The Extracellular Matrix in health and Disease

Question 1

What are the four macromolecular components of the extracellular matrix?

Answer 1

1. ) Structural proteins
2. ) Glycosaminoglycans
3. ) Proteoglycans
4. ) Adhesive glycoproteins

Question 2

What are the two major structural proteins?

Answer 2

1. ) Collagen (imparts strength)

2. ) Elastin (imparts resilience)

Question 3

Complex sugars that bind water and resist compression

Answer 3

Glycosaminoglycans (GAG)

Question 4

Proteins with covalently coupled GAG chain

Answer 4

Proteoglycans

Question 5

What are the major adhesive glycoproteins?

Answer 5

Fibronectin, laminin, and entactin

Question 6

These macromolecules along with water and ions are termed the

Answer 6

Ground substance

Question 7

The ground substance plus cells is termed the

Answer 7

Connective tissue

Question 8

The basal surfce of the epithelium of most tissues is underlain with

-Sheets of exctracellulr matrix (ECM) that separate cells

Answer 8

Basememnt membranes

Question 9

If the epithelium is specialized, the basement membrane is called

Answer 9

Parenchyma

Question 10

Especially abundant under epithelial cells but also surround all endothelial cells and many mesenchymal cells

Answer 10

Basement membranes

Question 11

There are three “layers” of basement membrane that can be defined at EM level that are enriched in specific ECM components. What are the three layers?

Answer 11

1. ) Lamina rara
2. ) Lamina densa
3. ) Lamina reticularis

-in order of top to bottom

Question 12

Contains laminin, perlecan, nidogen, and type IV collagen

Answer 12

Lamina Densa

Question 13

Contains some fibronectin and specific laminin (type 5(, and type XVII collagen from the cell membrane

Answer 13

Lamina rara (lamina lucida)

Question 14

Contains types I, III, and IV collagen, several proteoglycans, and fibronectin

Answer 14

Lamina Reticularis

Question 15

Major component of adult ECM that is located outside the lamina reticularis of basement membrane that is secreted by fibroblasts and specialized mesenchymal cells

Answer 15

Stroma

Question 16

In adults, different tissues have quite different stromal

Answer 16

Matrix organization

Question 17

Has a dense extracellular compartment and is primarily made up of collagen

Answer 17

Tendon stroma

Question 18

MAde up of specific collagens (type II and IX) and the proteoglycan aggrecan

Answer 18

Cartilage stroma

Question 19

Has little matrix at all

Answer 19

Liver stroma

Question 20

Fibronectin, collagen types I, III, VII as well as elastic fibers are in the

Answer 20

Stroma (Bowman’s layer)

Question 21

The continuum between the cell surface and the extracellular matrix is mediated by

Answer 21

Syndecans and Integrins

Question 22

It is important that structures are interconnected to maintain

Answer 22

Tissue integrity

Question 23

An extracellular component in direct contact with the basal domain of epithelial cells

Answer 23

Basement membrane

Question 24

At the EM level, the basement membrane is defined by which two layers?

Answer 24

1. ) Basal lamina

2. Reticular lamina

Question 25

In some cells, specialized fibroblasts such as chondrocytes or osteoblasts secrete the

Answer 25

Stroma

Question 26

Has few cells, lots of matrix, and dense irregular connective tissue

Answer 26

Stroma

Question 27

A triple-helix protein that provides tensile strength

-25% of total protein

Answer 27

Collagen

Question 28

Colagen is resistant to

Answer 28

Stretching

Question 29

In fibril forming collagens, many triple helical structures will assemble into

Answer 29

Fibrils/fibers

Question 30

There is a continuum between the cell surface and ECM mediated by

Answer 30

Integrins and Syndecans

Question 31

Cell type-specific integral membrane proteins that serve as receptors for components such as fibronectin, laminin, and several collagen types and connect ECM with intracellular signaling pathways and the cytoskeleton

Answer 31

Integrins

Question 32

Specific heparin-sulfate containing proteoglycans that span the cell membrane and interact with actin filaments

Answer 32

Syndecans

Question 33

Triple-stranded helical molecules containing three monomer α-chains wrapped around each other that imparts strength to the molecule

