Tissue* + Biomaterial**

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1 Massachusetts Institute of Technology Harvard Medical School Brigham and Women s Hospital VA Boston Healthcare System 2.79J/3.96J/20.441/HST522J BIOMATERIALS-TISSUE TISSUE INTERACTIONS: Tools for Understanding the Molecular, Cellular, and Physiological Bases of the Tissue Response to Implants M. Spector, Ph.D.

2 BIOMATERIALS-TISSUE INTERACTIONS Tissue* + Biomaterial** Cell + Matrix** * Structure comprising cells of the same type ** Solid surface

3 CELL-MATRIX INTERACTIONS In Tissue Cell + Extracellular Matrix In Tissue Engineering Scaffolds Cell + Biomaterial Scaffold

4 CONCEPTS FOR UNDERSTANDING BIOMATERIALS-TISSUE INTERACTIONS Control Volume Unit Cell Processes Types of Tissues Tissue Formation and Remodeling In Vitro Wound Healing In Vivo

5 Articular Cartilage Extracellular Matrix Cell Figures by MIT OpenCourseWare. 4 mm 10 μm

6 40min Chondrocytes (P2 Canine) in a Type I Collagen-GAG Scaffold Courtesy Elsevier, Inc., Used with permission Control Volume 4 B. Kinner 5 Zaleskas, J. M., et al. "Contractile forces generated by articular chondrocytes in collagen-glycosaminoglycan matrices." Biomaterials 25 no. 7-8 (2004):

7 UNIT CELL PROCESSES Concept of a Control Volume around a Cell Soluble Regulator A Cell + Matrix (Regulator) Cell + Matrix Product (Regulator) Product + Soluble Regulator B Control Volume

8 UNIT CELL PROCESSES Concept of a Control Volume around a Cell Soluble Regulator Autocrine factor Cell + Matrix Cell + Matrix Product (Regulator) Product + Soluble Regulator Control Volume Another Cell; Paracrine Circulation; Endocrine

9 UNIT CELL PROCESSES Concept of a Control Volume around a Cell Soluble Regulator A Mechanical Loading (Strain); Subject Cell + Matrix (Regulator) Cell + Matrix Product (Regulator) Product + Soluble Regulator B Control Volume

10 CONCEPTS FOR UNDERSTANDING BIOMATERIALS-TISSUE INTERACTIONS Control Volume Unit Cell Processes Types of Tissues Tissue Formation and Remodeling In Vitro Wound Healing In Vivo

11 UNIT CELL PROCESSES Mitosis Migration Synthesis Contraction Endocytosis Exocytosis

12 UNIT CELL PROCESSES Mitosis Migration Synthesis Contraction Endocytosis Exocytosis??

13 UNIT CELL PROCESSES Mitosis Migration Synthesis Contraction Endocytosis Exocytosis Apoptosis Differentiation

14 COLLAGEN-GAG MATRICES: MODEL BIOMATERIALS (ANALOGS OF EXTRACELLULAR MATRIX) Investigation of cell interactions (UCPs) in vitro Type I (bovine and porcine) Type II (porcine) Chondroitin 6-sulfate 1mm Freeze-dried Dehydrothermally cross-linked Additional cross-linking See IV Yannas, et al. PNAS, μm

15 CELL MATRIX INTERACTIONS WITH COLLAGEN-GAG MATRICES IN VITRO Can provide insights into interrelationships among cell processes. How do mitosis and synthesis interrelate? How do mitosis and synthesis relate to contraction? How does migration relate to contraction? Can provide insights into cell behavior in vivo. Can provide insights into scaffold composition and structure for improved performance in regenerative medicine.

