Tissues 1

Question 1

Describe a typical nucleus

Answer 1

Contains cell DNA
Double lipid membrane + pores
Nucleolus (sometimes more than 1) where large ribosome subunits are synthesised from rRNA

Question 2

What is nuclear lamina

Answer 2

Specialised cytoskeleton on the internal surface which control (dis)assembly of the nuclear envelope during division

Question 3

Describe a ribosome

Answer 3

2 subunits (rRNA and protein)

Question 4

Describe the endoplasmic reticulum

Answer 4

Nuclear envelope continuous with the ER
Flattened sacs (cisternae)
RER = +ribosomes
SER = tubular (lipid synthesis + calcium storage)

Question 5

Describe the golgi apparatus

Answer 5

Flattened membrane sacs
Vesicles bud off
Cis face (towards ER) and trans face (Towards membrane)

Question 6

Describe the mitohondria

Answer 6

Site of ATP synthesis
Double membrane with folds into Cristae
High numbers = high metabolic activity

Question 7

Describe peroxisomes

Answer 7

Important in oxidative pathways
Single membrane + contain enzymes involved in lipid metabolism
Eukaryotic cells
Enzymes = high conc. = crystallise into dorm cores
Peroxide produced as a by-product

Question 8

What are the three main types of cytoskeleton

Answer 8

Microtubules, intermediate filaments and microfilaments

Question 9

What is the size of microtubules

Answer 9

20nm

Question 10

What is the size of intermediate filaments

Answer 10

10-15nm

Question 11

What is the size of microfilaments

Answer 11

5-9nm

Question 12

What are microtubules a polymer of

Answer 12

alpha and beta tubules heterodimers

Question 13

What is the function of microtubules

Answer 13

cell shape and tracks for movement of organelles and cellular components

Question 14

What are microtubules a major component of

Answer 14

cilia and flagellae
cilia = 9 MT doublets and 2 central MT
mitotic spindle

Question 15

What type of intermediate filaments do the following cells have: epithelia, mesenchymal, neurones. muscle cells

Answer 15

Epithelia - cytokeratins
Mesenchymal - vimentin
Neurones - neurofilament protein
muscle cells - desmin

Question 16

What is the function of intermediate filaments

Answer 16

Mechanical strength

Desmosome cell-cell adhesions are connected by IFs

Question 17

What are microfilaments a polymer of

Answer 17

actin

Question 18

What do microfilaments associate with

Answer 18

adhesion belts in epithelia

Question 19

What is the functions of microfilaments

Answer 19

cell shape and movement

Question 20

Give an example of an accessory protein to microfilaments

Answer 20

myosin

Question 21

What are the 5 main cell groups

Answer 21

Connective tissue cells
Contractive muscle
Haematopoietic cells
Neural cells
Epithelial cells

Question 22

What are tissues made up of

Answer 22

Cells, extracellular matrix and fluid

Question 23

What is the name of the cancers in the following tissues: epithelial, mesenchymal, haematopoietic, neural

Answer 23

Epithelial - carcinoma
Mesenchymal - Sarcomas
Haematopoietic - Leukaemias (marrow) or lymphomas (lymphocytes)
Neural - neurblastomas (neurones) or gliomas (glial)

Question 24

What is the ECM

Answer 24

Material deposited by cells to form the insoluble part of the extracellular environment. Fibrillar proteins embedded in a hydrated gel

Question 25

What is the function of cell-cell junctions

Answer 25

Formation and maintenance of epithelia

Question 26

What are the 2 forms of cell-cell junctions

Answer 26

Zonula (belts) or maculae (spots)

Question 27

Describe cell-cell junctions in epithelia

Answer 27

Arranged as an apical junction complex

Tight junctions, adhesion belts and desmosomes

Question 28

Describe zonula occludens

Answer 28

Tight junction - points on adjacent membranes
more networks = more seals
Blocks paracellular pathways
Prevents ion diffusion (polarity)

Question 29

Describe zonula adherens

Answer 29

forms before others
closely associated to actin cytoskeleton
cadherins bind to similar molecules on adjacent cells