Answer 33

Collagens

Question 34

A unique aspect of the α-chain amino acid composition of collagen is that every third amino acid is

Answer 34

Glycine

Question 35

Between the glycines in the form G-X-Y-G, we often see Proline, lysine, and hydroxylated forms of these amino acids, which contribute to

Answer 35

Helix stability

Question 36

The extend of post translational modification to the collagen aminos can generate

Answer 36

Heterogeneity

Question 37

Assembled extracellularly with many collagen molecules cross-linked and aligned for maximal stability and strength

Answer 37

Collagen fibers

Question 38

Leads to the extensive striation pattern seen at the EM level

Answer 38

Collagen fiber formation

Question 39

90% of collagens are

Answer 39

Fibril forming Collagen I

Question 40

A single glycine mutation in the primary structure of a collagen helix can alter the entire

Answer 40

Structure

Question 41

The number of collagen types has expanded and now totals 20, which can be classified into what 4 major categories?

Answer 41

1. ) Fibril forming
2. ) Fibril-associated
3. ) Non-fibrillar
4. ) Transmembrane

Question 42

Most abundant in the tendons, bones, lungs, and skin (represents 90% of all collagen)

Answer 42

Type I (a fibril-forming) Collagen

Question 43

Mutations in type I collagen leads to

Answer 43

Osteogenesis imperfecta or osteoporosis

Question 44

Type II collagen is found in cartilage and makes up 50% of cartilage dry weight. Mutations in type II lead to

Answer 44

Chondrodysplasia

Question 45

Widely distributed in the skin and aorta-“reticular” collgen

-Stained with silved

Answer 45

Type III collgen

Question 46

Mutations in type III collagen cause

Answer 46

Type III Ehler’s-Danlos-Type 3

Question 47

Type III Ehler’s-Danlos-Type 3 is characterized by

Answer 47

Hyperextended skin and susceptibility to anneurism

Question 48

Types I, II, and III collagen are all

Answer 48

Fibril-forming

Question 49

Type IX collagen, found in the cartilage where it decorates the outside of type II collagen fibers is an example of a

Answer 49

Fibril-associate collagen w/ interrupted triple helix (FACIT)

Question 50

What are the two non-fibrillar (network forming) collagens

Answer 50

Type IV and Type VII

Question 51

Located in the basal lamina of basement membranes

Answer 51

Type IV collagen

Question 52

Anchors fibrils at epithelia connective tissue junctions

Answer 52

Type VII collagens

Question 53

Transmembran collagen that connects basement membrane to epithelium via anchoring filaments

Answer 53

Type XVII collagen

Question 54

Epidermolysis bullousa is a disease associated with

Answer 54

Type VII collagen

Question 55

In collagen synthesis, the α chains are synthesized as

Answer 55

Pro-α-chains on RER-attached polysomes

Question 56

In collagen biosynthesis, the signal peptide is removed. Then proline and lysine are

Answer 56

Hydroxylated

Question 57

Mutations in the collagen hydroxylases alter

Answer 57

Collagen assembly

Question 58

Required for helix stability at physiological temperature

Answer 58

Hydroxylation of Proline

Question 59

Required for intermolecular cross-links to form

Answer 59

Hydroxylation of lysine

Question 60

Required as a co-factor for the collagen hydroxylases

-deficiency causes scurvy

Answer 60

Vitamin C

Question 61

If there is a vitamin C deficiency, hydroxylation does not occur and collagen α chains are

Answer 61

Degraded

Question 62

Once hydroxylation has occure, the hydroxylysines are

Answer 62

Glycosylated

Question 63

Next, N- and C-terminal extension containing cys-rich globular domains (non-Gly-X-Y) guide

Answer 63

Helix formation

Question 64

Helix formation begins in the ER and goes in the

Answer 64

C- to N-terminal direction

Question 65

Formation of hydrogen bonds between Pro and NH2 of Gly to COOH- groups on separate chains leads to formation of

Answer 65

Helix

Question 66

Required for stability of the helix at 37 degrees celcius

Answer 66

4’OH-Pro

Question 67

In one form of osteogenesis imperfecta, helix formation is disrupted by a single Gly to Cys substitution that alters

