20.310j molecular, cellular, and tissue biomechanics: lecture 7 · 2020-01-04 · formation. upper:...
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Cornea collag en architecture Human CornCornea ea Collagen (type II) architecture
varies with depth 2 Jm in cartila
Cartilagege
Tendon collagen Te Type I ndon fibrils (~28 nm) collagen secreted and image d by organized by AFM 1 JJm tendon fibroblast
Collagen Human architecture intervertebral
of the disc discDisc ��VRXUFH�XQNQRZQ��$OO�ULJKWV�UHVHUYHG��7KLV�FRQWHQW�LV�H[FOXGHG�IURP�RXU�&UHDWLYH&RPPRQV�OLFHQVH��)RU�PRUH�LQIRUPDWLRQ��VHH�KWWS���RFZ�PLW�HGX�KHOS�IDT�IDLU�XVH��
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Pro-collagen molecule _
© Taylor & Francis Group. All rights reserved. This content is excludedfrom our Creative Commons license. For more information, seehttp://ocw.mit.edu/help/faq-fair-use/ .Source: Kastelic, J., A. Galeski, et al. "The Multicomposite Structureof Tendon." Connective Tissue Research 6, no. 1 (1978): 11-23.
E~1 GPa
Force - extension
Fit by WLC model
Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permissioSource: Gutsmann, Thomas. "Force Spectroscopy of Collagen Fibers to Investitheir Mechanical Properties and Structural Organization." BiophysicalJournal 86, no. 5 (2004): 3186-93.
Stress vs strain curve of a rat tail tendon: (A-B) Toe - heel region,
(Sun+, J Biomechanics, 2004) (C) linear region, (D) plateau, Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permission. (E) rupture of the tendon. Source: Sun, Yu-Long, et al. "Stretching Type II Collagen with Optical Tweezers."Journal of Biomechanics 37, no. 11 (2004): 1665-9. (Gutsmann+, Biophys J, 2004)
Tendon
n.gate
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“Fibrils” Col I, II, III, V, XI 28 Types of Collagens
forms fibrils, networks,
other aggregates…
“FACIT” Col IX, XII, … Type IV Collagen: Basement membranes
(Gordon & Hahn, Cell Tiss Res, 2010) © Springer-Verlag. All rights reserved. This content is excluded from our CreativeCommons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Source: Gordon, Marion K., and Rita A. Hahn. "Collagens." Cell and Tissue Research339, no. 1 (2010): 247-57. 3
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Collagen Structures
Molecules
Fibrils
Fibers
Tissue © Annual Reviews. All rights reserved. This content is excluded from our CreativeCommons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Source: Wright, N. T., and J. D. Humphrey. "Denaturation of Collagen via Heating: An IrreversibleRate Process." $QQXDO�5HYLHZ�RI�%LRPHGLFDO�(QJLQHHULQJ 4, no. 1 (2002): 109-28.
Wright & Humphrey, Ann Revs BME, 2002 4
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Disc and Cartilage “Type II” collagen is really II-IX-XI combo
+ "fibril" +
+ “NC4”
tri-func x-links Disc
Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permission.Source: Eyre, David R. "Advances in Collagen Cross-link Analysis." Methods 45, no. 1 (2008): 65-74.
Hierarchical depiction of a heterotypic collagen fibril, emphasizing the internal axial relationships required for mature cross-link formation. Upper: Three-dimensional concept of the type II/IX/XI heterotypic fibril of developing cartilage matrix. Middle: Detail illustrating required nearest neighbor axial relationships for trifunctional intermolecular cross-links to form in collagens of cartilage, bone, and other high-tensile strength tissue matrices. The exact 3D spatial pattern of cros s-linking bonds is still unclear for any tissue.
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How do cells make collagen molecules and regulate “fibrillogenesis” ? Why do cells in tissue “A” pick collagens
"X,Y,Z" ?
6
© source unknown. All rights reserved. This content is excluded from our CreativeCommons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.