Question 30

Describe desmosomes

Answer 30

Macula Adherens
Cluster of pores formed my membrane protein
Allows passage of ions/small molecules
Cadherin-like
Associated with intermediate filaments

Question 31

What are the epithelial classifications

Answer 31

Shape and layering

Question 32

Describe simple squamous epithelia

Answer 32

Single layer of cells with a flattened plate shape
Exchange
Alveoli, mesothelium, vessel endothelium

Question 33

Describe simple cuboidal epithelia

Answer 33

Single layer of cells with a cube shape (irregular)

Lining of the kidney collecting duct and other ducts

Question 34

Describe simple columnar epithelia

Answer 34

Single layer of cells that are pillar-shaped.

Enterocytes (absorptive intestinal) and absorptive and secretory epithelia

Question 35

Describe stratified squamous epithelia

Answer 35

Multiple layers of cells with a flattened plate shape

Question 36

Describe the two types of squamous epithelia

Answer 36

Keratinising - upper layer is dry due to hardening and death (epidermis)
Non-keratnising - upper surface is wet, cells are alive (mouth, oesophagus, anus, cervix, vagina)

Question 37

Describe pseudo stratified epithelia

Answer 37

“Falsely stratified”
Multiple layers of nuclei and surface cells have contact with the basal membrane
Airway epithelium, ducts, urinary and reproductive tracts

Question 38

Why is polarity of cells important

Answer 38

Produces directionality so that functions are unidirectional e.g. secretion, transport, absorption

Question 39

How is activity restricted to only some parts in transporting epithelia

Answer 39

ion pumps and channels are distributed unevenly

Question 40

What is the difference between paracellular and transcellular

Answer 40

para = between
trans = through

Question 41

What are kiss points

Answer 41

Focal connections

Question 42

Give an example of transporting epithelia

Answer 42

Mitochondrial membrane

Question 43

Give an example of absorptive epithelia

Answer 43

Intestinal epithelium (enterocytes)

Question 44

What are the two types of secretory epithelia and give examples

Answer 44

Exocrine (apical surface to duct or lumen) - goblet cells, acinar cells
Endocrine (apical surface to bloodstream) - islets of langerhans

Question 45

What can secretion be classified into

Answer 45

Constitutive - secretory vesicles move directly to the plasma membrane
Stimulated - secretory vesicles are stored in the cytoplasm and fuse on stimulation

Question 46

Give examples of the constitutive and stimulated secretory pathways

Answer 46

Constitutive - plasma protein production in hepatocytes

Stimulated - release of adrenaline from the adrenal medulla

Question 47

Why do protective epithelia usually form thick layers

Answer 47

Protect underlying tissue from physical and chemical insults (heat, cold solvents, abrasion etc.)

Question 48

Which cells are replaced every 3-10 days

Answer 48

Gut lining

Question 49

Which cells are replaced every 8-10 days

Answer 49

Heart muscle, fat tissue, bone

Question 50

What is the turnover rate of the epidermis

Answer 50

48 days

Question 51

Give an example of changes in steady turnover rate

Answer 51

cyclic production and loss of the endometrial epithelial lining of the uterus in the menstrual cycle
Increase in no. and size of epithelial glands in the breast

Question 52

Describe the turnover in intestinal villi

Answer 52

Cells migrate up the villus as cells are constantly lost from the tip. New cells are constantly produced by the crypt stem cells

Question 53

Describe turnover in the epidermis

Answer 53

Surface cells are constantly lost, but constantly replaced by new cells formed at the basal layer
As cells migrate up they flatten and keratinise

Question 54

How does pressure affect turnover in the epidermis

Answer 54

Increases the rate of proliferation of stem cells and the loss of cells decreases

Question 55

What does the ECM comprise of

Answer 55

Proteins and carbohydrates

Question 56

What are the functions of ECM

Answer 56

Physical support
Mechanical and physiochemical properties of the tissue
Influence growth, adhesion and differentiation status
Development, tissue function and organogenesis

Question 57

What are the components of ECM

Answer 57

Collagens - I, II, III, IV
Multi-adhesive glycoproteins - fibronectin, fibrinogen, laminins
Proteoglycans - aggrecan, version, decor, perlecan

