3. 7 Growth factors

Question 1

growth factors

Answer 1

are like protooncogenes

Question 2

cell growth occurs viea

Answer 2

auto,
para, and
endocrine actions

Question 3

auto, para, and endocrine actions work through

Answer 3

intrinsic kinase activity (mostly tyrosine kinase),
no kinase activity,
G protein-linked

Question 4

cell growth requires

Answer 4

more than one stimulus/growth factor to grow

Question 5

No growth factors results in

Answer 5

apoptosis

Question 6

some growth factors results in

Answer 6

survival

Question 7

other growth facotrs results in

Answer 7

division

Question 8

EGF and TGFalpha are

Answer 8

epidermal growth factor and transforming growth factor alpha are part of the EGF family and share a common receptor with intrinsic tyrosinge kinase activity

Question 9

EGF and TGF alpha stimulate

Answer 9

a variety of epithelial and mesenchymal cells to proliferate

Question 10

HGF

Answer 10

hepatocyte growth factor/scatter factor

Question 11

HGF receptor

Answer 11

c-met, a frequently mutated protooncogene that has tyrosine kinase activity

Question 12

HGF is made by

Answer 12

mesenchymal cells

Question 13

HGF stimulates

Answer 13

stimulates several types of epithelial cells including hepatocytes and bile duct epithelial cells

Question 14

HGF promotes

Answer 14

embryonic development and scattering/migration of cells

Question 15

VEGF

Answer 15

vascular endothelial growth factor

Question 16

VEGF family

Answer 16

A B C D

Question 17

VEGF is an inducer of

Answer 17

blood vessel formation in embryogenesis wound healing and tumor formation

Question 18

VEGFR -1, 2, 3

Answer 18

3 VEGF receptors with tyrosine kinase activity

Question 19

VEGFR-2

Answer 19

on endothelial cells,
binds VEGF-A,
main role is angiogenesis

Question 20

VEGF-C and D bind to

Answer 20

VEGFR 3 and promote lymphatic development

Question 21

PGF - Platelet derived growth factor sturcture

Answer 21

2 chains of A and B

Question 22

PGF isoforms

Answer 22

AA,
AB,
BB

Question 23

PGF C and D

Answer 23

recently discovered

Question 24

PDGFR alpha and beta

Answer 24

receptors with tyrosine kinase activity

Question 25

PDGF is made by

Answer 25

platelets,
macrophages,
endothelial cells

Question 26

PDGF induces

Answer 26

migration and proliferation of fibroblasts,
smooth muscle cells,
and monocytes

Question 27

Fibroblast Growht factor is best characterized

Answer 27

acidic -: aFGF or FGF1,

basic - bFGF or FGF2

Question 28

FGF family has

Answer 28

10 members

Question 29

FGF can associate with

Answer 29

heparan sulfate in ECM

Question 30

FGF receptors

Answer 30

intrinsic tyrosine kinase activity

Question 31

FGF is involved in

Answer 31

angiogenesis,
wound healing,
myocyte and blood vessel development,
hematopoesis

Question 32

Transforming Growth factor beta family

Answer 32

TGF beta 1, 2, and 3;
BMPs
activins
inhibins

Question 33

Most widespread TGF

Answer 33

TGF beta 1

Question 34

TGF beta 1 is made by

Answer 34

macrophages,
endothelial cells (Ecs?),
lymphocytes and others

Question 35

TGF receptors

Answer 35

type I and type II receptors with serine/threonine kinase activity

Question 36

TGF receptor binding

Answer 36

binds type II first then complexes with type I
then phosphorylates Smad faimily preteins
that transduce signal

Question 37

Smad

Answer 37

potent growth inhibitory signal and loss is associated with unregulated growth and neoplasia

Question 38

Pleitrophic effects of TGF beta depend on

Answer 38

type, concentration, and co factors

Question 39

TGF beta functions

Answer 39

inhibits proliferation of epithelial cells,
upregulates cell cycle inhibitors in some cells,
stimulates proliferation of fibroblasts and smooth muscel cells,
stimulates fibrosis,
anti-inflammatory