16 Chondrocytes (Passage 2 Canine) in a Type I Collagen-GAG Matrix Live cell imaging for a period of 5 hours. J. Cheng

17 CELL MATRIX INTERACTIONS Mitosis Migration Synthesis Contraction

18 Chondrocyte (P2 Canine) in a Type I Collagen-GAG Matrix: Mitosis Photo removed due to copyright restrictions. J. Cheng

19 DN NA (ug g) Effects of Cross-Linking on Chondrocyte Proliferation in Collagen-GAG DNA Content Matrices Mean ± SEM DHT UV GTA EDAC Inc. cross- linking Day CR Lee, et al., Biomat. 2001;22:3145

20 CELL MATRIX INTERACTIONS Mitosis Migration Synthesis Contraction

21 Fibroblasts Migrate Away from Soft Substrates NIH 3T3 cells are plated on polyacrylamide substrates with a transition in flexibility. The soft side is marked with fluorescent beads (to the left). Cells turn to avoid the soft substrate as they approach the boundary from the stiff side, by retracting the leading lamellipodium that crossed the boundary. Courtesy of Yu-Li Wang. Used with permission. C.-M. Lo, et al., Biophys. J. 79:144 (2000)

22 Fibroblasts Migrate Toward Stiff Substrates NIH 3T3 cells are plated on polyacrylamide substrates with a transition in flexibility. The soft side is marked with fluorescent beads (to the left). Cells turn toward and enter the stiff side as they approach the boundary from the soft side, by expanding protrusions toward the boundary into a leading lamellipodium. Courtesy of Yu-Li Wang. Used with permission. C.-M. Lo, et al., Biophys. J. 79:144 (2000)

23 Fibroblasts Migrate Toward Stretching Forces NIH 3T3 cells are plated on polyacrylamide substrates. Pulling forces are exerted by inserting a blunted needle in the substrate near the trailing end of the cell and dragging the needle away from the cell. Cells switch the direction of migration by expanding secondary protrusions toward the needle into a leading lamellipodium. Courtesy of Elsevier, Inc., Used with permission. C.-M. Lo, et al., Biophys. J. 79:144 (2000)

24 Fibroblasts Migrate Away from Compressing Forces NIH 3T3 cells are plated on polyacrylamide substrates. Pushing forces are exerted by inserting a blunted needle in the substrate near the leading edge of an approaching cell and moving the needle toward the cell. Cells switch the direction of migration by retracting the leading lamellipodium. Courtesy of Elsevier, Inc., Used with permission. C.-M. Lo, et al., Biophys. J. 79:144 (2000)

25 Migration of Epithelial Cells In Vitro in a Wound Healing Assay 100 μm 2001 L. C. Santy and J. E. Casanova. License CC BY-NC-SA. Published by The Rockefeller e University Press. Monolayers were wounded by scraping. LC Santy, J. Cell Biol. 154:599 (2001)

26 40min Chondrocytes (P2 Canine) in a Type I Collagen- GAG Matrix: Migration and Contraction J. Zaleskas, et al., Biomat. 25:1299 (2004) B. Kinner 5 6 Courtesy Elsevier, Inc., Used with permission.

27 Diagram removed due to copyright restrictions. Fig. 2 in M Madri, Kidney I Int. 41 (1992): 562. Schematic of the modulation of microvascular endothelial cell phenotype during angiogenesis. Madri, Kidney Int. 41:562 (1992)

28 CELL MATRIX INTERACTIONS Mitosis Migration Synthesis Contraction

29 Effects of Cross-Linking on Chondrocyte Biosynthesis in Collagen-GAG - Matrices g DNA hour/μg nmol/h Protein Synthesis; Proline Incorporation DHT UV GTA EDC Proteoglycan Synthesis; Sulfate Incorporation Day Day CR Lee, et al., Biomat. 2001;22:3145

30 CELL MATRIX INTERACTIONS Mitosis Migration Synthesis Contraction

31 α-smooth muscle actin-fusion peptide (SMA-FP) inhibits the tension exerted by lung fibroblasts on silicone substrates. After washing our of the FP, cells contract again. See video at Hinz B, et al., J Cell Biol 157:657 (2002)

32 J. Zaleskas, et al., Biomat. 25:1299 (2004) Chondrocytes (P2 Canine) in a Type I Collagen-GAG Matrix: Contraction 40 min Courtesy Elsevier, Inc., Used with permission. B Kinner

33 40 min 40 min Courtesy Elsevier, Inc., Used with permission. 300 min J. Zaleskas, et al., Biomat. 25:1299 (2004)

34 Non-Seeded: - 8 days 8 days Cell-Seeded: days 10mm 10mm 21 days Non-Seeded and Cell-Seeded Collagen-GAG Scaffolds S. Vickers Courtesy of Scott Vickers. Used with permission.