Answer 67

Hydrogen binding

Question 68

Have low Gly, Pro, OH-Pro and do not form helix. Thus their presence prevents fibril formation within cells

Answer 68

Extension peptides

Question 69

During secretion, extension peptides of fibril-forming collagen molecules (types I, II, III) are cleaved by two procollagen peptidases specific for N- and C-ends leaving a bit of globular domain which participates in

Answer 69

Cross-linking

Question 70

After the extension peptides are cleaved (occurs outside of the cell), the resulting collagen molecules are termed

Answer 70

Tropocollagen

Question 71

Fibril assembly from triple helical molecules can not occur if we are missing

Answer 71

Procollagen peptidases

Question 72

Tropocollagen first assembles into a microfibril and then into a

Answer 72

Fibril

Question 73

Microfibrils aligned with 35 nm overlap between tropocollagen molecules, which are aligned

Answer 73

Head to tail

Question 74

The maximum number of possible inter-chain electrostatic and hydrophobic bonds are formed
when chains are displaced by multiples of

-leads to striated pattern seen in EM

Answer 74

67 nm

Question 75

Stain silver because they have more carbohydrate and thinner fibrils, are more branched, and have fewer bundles

Answer 75

Type III (“Reticular”) collagen

Question 76

Covalent cross-linking of fibrils is catalyzed by

-Cu dependent

Answer 76

Lysyl oxidase

Question 77

Type IX collagen, a fibril associated collagen, is less rigid and forms a

Answer 77

Hinge

Question 78

The extension peptides are generally retained in

Answer 78

Type IX collagen

Question 79

Functionally imortant for joint integrity

-Mutations cause epiphyseal dysplasia (leads to arthritis)

Answer 79

Type IX collagen

Question 80

Major collagen of the basal lamina, more specifically the lamina densa

-has multiple regions where the triple helix is interrupted

Answer 80

Type IV collagen

Question 81

Has little extracellular processing of procollagen chains. So, unlike fibrillar collagens, retains globular non-collagen-like extensions at both ends

Answer 81

Type IV collagen

Question 82

The extension peptides of type IV collagen are not

Answer 82

Cleaved

Question 83

Both the C- and N-termini of type IV collagen react to form dimers and tetramers respectively. This results in a

Answer 83

“Chicken-wire” array

Question 84

Contain dimers that form networks of anchoring fibrils that connect lamina densa with matrix components in reticularis or stroma

Answer 84

Type VII collagen

Question 85

In type IV collagen, the C-termini of monomers interact with eachother via disulfide bonds to form dimers, while the N-termini attach to the

Answer 85

Lamina densa and anchoring plaque of stroma

Question 86

Absence of type IV collagen leads to

-stroma peels from basement membrane

Answer 86

Blistering

Question 87

Attaches basement membrane to epithelial surface via anchoring filaments

-mutation leads to blistering

Answer 87

Type XVII collagen

Question 88

If either type VII or type XVII are mutated, the result is

Answer 88

Blistering

Question 89

If VII is mutated, the blistering occurs

Answer 89

Below lamina densa

Question 90

If type XVII is mutated, the blistering occurs

Answer 90

Above lamina densa

Question 91

Mutants with shortened C-termini cannot associate, which results is

Answer 91

Blistering

Question 92

Structural component of ECM that allow stretching and recoil of connective tissues

Answer 92

Elastin

Question 93

One tissue with high elastic fiber (elastin) content is the

Answer 93

Aorta

Question 94

Like collagen, elastin is assembled

Answer 94

Extracellularly

Question 95

Elastin monomers are highly cross-linked via

Answer 95

Unique amino acids

Question 96

What are the two major molecular components in elastic fibers?