Question 40

receptors with intrinsic kinase activity

Answer 40

most growth factor

Question 41

receptors w/o intrinsic kinase activity that recurit kinases

Answer 41

cytokines

Question 42

7TM gprotein coupled receptors

Answer 42

histmaine,
chemotactic,
signals,
epinephrine

Question 43

Steroid hormone like receptors

Answer 43

in cytosol and nucleus: 
steroids, 
Vit D, 
retinoids, 
PPARs

Question 44

receptor binding causes

Answer 44

receptor anchoring and aggregation

Question 45

cascade pathways associated with tyrosine kinase

Answer 45

Ras-GTP —> MAP kinase,
PI3 kinases —–>AKT kinases,
PLCgammaPIP2 —->IP3 + DAG

Question 46

PI3 –>AKT kinases are involved in

Answer 46

cell survival (inhibition of apoptosis),
proliferation,
insulin signaling

Question 47

PLC –> IP2 +DAG

Answer 47

IP2 –>IP3 causes inc Ca ,

DAG –> activates PKC (Ca also activates PKC)

Question 48

how does RAS-GTP get activated

Answer 48

tyrosine kinase phosphorylation –>GRB2
—>SOS —->RasGDP —->Ras GTP;
adaptor proteins and linker proteins lead to RAS (an oncogene) and binding to ATP makes it active

Question 49

How does RAS-GTP get shup off

Answer 49

intrinsic GTPase activity cleaves terminal phsophate

Question 50

Down stream signal from Ras-GTP

Answer 50

Raf –> MEK –> ERK –> nucleus –>

activation of transcription cFOS, cMYC, cJUN

Question 51

cFOS, cMYC, cJUN are

Answer 51

competence factors and when they are active they allow the cell to get out of G1 and start dividing

Question 52

Receptors without kinase activity

Answer 52

recurit JAK (janus kinase) for downstream signaling via STAT (signal transducers and activators of transcription ) sending signal to the nucleus

Question 53

G Protein Linked receptors

Answer 53

adenyl cyclase - inc cAMP to activate cAMP dependent kinases.
PLC gamma - activates PKC and increases Ca2+

Question 54

Signal transduction occurs via

Answer 54

MAP kinase,
PI3 kinase, IP3 signaling/PKC,
cyclicAMP kinases,
JAK/STAT pathway

Question 55

Transcription factors have

Answer 55

DNA binding zinc fingers

Question 56

TFs will

Answer 56

increase or decrease transcriptin

Question 57

TF phosphorylation will

Answer 57

alter activity

Question 58

TFs can be

Answer 58

protooncogenes/tumor supressor genes (myc, fos, p53)

Question 59

Growth in serum

Answer 59

occurs bc you have coagulation and activated plateltes will secrete a lot of growth factors

Question 60

Growth in plasma

Answer 60

does not occur bc of lack of activate plateltes that secrete growth factors

Question 61

plasma and PDGF or PDGF and EGF will result in

Answer 61

growith bc cells need at least 2 signals, one to get comptence factors activated and another to push the cycle forward

Question 62

Cyclin dependent kinases are

Answer 62

constitutive and are inactive until the appropriate cyclin is produced and then they phosphorylate different proteins

Question 63

cylin in G1–>S

Answer 63

Cyclin E

Question 64

Cyclin in S–>G2

Answer 64

Cyclin A

Question 65

Cyclin in G2–>M

Answer 65

cyclin B

Question 66

CDK + cyclin –>

Answer 66

CDK (active)

Question 67

CDK active –>

Answer 67

posphorylation of numerous proteins

Question 68

cyclins are degraded by

Answer 68

ubiquitine/proteosome complex

Question 69

liver lobes

Answer 69

are not perfectly separated so if we cut off one we wont regenerate the full part we cut off

