatingchondrocytes
Hypertrophicchondrocytes
Lpk/+
Humerus Ulna
WT
- WT Ser1386Pro - WT Ser1386Pro
cell lysates supernatants
Antibody: anti c-Mmyc• Dominant mutant
• Disproportionately shortened humerus and secondary osteoarthritis
• Flattened epyphyses and disorganized growth plate
• Due to Ser1386Pro Col2a1 mutation ; in C-propeptide domain
• ER retention of mutant Col2a1 Esapa et al, JBMR, 2012, in press
![Page 9: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/9.jpg)
Bone Phenotyping• Primary Screen
- Performed at MRC Harwell
- Bone & cartilage screen fits within primary screens for other systems
- Development, growth, biochemistry, body composition, whole body X-ray, DEXA – for bone mineral density
• Intermediate high resolution secondary screen- Faxitron – high throughput quantative analysis of bone mineral
content
- Micro CT – high throughput quantitative analysis of structure, mineralization and static morphometry
• Detailed and bespoke secondary screening- Back scattered electron scanning electron microscopy (BSE-
SEM)
- Quantitative BSE-SEM
- Bone histology & histomorphometry
- Con-focal microscopy
- Mechanical testing
- Nanomechanical (synchroton X-ray scattering)
- Primary bone cell culture
- Longitudinal studies
![Page 10: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/10.jpg)
Faxitron: deiodinase mutants have increased bone mineral
Bassett et al, 2010, PNAS
![Page 11: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/11.jpg)
Bone Phenotyping• Primary Screen
- Performed at MRC Harwell
- Bone & cartilage screen fits within primary screens for other systems
- Development, growth, biochemistry, body composition, whole body X-ray, DEXA – for bone mineral density
• Intermediate high resolution secondary screen- Faxitron – high throughput quantative analysis of bone mineral
content
- Micro CT – high throughput quantitative analysis of structure, mineralization and static morphometry
• Detailed and bespoke secondary screening- Back scattered electron scanning electron microscopy (BSE-
SEM)
- Quantitative BSE-SEM
- Bone histology & histomorphometry
- Con-focal microscopy
- Mechanical testing
- Nanomechanical (synchroton X-ray scattering)
- Primary bone cell culture
- Longitudinal studies
![Page 12: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/12.jpg)
Adult D2KO and D1/D2KO mice have brittle bones
Biomechanical characteristics and strength properties determined by destructive 3 point bend testing
16w
Yieldload
Maximumload
Fracture load
D2KO
WT
Stiffness
* *
**
*
Bassett et al, 2010, PNAS
![Page 13: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/13.jpg)
Bone Phenotyping• Primary Screen
- Performed at MRC Harwell
- Bone & cartilage screen fits within primary screens for other systems
- Development, growth, biochemistry, body composition, whole body X-ray, DEXA – for bone mineral density
• Intermediate high resolution secondary screen- Faxitron – high throughput quantative analysis of bone mineral
content
- Micro CT – high throughput quantitative analysis of structure, mineralization and static morphometry
• Detailed and bespoke secondary screening- Back scattered electron scanning electron microscopy (BSE-
SEM)
- Quantitative BSE-SEM
- Bone histology & histomorphometry
- Con-focal microscopy
- Mechanical testing
- Nanomechanical (synchroton X-ray scattering)
- Primary bone cell culture
- Longitudinal studies
![Page 14: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/14.jpg)
B C DD T = 0 sT = 240 s Wild type Hpr
1 week
4 weeks
7 weeks
10 weeks
16 weeks
Mineral coating
Collagen fibril
d
l
b
L
i. Wild-type ii. Hpr
f/f0 vs. l/L for d = 7 nm
l/L0.0 0.2 0.4 0.6 0.8 1.0 1.2
f/f0
0.01
0.1
1
10
100
d = 7 nm1 week4 weeks7 weeks10 weeks16 weeksWild-typeHprModel predictionsExperimental valuesRegression line for Experimental values
Karunaratne et al, JBMR, 2012, in press
![Page 15: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/15.jpg)
1 week old mice scapula
10 weeks old wild type mice scapula
10 weeks old Hpr mice scapula
Mineral particle orientated along the muscle force direction
Mineral particles are randomly orientated due to the low muscle forces and less activity levels in 1 week old mice
Due to the disturbed local mechanical and structural environment mineral particles are randomly orientated
WT
HPR
Disruption of muscle stress-mediated mineral orientation at the nanoscale in the flat scapular bones of rahictic mice (HPR)
Karunaratne et al, in preparation
![Page 16: MRC Mouse Network Models for Disorders of Bone and Cartilage Presentation on behalf of Bone and Cartilage Consortium: Professor R V Thakker May Professor](https://reader035.vdocument.in/reader035/viewer/2022070410/56649f265503460f94c3d9ed/html5/thumbnails/16.jpg)
Summary – Phenotyping by Bone & Cartilage Consortium
• Primary Screen- Performed at MRC Harwell
- Bone & cartilage screen fits within primary screens for other systems
- Development, growth, biochemistry, body composition, whole body X-ray, DEXA – for bone mineral density
• Intermediate high resolution secondary screen- Faxitron – high throughput quantative analysis of bone mineral
content
- Micro CT – high throughput quantitative analysis of structure, mineralization and static morphometry
• Detailed and bespoke secondary screening- Back scattered electron scanning electron microscopy (BSE-
SEM)
- Quantitative BSE-SEM
- Bone histology & histomorphometry
- Con-focal microscopy
- Mechanical testing
- Nanomechanical (synchroton X-ray scattering)
- Primary bone cell culture
- Longitudinal studies