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Tendon Structure
Lots of Intra-molecular, Inter-molecular, Intra-fibrillar, Inter-fibrillar Crosslinks!! 7
© Taylor & Francis Group. All rights reserved. This content is excludedfrom our Creative Commons license. For more information, seehttp://ocw.mit.edu/help/faq-fair-use/.Source: Kastelic, J., A. Galeski, et al. "The Multicomposite Structureof Tendon." Connective Tissue Research 6, no. 1 (1978): 11-23.
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No intra- or inter-molecular crosslinks…..
what were they thinking?
New Zealand Bungy Cord
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Pro-collagen molecule _
Force - extension
Fit by WLC model
(Sun+, J Biomechanics, 2004) Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permission.Source: Sun, Yu-Long, et al. "Stretching Type II Collagen with Optical Tweezers."Journal of Biomechanics 37, no. 11 (2004): 1665-9.
Tendon
© Taylor & Francis Group. All rights reserved. This content is excludedfrom our Creative Commons license. For more information, seehttp://ocw.mit.edu/help/faq-fair-use/.Source: Kastelic, J., A. Galeski, et al. "The Multicomposite Structureof Tendon." Connective Tissue Research 6, no. 1 (1978): 11-23.
E~1 GPa
Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permission.Source: Gutsmann, Thomas. "Force Spectroscopy of Collagen Fibers to Investigatetheir Mechanical Properties and Structural Organization." BiophysicalJournal 86, no. 5 (2004): 3186-93.
Stress vs strain curve of a rat tail tendon: (A-B) Toe - heel region, (C) linear region, (D) plateau,
(E) rupture of the tendon.
(Gutsmann+, Biophys J, 2004) 9
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Cornea collag en architecture Human CornCornea ea Collagen (type II) architecture
varies with depth 2 Jm in cartila
Cartilagege
Tendon collagen Te Type I ndon fibrils (~28 nm) collagen secreted and image d by organized by AFM 1 JJm tendon fibroblast
Collagen Human architecture intervertebral
of the disc discDisc ��VRXUFH�XQNQRZQ��$OO�ULJKWV�UHVHUYHG��7KLV�FRQWHQW�LV�H[FOXGHG�IURP�RXU�&UHDWLYH&RPPRQV�OLFHQVH��)RU�PRUH�LQIRUPDWLRQ��VHH�KWWS���RFZ�PLW�HGX�KHOS�IDT�IDLU�XVH��
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Young’ < s Modulus of Ligament (ACL) ~ 1 GPa
In range of linearity:
E = d(stress) / d(strain) ~ 109 Pa
Macro –Tissue – scale Measurement
11
© Orthopaedic Research Society. All rights reserved. This content is excluded from our CreativeCommons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Source: Danto, Michael I., and Savio L.Y. Woo. "The Mechanical Properties of Skeletally MatureRabbit Anterior Cruciate Ligament and Patellar Tendon Over a Range of Strain Rates." Journal ofOrthopaedic Research 11, no. 1 (1993): 58-67.
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Photograph by Christophe Pallot/Agence Zoom © Getty Images��$OO�ULJKWV�UHVHUYHG��7KLV�FRQWHQW�LV excludedRXU�&UHDWLYH
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Tendon
© Taylor & Francis Group. All rights reserved. This content is excludedfrom our Creative Commons license. For more information, seehttp://ocw.mit.edu/help/faq-fair-use/.Source: Kastelic, J., A. Galeski, et al. "The Multicomposite Structureof Tendon." Connective Tissue Research 6, no. 1 (1978): 11-23.
E~1 GPa
Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permissioSource: Gutsmann, Thomas. "Force Spectroscopy of Collagen Fibers to Investitheir Mechanical Properties and Structural Organization." BiophysicalJournal 86, no. 5 (2004): 3186-93.
Stress vs strain curve of a rat tail tendon: (A-B) Toe - heel region, (C) linear region, (D) plateau,
(E) rupture of the tendon.