Question 70

Kupfer cells and endothelial cells of sinusoids in liver make

Answer 70

TNF and IL6

Question 71

insuline and norepinephrine are

Answer 71

adjuvants in the cell cycle making it more robust to get to S phase

Question 72

G0 –> G1

Answer 72

Liver NPCs,
TNF,
IL6,
cFOS, cJUN, cMYC–>AP1–>NFkB,Stat3

Question 73

G1–>S

Answer 73

HGF, 
TGFalpha, 
Insulin, 
NE, 
Bcl-X

Question 74

S –> M

Answer 74

cyclins,
CDK4,
CDK2

Question 75

TGFbeta and activin

Answer 75

inhibition of cell cycle/ epithelial growth

Question 76

Extracellular matirx is made of

Answer 76

collagens (1-9),
elastin/fibrilin,
glycoproteins ,
proteoglycans

Question 77

glycoproteins in ECM

Answer 77

fibronectin,
laminin,
integrins

Question 78

Proteoglycans in ECM

Answer 78

heparan and chondroitin sulfate,

hyaluronic acid

Question 79

ECM is a

Answer 79

skeleton,
intracellular glue,
potent signaling pathway

Question 80

ECM has

Answer 80

interstitial matirx,
basement membrane, and
provisional matrix

Question 81

ECM interstitial matrix

Answer 81

fibrillar and nonfibrillar collagen,
elastin, and
varying amounts of other constituents

Question 82

ECM Basement membranes

Answer 82

epithelial cell contact,
amorphous nonfibrillar collagen (4),
laminin, and
others

Question 83

ECM provisional matrix

Answer 83

temporary accumulation of ECM at sites of injury

Question 84

what is the most abundant animal protein

Answer 84

collagen

Question 85

collagen structure

Answer 85

triple helix of 3 alpha chains

Question 86

collagen synthesis

Answer 86

chains undergo hydroxylation reactions that need VitC.

Question 87

Collagen modification post secretion

Answer 87

cleavage and crosslinking

Question 88

types of collagen

Answer 88

27 types encoded by 41 genes over 14 chromosomes - huge genetic target

Question 89

no Vit C

Answer 89

you don’t heal bc no collagen syn

Question 90

full steps of collagen syn

Answer 90

alpha chain syn off ribosome, 
hydroxylation, 
glycosilation, 
alphachain arrangement inot tripple helix, 
clipping of N and C term peptides, 
crosslinking

Question 91

why the crosslinking?

Answer 91

makes it stiffer

Question 92

type 1 collagen

Answer 92

high tensile strength

Question 93

type 1 collagen is found in

Answer 93

skin, bone, tendons, most organs

Question 94

type 2 collagen

Answer 94

thin fibrils, sturctural protein

Question 95

type 2 collagen is found in

Answer 95

cartilage, vitreous humor

Question 96

type 3 collagen

Answer 96

thin pliable

Question 97

type 3 collagen is found in

Answer 97

blood vessels, uterus, skin

Question 98

type 4-6 collagen

Answer 98

amorphous

Question 99

type 4-6 collagen is found in

Answer 99

basement membrane and interstitial tissues

Question 100

type 7

Answer 100

anchoring filament

Question 101

type 7 found in

Answer 101

dermal-epidermal junction

Question 102

type 8

Answer 102

endothelium-descement membrane

Question 103

type 9

Answer 103

cartilage

Question 104

Elastin is found in

Answer 104

vessels, skin, uterus, lung

Question 105

Elastin can

Answer 105

stretch then snap back

Question 106

Elastin sturcture

Answer 106

central core protein (elastin) surounded by fibrilin

Question 107

Elastin elasticity controlled by

Answer 107

crosslinking

Question 108

Most insoluble and resistant to break down protein

Answer 108

elastin

Question 109

In arterial walls elastin is

Answer 109

slowly replaced

Question 110

Adhesive glycoproteins

Answer 110

bind ECM and to cell receptors - like glue

Question 111

adhesive glycoprotein examples

Answer 111

fibronectin and laminin

Question 112

fibronectin is found in

Answer 112

many locations and serum -helps cells bind and grow better

Question 113

laminin is found in

Answer 113

basement membranes

Question 114

Fibronectin size

Answer 114

very large 450 kDa secreted by many cell types like the liver

Question 115

fibronectin binds

Answer 115

many cells especially endothelial cells, via a receptor that recognizes the tripeptide sequence
RGD (argenin,glycine,aspartat)

Question 116

fibronectin directly mediates

Answer 116

attachment spreading and migration of cells and modifies responses to growth factors