Answer 96

Cross-linked elastin monomers and fibrillin

Question 97

Participates in the cross-linking of elastin

Answer 97

Fibrilin

Question 98

The importance of fibrillin has been seen in

-results from missense mutations in the structural gene encoding fibrillin 1

Answer 98

Marfan syndrom

Question 99

Marfan syndrome results from missense mutations in the structural gene encoding fibrillin 1 and leads to elongated extremities and enhanced rupture of the

Answer 99

Aorta

Question 100

At the histological level, elastin can be visualized by the orcein stain, while at EM level, mature elastin molecules are generally surrounded by

Answer 100

Fibrillin

Question 101

Long, unbranched polysaccharide chains consisting of repeating disaccharides that are distinct in different classes but contain alternating amino sugar and uronic acid

Answer 101

Glycosaminoglycans

Question 102

The most important glycosaminoglycans (GAGs) are

Answer 102

Hyaluronic acid, chondroitin sulfate, and heparan

sulfate

Question 103

All classes of GAGs are sulfated on an amino sugar except

Answer 103

Hyaluronic acid

Question 104

Are inflexible with a negative charge that binds water and osmotically active cations

Answer 104

GAG chains

Question 105

GAG chains have a highly extended

Answer 105

Random coil

Question 106

As a result GAG occupy huge space; ECM with high GAG content has the consistency of a hydrated gel and can resist compression and participate in

Answer 106

“Sieving”

Question 107

There are major clinical deficits if normal catabolism of GAG is not maintained. This is seen clearly in

Answer 107

Lysosomal storage diseases

Question 108

Lethal conditions result from accumulation in lysosome

of iduronic acid from dermatan sulfate and heparan sulfate in

Answer 108

Hurler’s syndrome

Question 109

Most GAG classes are covalently coupled to “core” protein and thus termed

-again, hyaluronic acid is an acception

Answer 109

Proteoglycans

Question 110

Epithelium and Basement Membrane
peeled away and type VII anchoring
fibrils are disrupted in

Answer 110

Epidermolys Bullosa

Question 111

The prototype proteoglycan is the proteoglycan from cartilage that is 90-95% carbohydrate and is now termed

Answer 111

Aggrecan

Question 112

Membrane associated proteoglycans

Answer 112

Heparin Sulfate (HS) proteoglycans

Question 113

Some heparan sulfate-containing-PGs are integral
membrane proteins with membrane spanning domains in addition to extracellular attachment sites for HS chains. These include members of the

Answer 113

Syndecan family

Question 114

These heparan sulfate
PGs can bind a wide array of molecules including both other matrix components and growth
factors.

Answer 114

Syndecans

Question 115

The binding of one specific growth factor, fibroblast growth factor (FGF) to syndecan is required to maximize

Answer 115

Mitogenic activity

Question 116

There are also additional heparin sulfate proteoglycans that are completely extracellular, such as

Answer 116

Perlecan

Question 117

Located in the lamina densa of basement membranes

Answer 117

Perlecan

Question 118

The interaction of syndecan w/ the cytoskeleton illustrates one connection between ECM and

Answer 118

Internal signaling pathways

Question 119

What are three matrix glycoproteins?

Answer 119

1. ) Fibronectin
2. ) Laminin
3. ) Nidogen (enactin)

Question 120

A glycoprotein formed by two identical chains joined by disulfide linkages close to the C-termini

Answer 120

Fibronectin

Question 121

Fibronectin can exist in a soluble dimeric form that circulates in serum and is involved in

Answer 121

Wound healing

Question 122

Fibronectin can exist as oligamers attached to the

Answer 122

Cell surface

Question 123

Fibronectin can exist as fibronectin fibrils that form an insoluble matrix in the

Answer 123

Stroma

Question 124

Synthesized, secreted and bound to fibroblasts and other cell types

-Initially inversely correlated with tumor formation and altered growth

Answer 124

Insoluble form of fibronectin

Question 125

Cells lacking fibronectin would lose adhesiveness, round up, and

Answer 125

divide

Question 126

An important feature of fibronectin is its

-allows interconnection between series of cell-matrix components at the surface and in the matrix

Answer 126

Modular organization

Question 127

Fibronectin has two binding sites for

Answer 127

Integrins, collagen, heparin, and fibrin

Question 128

Produced by hepatocytes and secreted into the bloodstream

Answer 128

Plasma fibronectin

Question 129

Produced by fibroblasts and forms part of the extracellular matrix

Answer 129

Cellular fibronectin

Question 130

Can bind to both collagen and laminin

Answer 130

Integrins

Question 131

Made up of three major subunits (α, β1, β2) arranged in pattern containing one long arm and three short arms; multiple additional forms have been identified