(Gutsmann+, Biophys J, 2004)
n.gate
13
How do cells make fibrils from procollagen??How are collagen fibrils laid down and oriented??What is process during tissue embryogenesis ?? What about mature tissue after injury: how do tendons / ligaments heal ??
•
•
•
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From Molecules …to
Fibers ?
…to Fibrils
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J Cell Biol 2004
"fibropositor"1 m
Courtesy of Rockefeller University Press. License: CC BY-NC-SSource: Canty, Elizabeth G. "Coalignment of Plasma MembranChannels and Protrusions (fibripositors) specifies the Paralleliof Tendon." The Journal of Cell Biology 165, no. 4 (2004): 55
A.esm3-63.
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cells fibropositors
Courtesy of Rockefeller University Press. License: CC BY-NC-SA.Source: Canty, Elizabeth G. "Coalignment of Plasma MembraneChannels and Protrusions (fibripositors) specifies the Parallelismof Tendon." The Journal of Cell Biology 165, no. 4 (2004): 553-63.
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Serial Block Face -- Scanning Electron Microscopy (“SBF-SEM”) Embryonic Mouse Tail Tendon
yslices
Starborg / Kadler+,
z
Stacks of 1,000 100 nm – thick microtomed
Courtesy of Macmillan Publishers Limited. Used with permission.Source: Starborg, Tobias., et al. "Using Transmission Electron Microscopy and 3View to DetermineCollagen Fibril Size and Three-dimensional Organization." 1DWXUH�3URWRFROV 8, no. 7 (2013): 1433-48.
x
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PNAS 2013 • Collagen fibrils are >1mm long; they are the longest, largest,
most size-pleomorphic protein in vertebrates; knowing how cells transport collagen fibrils: key to tissue morphogenesis.
• We identified newly formed collagen fibrils being transported at the surface of embryonic tendon cells in vivo by using SBFSEM of the cell-matrix interface.
• Newly formed fibrils: �1 to �30�m. The shortest (1–10�m� occurred in intracellular fibricarriers; the longest (�30�m� occurred in plasma membrane fibripositors.
• Non-muscle myosin II (NMII)powers transport of new collage n fibrils at the plasma membrane; NMII-dependent cell-force model is the basis for the creation and dynamics of fibripositor structures for making collagen rich tissues.
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Cell ~ 60μm long
Intracellular Fibricarrier
Protruding Fibripositor
��VRXUFH�XQNQRZQ��$OO�ULJKWV�UHVHUYHG��7KLV�FRQWHQW�LV H[FOXGHG�IURP�RXU�&UHDWLYH &RPPRQV�OLFHQVH��)RU�PRUH LQIRUPDWLRQ��VHH�KWWS���RFZ�PLW�HGX�KHOS�IDT�IDLU�XVH��
Courtesy of Karl E. Kadler. Used with permission.Source: Kalson, Nicholas S., et al. "Nonmuscle Myosin II Powered Transport of Newly Formed Collagen Fibrils atthe Plasma Membrane." 3URFHHGLQJV�RI�WKH�1DWLRQDO�$FDGHP\�RI�6FLHQFHV 110, no. 49 (2013): E4743-52.
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Disc Extracellular Matrix Composition
23 intervertebral discs
nucleus pulposus
annulus fibrosus
(Peter Roughley, Spine, 2004)
AF NP
NP
NP
AF
AF
NP
NP NP
AF AF
© Lippincott Williams & Wilkins, Inc. All rights reserved. This content is excluded from ourCreative Commons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Source: Roughley, Peter J. "Biology of Intervertebral Disc Aging and Degeneration: Involvementof the Extracellular Matrix." Spine 29, no. 23 (2004): 2691-9. 20
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(Fig 7.1)
© The Journal of Bone and Joint Surgery, Incorporated. All rights reserved. This content is excludedfrom our Creative Commons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Source: Setton, Lori A., and Jun Chen. "Mechanobiology of the Intervertebral Disc and Relevance to DiscDegeneration." 7KH�-RXUQDO�RI�%RQH��-RLQW�6XUJHU\ 88, no. suppl 2 (2006): 52-57.