35 Adult Adult canine canine articular articular chondrocytes (passage (passage 3) 3) contract contract a type a type I I collagen-gag g matrix, matrix, reflected reflected in in the the decrease decrease in in diameter diameter Cell-Mediated Contraction % Origina al Diam meter 100 Mean ± SEM Day Little x-link., low modulus Highly x-link., high modulus DHT UV GTA EDAC CR Lee, et al., Biomat. 2001;22:3145

36 Human Articular Chondrocytes in Monolayer Culture IH - Green: α-smooth muscle actin; Orange: type II collagen Chondrocytes express the gene for α-smooth muscle actin and this enables them to contract Courtesy of John Wiley and Sons, Inc. Used with permission. Source: Kinner, B., and M. Spector. J Orthop Res 19 (2001): B. Kinner, et al. JOR 2001;19:233

Fig 1a and b in Kim, A. C., and M. Spector.

37 α-smooth Muscle Actin Immunohistochemistry of Human Articular Cartilage Neg. control Courtesy of John Wiley and Sons, Inc. Used with permission. Fig 1a and b in Kim, A. C., and M. Spector. "Distribution of Chondrocytes Containing Alpha-smooth Muscle Actin in Human Articular Cartilage." J Orthop Res 18 (2000): 749. Kim and Spector, JOR 2000;18:749

38 MUSCULOSKELETAL CELLS THAT CAN EXPRESS a-smooth MUSCLE ACTIN AND CAN CONTRACT Articular chondrocyte Osteoblast Meniscus fibroblast and fibrochondrocyte Intervertebral disc fibroblast and fibrochondrocyte Ligament fibroblast Tendon fibroblast Synovial cell stem cell M. Spector, Mesenchymal stem cell Wound Repair Regen. 9: (2001)

39 POSSIBLE ROLES FOR -SMOOTH MUSCLE a ACTIN-ENABLED CONTRACTION Musculoskeletal Connective Tissue Cells Tissue engineering Contracture of scaffolds Healing Closure of wounds (skin wounds and bone fractures) Disease processes Contracture (Dupuytren s) Tissue formation Modeling of ECM architecture and remodeling (e.g., crimp in ligament/tendon?)

40 CONCEPTS FOR UNDERSTANDING BIOMATERIALS-TISSUE INTERACTIONS Control Volume Unit Cell Processes Types of Tissues Tissue Formation and Remodeling In Vitro Wound Healing In Vivo

41 TYPES OF TISSUES Which Tissues Can Regenerate Spontaneously? Connective Tissues Bone Articular Cartilage, Ligament, Intervertebral Disc, Others Epithelia (e.g., epidermis) Muscle Cardiac, Skeletal Smooth Nerve Yes No

42 BIOMATERIALS-TISSUE - INTERACTIONS Cll+Mt Cell +Mti Matrix Connective Tissue Epithelia Muscle Nerve

43 UNIT CELL PROCESSES Concept of a Control Volume around a Cell Soluble Regulator A Mechanical Loading (Strain) Cell + Matrix Product + Soluble (Regulator) Regulator B Control Volume

44 BIOMATERIALS-TISSUE - INTERACTIONS Cell + Matrix Connective Tissue Epithelia Muscle Nerve Adhesion Protein Collagen Biomaterial

45 BIOMATERIALS-TISSUE - INTERACTIONS Cell + Matrix Connective Tissue Epithelia Muscle Nerve Integrin Adhesion Protein Collagen Biomaterial

46 Chinese hamster ovary cell migration in a wound-healing assay CHO cells express the α5β1 but not α4β1 integrin C. Watters, Cell Biol. Ed. 2:210 (2003) K.A. Pinco, Mol. Biol. Cell 13:3203 (2002) Photos removed due to copyright restrictions. Figure 3 in Watters, C. Cell Biol. Ed. 2:210 (2003) Image and links to associated videos at Cells transfected with plasmid DNAs for α4 and α4/gfp

47 Migration of fibroblast-like fibrosarcoma cells in a 3-D collagen lattice K. Wolf, et al., J. Cell Biol. 160:267 (2003) Reduction of migration speed and induction of detached, nonmobile spherical morphology by adhesion perturbing anti α1 1i integrin i antibody, as a consequence of impaired collagen fibril binding.