Answer 131

Laminins

Question 132

Laminins generally promote

Answer 132

Adhesion

Question 133

Located in high abundance in the lamina densa and mediates interactions between cell surface and basement membrane

-has a high affinity for type IV collagen and the HSPG perlecan

Answer 133

Laminin 1

Question 134

Fibronectin and laminin bind to integrins through

Answer 134

RGD

Question 135

Dumbbell shaped structure that binds to laminin 1 and type IV collagen and mediates their interaction with the lamina densa

Answer 135

Nidogen (enactin)

Question 136

What are two major membrane-spanning molecules that serve as receptors for ECM components

Answer 136

1. ) Syndecans

2. ) Integrins

Question 137

Integrins are dimers composed of

Answer 137

α subunits (18 different types isolated so far) and β

subunits (8 different types)

Question 138

Extracellular laminin, fibronectin, collagen and numerous other cell adhesion molecules all bind

Answer 138

Integrin

Question 139

Important amino acid sequence for many integrin binding interactions

Answer 139

RGD

Question 140

Found on epithelial and mesenchymal cell surfaces and also found on some circulating blood cells

Answer 140

Integrins

Question 141

Once binding to the matrix or other cells has occurred, integrins regulate the activity of kinases such as the

-allows several intracellulr signaling pathways to assemble

Answer 141

Focal adhesion kinase (FAK)

Question 142

Also bind cytoskeletal-associated proteins and thus serve to link
the ECM and cytoskeleton

Answer 142

Integrins

Question 143

Links fibronectin to actin filaments probably through talin

Answer 143

Integrin α5/β1

Question 144

Integrin α5/β1 is a co-receptor with other receptors that lead to phosphorylation of

Answer 144

Paxilin and FAK

Question 145

Major receptor for laminin and may be altered in some forms of muscular dystrophy

Answer 145

Integrin α6/β1

Question 146

Part of hemidesmosome and anchors intermediate (keratin), not actin filaments

Answer 146

Integrin α6/β4

Question 147

Both integrin subunits are involved in binding substrate via

Answer 147

RGD sequence

Question 148

Binds cytoskeleton (often actin) that can initiate formation of signaling complexes

Answer 148

β-subuint of integrin

Question 149

Bind the actin cytoskeleton and organize signaling molecules

Answer 149

Integrins

Question 150

After binding substrate, integrins

Answer 150

Cluster

Question 151

A focal adhesion forms at the site of actin bound integrin via

Answer 151

Rho GTPase

Question 152

One subfamily of integrin receptors (β3), is found on platelets and binds fibrinogen during clotting. Mutations in β3 result in

Answer 152

Glanzmann’s disease

Question 153

Another subfamily (β2) is found on white blood cells. Deficiency of β2 results in

-prevents binding of white cells to endothelium

Answer 153

Leukocyte adhesion deficiency

Question 154

Cell membrane proteins that both interact with ECM components

Answer 154

Integrins and Syndecans

Question 155

Changes β2 integrin conformation to allow its binding to endothelial surface receptors

Answer 155

Lymphocyte binding to endothelium via selectin

Question 156

Initial interaction with endothelium is through a different low affinity receptor (selectin). Intracelluar signaling alters integrin conformation which then allows specific, high affinity binding to endothelium and ultimately leukocyte infiltration from blood into the tissue. This describes

Answer 156

Leukocyte adhesion to endothelium

Question 157

Regulation of platelet activation is critical because if platelets aggregated randomly, this would lead to

Answer 157

Erroneous clotting

Question 158

Ensures that binding to integrin occurs only in appropriate environment when clotting is needed

Answer 158

Regulation of integrin affinity

Question 159

Regulation of integrin activation is especially important for

Answer 159

lymphocyte binding to endothelium (β2) and platelet binding to fibrinogen (β3)

Question 160

What do the following integrins bind and where are they found?

1. ) Integrin α6/β4
2. ) Integrin α2/β3

Answer 160

1. ) Laminin, Hemidesmosomes

2. ) Fibrinogen, Platelets

Question 161

Found on white blood cells and help mediate attachment to epithelial cells and subsequent movement of WBC into tissue

Answer 161

Integrin αL/β2