Question 58

What proportion of protein mass does collagen make up

Answer 58

25%

Question 59

Give an example of how alignment of collagen relate to function

Answer 59

in skin, successive layers arrange at right angles to allow resistance to tensile force in all directions

Question 60

How many types of collagen are there in humans

Answer 60

28 types with 42 genes

Question 61

Describe the structure of collagen

Answer 61

3 𝛼 chains in a triple helix

Every 3rd amino acid is a glycine that occupies the interior as it is the only AA small enough

Question 62

Describe the biosynthesis of collagen

Answer 62

1. Synthesis on the RER
2. Ribosomes synthesise collagen polypeptides
3. Hydroxylation with lysine and proline
4. Glycosilation
5. 3 chains form the helix
6. Release from the cell via a vesicle

Question 63

What is the purpose of lysine and proline hydroxylation

Answer 63

interchain H-bond formation

Question 64

When is lysine and proline modified

Answer 64

Synthesis of collagen and in formation of cross-linkages after secretion

Question 65

What is the function of cross-linkages

Answer 65

Tensile strength and stability

Question 66

Describe type IV collagen

Answer 66

network-forming collagen
Present in all basement membranes
assembles into a sheet-like network

Question 67

Describe elastin

Answer 67

Important for elasticity e.g. skin, blood vessels, lungs

Core of elastin and surface microfibrils rich in fibrillin

Question 68

Why are collagen and elastic fibres interwoven

Answer 68

Limit the extent of stretching

Question 69

Give an example of a disorder relating to elastin

Answer 69

Marfan’s

Elastic fibres cannot function due to mutations in fibrillar 1

Question 70

What is a basement membrane

Answer 70

Flexible, thin mat of ECM underlying epithelial sheets and tubes.
Muscle, nerve, fat/

Question 71

Give an example of a disorder relating to the basement membrane

Answer 71

Alport syndrome
Mutations n gene for type IV collagen
Basal membrane is split and laminated - filtration issues and loss of kidney function

Question 72

Describe the structure of the basement membrane

Answer 72

Glycoprotein network associated with cells

Constituents - collagen IV and laminins

Question 73

Describe the structure of multi-adhesive glycoproteins

Answer 73

Large and modular

Multifunctionality due to multiple binding sites for matrix components and receptors

Question 74

Describe the structure of laminins

Answer 74

𝛼 chain, β chain, 𝛾 chain
Very large (160-400 AA) and multi-adhesive

Question 75

What is the function of laminins

Answer 75

Interacts with receptors such as integrins and dystroglycan

Self-associate with the basement membrane and other components (type IV collagen, proteoglycans)

Question 76

Give an example of a condition associated with laminins

Answer 76

Congenital muscular dystrophy
or
Epidermolysis bullose

Question 77

What occurs in congenital muscular dystrophy

Answer 77

Absence of 𝛼2 in laminin 2
Symptoms evident from birth
Hypotonia 
Weakness
Deformities of joints

Question 78

Describe fibronectin

Answer 78

A family of major connective tissue glycoproteins
Insoluble fibrillar matrices or soluble plasma protein
Derived from one gene where different forms arise from splicing or mRNA

Question 79

Describe the structure of fibronectin

Answer 79

Multi-adhesive
Large multi domain molecule
open hairpin shape/horeshoe 
Collagen, integrin and heparin binding sites 
50nm

Question 80

What is the function of fibronectin

Answer 80

Regulating cell adhesion and migration in embryogenesis and tissue repair
wound healing
continuum with actin

Question 81

What is a proteoglycan

Answer 81

Core protein with one or more glycosaminoglycan chains covalently attached

Question 82

What is a glycosaminoglycan chain

Answer 82

GAGs are long, unbranched sugars of repeating disaccharides

Question 83

Which property of GAGs contribute to function

Answer 83

Large volume to mass ratio and the hydrated gel can be very resistant to compression