48 UNIT CELL PROCESSES UCP Cell + Matrix Connective Tissue Epithelia Muscle Nerve Mitosis Snthesis Synthesis Migration Contraction Endocytosis Exocytosis

49 UNIT CELL PROCESSES Cell + Matrix UCP Product Connective Mitosis Cell proliferation Tissue Synthesis Matrix molecules, Epithelia enzymes, cytokines Muscle Migration Translocation Nerve Contraction Strain Endocytosis Solubilized fragments Exocytosis Regulators

50 UNIT CELL PROCESSES Regulator Cell + Matrix Product + Regulator Connective Tissue Epithelia Muscle Nerve UCP Mitosis Synthesis Migration Contraction Endocytosis Exocytosis Cytokines (Growth Factors)

51 REGULATORS Cytokines/Growth Factors factors.html (previously: factors.html

52 UNIT CELL PROCESSES Regulator Mechanical Force (Strain) Cell + Matrix Product + R egulator Connective Adhesion Tissue Protein Epithelia Collagen Muscle Nerve Integrin Biomaterial UCP Mitosis Synthesis Migration Contraction Endocytosis Exocytosis Cytokines (Growth Factors)

53 UNIT CELL PROCESSES Regulator Mechanical Force (Strain) Cell + Matrix Product + R egulator Connective Adhesion Tissue Protein Epithelia Collagen Muscle Nerve Integrin Biomaterial UCP Mitosis Synthesis Migration Contraction Endocytosis Exocytosis Cytokines (Growth Factors)

54 UNIT CELL PROCESSES Regulator (TGF-β1) Cell + Matrix Connective Adhesion Tissue Protein Epithelia Collagen Muscle Nerve Integrin Biomaterial UCP Mitosis Synthesis Migration Contraction Endocytosis Exocytosis Product + Regulator Matrix strain Cytokines (contracture/ (Growth Factors) shrinkage) g)

55 UNIT CELL PROCESSES TGF-β1 β Fibroblast + Collagen Contraction Contracture + Reg.

56 CONCEPTS FOR UNDERSTANDING BIOMATERIALS - TISSUE INTERACTIONS Control Volume Unit Cell Processes Types of Tissues Tissue Formation and Remodeling In Vitro Wound Healing In Vivo

57 +FGF-2 TISSUE FORMATION AND REMODELING IN VITRO +FGF-2 Canine chondrocytes grown in a type II collagen-gag scaffold for 2 weeks. (Safranin O stain for GAGs) N. Veilleux, et al., Osteoart. & Cart. 2005;13:278 Courtesy of Elsevier, Inc., Used with permission.

58 CONCEPTS FOR UNDERSTANDING BIOMATERIALS-TISSUE INTERACTIONS Control Volume Unit Cell Processes Types of Tissues Tissue Formation and Remodeling In Vitro Wound Healing In Vivo

59 WOUND HEALING Roots of Tissue Engineering Injury Inflammation (Vascularized tissue) Reparative Process 4 Tissue Categories Connective Tissue Epithelium Nerve Muscle Regeneration* CT: bone Ep: epidermis Muscle: smooth *spontaneous Repair (Scar) CT: cartilage Nerve Muscle: cardiac, skel.

60 RESPONSE TO IMPLANTS: WOUND HEALING Surgical Implantation Acute Inflammation Vascular Response Clotting Phagocytosis Neovascularization New Collagen Synthesis Granulation Tissue Tissue of Labile and Stable Cells Implant Movement Tissue of Permanent Cells Framework Framework Scarring Intact Destroyed (fibrous encapsulation; synovium) Regen. Scarring Chronic Inflammation (incorp. (fibrous encapsulation; of implant) synovium) Chronic Inflammation

61 MIT OpenCourseWare J / 2.79J / 3.96J / HST.522J Biomaterials-Tissue Interactions Fall 2009 For information about citing these materials or our Terms of Use, visit: