Integrins, Intro to Biomaterials

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Synthetic BIOMATERIALS

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Presentation transcript:

Integrins, Intro to Biomaterials 2/21/17 Lecture 8, ChE 575

Natural Cell Microenvironment: ECM PROTEINS AND SUGARS Fibroblasts in connective tissue Molecular Biology of the Cell Epithelial, basal lamina, connective tissue Molecular Biology of the Cell

Integrin Structure

Many different heterodimers of integrins Heterodimers are specific to the ECM proteins in tissue: matching cell type to tissue 8 betas, 18 alphas = 24 combinations (even though 8x18 = 144)

Not all cells express all integrin pairs! Differential expression of integrins helps isolate cell types to different tissue areas Epithelia: attach to laminin. Carcinoma (epithelial cancer) cells: begin to express fibronectin and collagen-binding integrins, so they can invade the surrounding tissue and metastasize. Tissue engineered material: coat these with proteins that will ONLY BIND the cells you want there!

Most Cells Need to Adhere and Spread to Survive Geometric Control of Cell Life and Death Christopher S. Chen, et al. Science 276, 1425 (1997);

This effect not from “# of integrin bonds” “anoikis”

Stem Cell Differentiation by controlling size of adhesion sites McBeath et al., Dev Cell, 2004

Cells have many different types of receptors

Introduction to Biomaterials

History of biomaterials Biomaterials range from prosthetics, to stents, to implantable scaffolds “Classes” of biomaterials we’ll go through: Synthetic, Bioinert Synthetic, Bioactive/Bioinstructive Natural, Bioderived Polymers Biomaterials developed, at least initially, for tissue engineering Huebesch and Mooney, Nature, 2009

Choice: 1. Do you want a biomaterial that the body ignores Choice: 1. Do you want a biomaterial that the body ignores? 2: or a material that is responsive to, or instructive toward the body?

If 1: Bioinert materials Purposes: 1) do not entice an immune response once implanted into the body. 2) Have incredible mechanical toughness withstand physiological loading 3) Long lasting in the body (won’t degrade over time) Applications: 1) Skeletal tissue prosthesis (hip, knee replacement) 2) Vascular stents, heart valves 3) Tooth caps, replacements, other dental applications

If 2: Natural biopolymers Taken straight from body: are native proteins found in the ECM Fibrous, instructive, soft (in bulk): the opposite of bioinert examples Regulate cell function, act as a physical scaffold, can be remodeled by cells Not very controllable (lumped parameters) Images taken from Molecular Biology of the Cell Examples: Type I Collagen, Fibrin, Matrigel

Newer option: Functionalize inert surfaces with cell instructions

1: Regulate Cell Adhesion Attack amines, thiols on proteins, or biotinylate them No treatment Type I Collagen RGDS Hydrophilic surface, so no protein will stick Fibronectin KQAGDV

2: Regulate bio-degradation Purposes: Temporary space holder for tissue replacement Not entirely bioinert – meant to degrade away while being replace by native tissue in vivo Typically adhesive to ECM proteins and, therefore, cells Tune biodegradation to match body’s kinetics (rate of tissue production/replacement) Degradation typically hydrolytic (ester groups) Unstable. % PLA in PLGA blend Degradation half life, in months 100% PGA 100% PLA 50-50 blend Applications: Both Hard and Soft tissue repair where vascularization is needed

Thoughts, Perspectives There’s a biomaterial out there for every need, only a subset mentioned here. Establish design criteria from biological purpose Some are easier than others to modify – so justify your choice! Some are cheaper than others – so justify your choice!

Problem Set 4