Question 117

RGD motif on fibrin binds

Answer 117

integrins on endothelial cells

Question 118

fibrin has binding domains for

Answer 118

heparan,
fibrin,
collagen and
integrins

Question 119

laminin size

Answer 119

very large 820kDa

Question 120

what is the most abundant glycoprotein in the basement membrane

Answer 120

laminin

Question 121

laminin spanns the basement membrane and binds

Answer 121

integrins on cells

Question 122

laminin binds

Answer 122

collagen 4 and heparan sulphate in basement membrane

Question 123

laminin mediates

Answer 123

spreading,
adhesion,
alignment, and
responses to growthfactors

Question 124

if you destroy laminin

Answer 124

you lay down type 1 collagen instead of type 4 and you scar. You’ll fill the hole but won’t resolve.

Question 125

cell adhesion proteins/molecules

Answer 125

immunoglobulin family,
cadherins,
integrins,
selectins

Question 126

Ig family CAMs

Answer 126

same or different cell type interactions

Question 127

Caderhin CAMs

Answer 127

Ca dependent same cell interactions (like btw columnar cells for ex)

Question 128

Integrin CAMs

Answer 128

very broad range of binding cell-cell and cell-ECM

Question 129

Selectin CAMs

Answer 129

C-type lectin involved in leukocyte endothelial binding

Question 130

Cadherins occur at

Answer 130

zona adherins and desmosomes

Question 131

Cadherin linkage with

Answer 131

cytoskeleton through alpha and beta catenin

Question 132

cadherins modulate

Answer 132

proliferation,
differentiation, and
motility (contact inhibition of replication)

Question 133

beta catenin is an important inducer of

Answer 133

colon carcinoma

Question 134

if cadherins are taken away

Answer 134

loss of contact inhibition resulting in neoplasia

Question 135

Integrins

Answer 135

cell receptors that bind to adhesive proteins (ex RGD seq of fibronectin)

Question 136

Integrins are linked to

Answer 136

cytoskeleton and signal transduction pathways

Question 137

alpha integrins

Answer 137

14 subtypes

Question 138

beta integrin chain

Answer 138

8 subtypes

Question 139

integrin chain chain

Answer 139

alpha and beta

Question 140

integrins are found on

Answer 140

many cells

Question 141

integrins mediate

Answer 141

leukocyte adhesion,
platelet aggregation,
wound healing

Question 142

some cells undergo apoptosis if

Answer 142

thye are not bound to the matrix by integrins

Question 143

Matricellular protein examples

Answer 143

SPARC,
Thrombospondins,
Osteopontin,
Tenacin

Question 144

Matricellular Proteins

Answer 144

nonstructural components of ECM but modify cell-ECM interactions

Question 145

Matricellular Protein - SPARC

Answer 145

secreted protein acidic and rich in cystien aka osteonectin

Question 146

SPARC is involved in

Answer 146

tissue remodling,
inhibits angiogenesis,
(Ca++?)

Question 147

Thrombospondins

Answer 147

inhibit angiogenesis

Question 148

Osteopontin

Answer 148

Ca2+,

leukocyte migration

Question 149

Tenacin

Answer 149

cell morphogenesis and

cell adhesion

Question 150

Proteoglycans

Answer 150

protein linked to polysaccharides containing a sulfate -

along with hyaluronana are the 3rd general sturctural component of ECM

Question 151

Proteoglycan examples

Answer 151

heparn sulfate,
chondroitin sulfate,
dermatan sulfate

Question 152

proteoglycans are named by

Answer 152

the repeating disaccharide

Question 153

proteoglycans can also be

Answer 153

cell membrane proteins like Syndecan

Question 154

Syndecan

Answer 154

spans membrane and binds GFs and ECM and interacts with actin

Question 155

Hyaluronan is made of

Answer 155

simple end to end disaccharide repeats

Question 156

hyaluronan binds to

Answer 156

many receptors including CD44 that mediates migration and proliferation

Question 157

unique feature of hyaluronan is that it binds

Answer 157

massive amouns of H2O thus excellent cushion effect so found in joints

Question 158

hyaluronan inhibits

Answer 158

cell-cell adhesion and facilitates cell migration

Question 159

heparan sulfate binds

Answer 159

FGF that finds the FGF receptor

Question 160

the same growth factors and cells in varied ECM will

Answer 160

vary the response