(J Bone & Joint Surg, 2006) 21
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“Creep-Compression” of intervertebral disc (rat tail) Tendons
Vertebra and Discs
��
Disc
Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permission.Source: MacLean, Jeffrey J., et al. "Role of Endplates in Contributing to Compression Behaviors ofMotion Segments and Intervertebral Discs." -RXUQDO�RI�%LRPHFKDQLFV 40, no. 1 (2007): 55-63.
(MacLean+, J Biomechanics, 2007) 22
.
© Journal of Visualized Experiments. All rights reserved. This content is excluded from our Creative Commons license. For more information,see http://ocw.mit.edu/help/faq-fair-use/.Source: Bruneau, Amélie, et al. "Preparation of Rat Tail Tendons for Biomechanical and Mechanobiological Studies." Journal of VisualizedExperiments 41 (2010).
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Don’t do this in the Gym!!
L4-L5
Intr
adis
cal p
ress
ure L5-S1
��Scott Bodell��$OO�ULJKWV�UHVHUYHG��7KLV�FRQWHQW�LV H[FOXGHG�IURP�RXU�&UHDWLYH CommonOLFHQVH��)RU�PRUH LQIRUPDWLRQ��VHH�KWWS���RFZ�PLW�HGX�KHOS�IDT�IDLU�XVH��
(original data from Alf Nachemson et al., JBJS, 1964) 23
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“Creep-Compression” of intervertebral disc (rat tail)
Tendons Vertebra and
Discs
Disc
Courtesy of Elsevier, Inc., http://www.sciencedirect.com. Used with permission.Source: MacLean, Jeffrey J., et al. "Role of Endplates in Contributing to Compression Behaviors ofMotion Segments and Intervertebral Discs." -RXUQDO�RI�%LRPHFKDQLFV 40, no. 1 (2007): 55-63.
(MacLean+, J Biomechanics, 2007) 24
© Journal of Visualized Experiments. All rights reserved. This content is excluded from our Creative Commons license. For more information,see http://ocw.mit.edu/help/faq-fair-use/.Source: Bruneau, Amélie, et al. "Preparation of Rat Tail Tendons for Biomechanical and Mechanobiological Studies." Journal of VisualizedExperiments 41 (2010).
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PNAS 1951
Rat Tail Tendon Collagen © The authors. All rights reserved. This content is excluded from our CreativeCommons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Highberger, John H., et al. "The Interaction of Mucoprotein with Soluble Collagen: An Electron Microscope Study."3URFHHGLQJV�RI�WKH�1DWLRQDO�$FDGHP\�RI�6FLHQFHV�RI�WKH�8QLWHG�6WDWHV�RI�$PHULFD 37, no. 5 (1951): 286. 25
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Cells Synthesize 100s of Extracellular Matrix Macromolecules
(Dick Heinegård, Nature Revs. Rheumatology 2010)
26
© Wiley. All rights reserved. This content is excluded from our Creative Commons license. For more information, see http://ocw.mit.edu/help/faq-fair-use/.Source: Heinegård, Dick, and Tore Saxne. "The Role of the Cartilage Matrix in Osteoarthritis." Nature Reviews Rheumatology 7, no. 1 (2011): 50-56.
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J. Visualized Experiments 2010
��VRXUFH�XQNQRZQ
27
© Journal of Visualized Experiments. All rights reserved. This content is excluded from our Creative Commons license. For more information,see http://ocw.mit.edu/help/faq-fair-use/.Source: Bruneau, Amélie, et al. "Preparation of Rat Tail Tendons for Biomechanical and Mechanobiological Studies." Journal of VisualizedExperiments 41 (2010).
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