Question 84

Give an example of a glycosaminoglycan chain

Answer 84

Perlecan
Aggrecan
Decorin
Syndecans

Question 85

Describe the structure of a GAG

Answer 85

1 of the 2 sugars is always amino sugar

sulphated or carboxylate -> highly -ve

Question 86

Describe hyaluronan

Answer 86

Long repeated disaccharide with NO core protein
Unsulphated
Synthesised at the cell surface

Question 87

Describe decorin

Answer 87

Small proteoglycan

Binds to collagen, essential for fibre formation

Question 88

What is the cartilage matrix composed of

Answer 88

Type II collagen fibrils embedded in a network of proteoglycans

Question 89

Describe hyaline cartilage

Answer 89

Abundant type of cartilage found in many places

Cushions ends of long bones

Question 90

What is hyaline cartilage rich in

Answer 90

Aggrecan

Question 91

Describe the structure of aggrecan

Answer 91

GAGs are highly sulphated and present in a no. of carboxyl groups
-ve charge (sodium attracted)
Feather like structure 
Chondroitin sulfate attachment largest
Keratan sulfate attachment
Hyaluronan binding region

Question 92

What is the function of aggrecan and how is structure related

Answer 92

Resistance of compressive forces

-ve charge helps retain water which is lost when compressed but then regained

Question 93

Give an example of a disease related to proteoglycans

Answer 93

osteoarthritis (aggrecan)

Question 94

Describe osteoarthritis

Answer 94

excessive loss of ECM so cushioning properties are lost

Cleavage of aggrecan by aggrecanase and metalloproteinase - loss to the synovial fluid

Question 95

Give an example of a fibrotic disorder

Answer 95

Liver cirrhosis

Excessive production of fibrous connective tissue

Question 96

What is the proportion of water in human adults

Answer 96

female = 55%
male = 60%

Question 97

What are the proportions of extracellular and intracellular fluids

Answer 97

intra = 55%
extra = 45%

Question 98

How much of fluids does blood plasma make up

Answer 98

7%

Question 99

How much of fluids does interstitial fluid make up

Answer 99

36%

Question 100

What are the main cation and anions extracellularly

Answer 100

sodium and chloride (+calcium)

Question 101

What are the main cation and anions intracellularly

Answer 101

Potassium and phosphate

Question 102

Is there more protein extracellularly or intracellularly

Answer 102

intracellularly

Question 103

Define diffusion

Answer 103

Spontaneous movement of solute down its concentration gradients until equilibrium is reached

Question 104

Define osmosis

Answer 104

Movement of water down its own concentration gradient toward the area of higher osmolarity

Question 105

Define osmolarity

Answer 105

Osmolarity is a measure of the concentration of all solute particles in a solution

Question 106

What is the osmolarity of CaCl2

Answer 106

3

Question 107

Define tonicity

Answer 107

The strength of a solution that takes into account cell permeability

Question 108

What makes up the university of Wisconsin solution

Answer 108

No sodium or chloride to prevent influx and swelling

extracellular impermeant solutes e.g. raffinose

Question 109

How do the following pass through the capillary wall: plasma proteins, lipid-soluble substances, small water-soluble substances, exchangeable proteins

Answer 109

plasma proteins = cannot cross
lipid-soluble substances = through the endothelium
small water-soluble substances = pores
Exchangeable proteins = vesicular transport

Question 110

What is solute and fluid movement across a vessel wall determined by

Answer 110

balance between osmotic pressure (plasma proteins) and hydrostatic pressure (blood)

Question 111

What is the name given to osmotic pressure due to plasma membranes

Answer 111

colloid osmotic pressure

Question 112

When does oedema occur

Answer 112

Leakage of plasma into the interstitial exceeds the capacity of the lympahtcis to collect and return it to the circulation so fluid accumulates

Question 113

Give an example of inflammatory oedema

Answer 113

insect bite causes vessels to become leaky

Question 114

How does hydrostatic oedema occur

Answer 114

high blood pressure

Question 115

How may breast cancer treatment cause oedema

Answer 115

Survivors are likely to have the axillary lymph nodes removed which removes the pathway of drainage

Question 116

Give an example of a disease that associated with oedema

Answer 116

Elephantiasis as parasitic worms block the lymph vessels to prevent lymphatic drainage