Epithelial Tissue - Histo Lec

Question 1

aggregates or groups of cells organized to perform one or more specific functions.

Answer 1

tissues

Question 2

Four basic types of tissues:

– covers body surfaces, lines body cavities and forms glands

Answer 2

Epithelium

Question 3

Four basic types of tissues:

underlies or supports the other three basic tissues, both structurally and functionally.

Answer 3

Connective

Question 4

Four basic types of tissues:

made up of contractile cells and is responsible for movement

Answer 4

Muscle

Question 5

Four basic types of tissues:
receives, transmits, and integrates information from outside and inside the body to control activities of the body.

Answer 5

Nerve

Question 6

Avascular tissues

Answer 6

epithelial tissue

Question 7

Covers body surfaces,

As receptors for the special senses

Answer 7

epithelial tissue

Question 8

lines body cavities,

Answer 8

epithelial tissue

Question 9

and constitutes glands;

Answer 9

epithelial tissue

Question 10

Sheet of cells lying close together

Answer 10

epithelial tissue

Question 11

Continuous sheet w/ little extracellular matrix

Answer 11

epithelial tissue

Question 12

Function of Epithelial Tissue

a. Diffusion of O2 and CO2 across the epithelial cells of lung alveoli and capillaries

Answer 12

Transcellular Transport

Question 13

Function of Epithelial Tissue

b. Carrier-protein mediated transport of amino acids

Answer 13

Transcellular Transport

Question 14

Function of Epithelial Tissue

c. Vesicle-mediated transport of IgA and other molecules

Answer 14

Transcellular Transport

Question 15

Function of Epithelial Tissue

Occurs via endocytosis and pinocytosis (columnar epithelium of the intestines and proximal convoluted tubules in the kidney)

Answer 15

Absorption

Question 16

Function of Epithelial Tissue

Occurs via exocytosis (different glands produce perspiration, oil, digestive enzymes and mucus)

Answer 16

Secretion

Question 17

Function of Epithelial Tissue

From abrasion and injury by the epithelial layer of the skin and gall bladder.

Answer 17

Protection

Question 18

Function of Epithelial Tissue

Lining of Kidney tubules filtering wastes from blood plasma

Answer 18

Filtration

Question 19

Structure of simple squamous

Answer 19

Single Layer of flattened cells

Question 20

Function of simple squamous

Answer 20

Absorption, and filtration

Not effective protection – single layer of cells

Question 21

Location of simple squamous

Answer 21

Walls of capillaries, air sacs in lungs
Form serous membranes in body cavity
Mesothelium (lining of peritoneum and pleura )
Endothelium (lining of blood vessels)

Question 22

Structure of simple cuboidal

Answer 22

Single layer of cube shaped cells

Question 23

Function of simple cuboidal

Answer 23

Secretion and transportation in glands, filtration in kidneys

Question 24

Location of simple cuboidal

Answer 24

Glands and ducts (pancreas & salivary), kidney tubules, covers ovaries

Question 25

Structure of simple columnar

Answer 25

Elongated layer of cells with nuclei at same level

Question 26

Function of simple columnar

Answer 26

Absorption, Protection & Secretion

Question 27

Special Features of simple columnar

Answer 27

Microvilli, finger-like projections of the apical surface, increase surface area for absorption
Goblet cells, single cell glands, produce protective mucus.

Question 28

Location of simple columnar

Answer 28

Linings of entire digestive tract, gall bladder, uterus, kidney tubules

Question 29

When open to body cavities, simple columnar are called ______

Answer 29

mucous membranes

Question 30

Structure of pseudostratified

Answer 30

Irregularly shaped cells with nuclei at different levels – appear stratified, but aren’t.
All cells reach basement membrane

Question 31

Function of pseudostratified

Answer 31

Absorption and Secretion

Question 32

Features of pseudostratified

Answer 32

Goblet cells produce mucus

Cilia – hair-like projections; move fluid over cell surface or confer cell motility (larger than microvilli)

Question 33

Location of pseudostratified

Answer 33

Respiratory Linings & Reproductive tract

Question 34

Structure of stratified squamous

Answer 34

Several layer of cells with :

a. flattened cells (upper layer); 
b. polyhedral cells (middle layer)
c. columnar cells (basal layer).

Question 35

Types of stratified squamous

Answer 35

Stratified squamous non-keratinizing – flattened surface cells retain their nuclei; found in vagina, esophagus and tongue.
Stratified squamous keratinizing – flattened surface cells lose their nuclei, form a layer of dead keratinized cells; found in the skin

Question 36

Also known as Urothelium

Answer 36

transitional epithelium

Question 37

Location of transitional epithelium

Answer 37

Renal pelvis, urinary bladder, ureters & proximal 1/3 of urethra.

Question 38

Function of transitional epithelium

Answer 38

Allows stretching (change size)

Question 39

Structure of transitional epithelium

Answer 39

Many layers
Superficially located umbrella-shaped cells; pyriform cells in the middle layer and columnar or polyhedral cells in the most basal layer.

Question 40

rare
cube-shaped
commonly cells make up two layers

protection of larger ducts: pancreas, salivary, and sweat glands 
mammary gland in the breast

Answer 40

STRATIFIED CUBOIDAL

Question 41

Basal cells are typically cuboidal with surface cells either columnar or cuboidal in appearance

Answer 41

STRATIFIED CUBOIDAL

Question 42

rare
secretion and protection

intestinal lining - ciliated to help move nutrients and increase absorption, also protects against pathogens/bacteria

Answer 42

STRATIFIED COLUMNAR

Question 43

often found between simple columnar epithelia and stratified squamous epithelia

Answer 43

STRATIFIED COLUMNAR

Question 44

found near salivary glands - cell lining protects the salivary duct, goblet cells found between the cells

Answer 44

STRATIFIED COLUMNAR

Question 45

found in vas deferens where it protects and aids in secretion of glands

Answer 45

STRATIFIED COLUMNAR

Question 46

also form layers in ocular conjunctiva and the linings of the pharynx, anus, uterus, urethra

Answer 46

STRATIFIED COLUMNAR

Question 47

Three principal characteristics of epithelial tissue

Answer 47

a. Closely apposed and adhere to one another by means of specific cell-to-cell adhesion molecules (cell junctions)
b. Functional and morphologic polarity: three morphologic domains

c. Basement membrane

Question 48

refers to the asymmetric organization of different aspects of the cell including the cell surface, intracellular organelles and the cytoskeleton

Answer 48

Polarity -

Question 49

Features of Apical Surface of Epithelium
Finger-like extensions of the plasma membrane of apical epithelial cell
Increase surface area for absorption

Answer 49

microvilli

Question 50

Features of Apical Surface of Epithelium

found in small intestine, kidney tubules

Answer 50

microvilli

Question 51

Features of Apical Surface of Epithelium

Does not conform to the function of cilia

Answer 51

Stereocilia

Question 52

Features of Apical Surface of Epithelium

Longer than microvilli but less motile

Answer 52

Stereocilia

Question 53

Features of Apical Surface of Epithelium

Does not conform to the function of cilia

Answer 53

Stereocilia

Question 54

location of Stereocilia

Answer 54

epididymis & ductus deferens

Question 55

Features of Apical Surface of Epithelium

(eg.) respiratory tubes
Whip-like/hair-like projections, motile extensions
Moves mucus, etc. over epithelial surface 1-way (moves mucus upward but not downward)

Answer 55

Cilia:

Question 56

Features of Apical Surface of Epithelium
(eg.) spermatozoa
Extra long cilia
Moves cell

Answer 56

Flagella:

Question 57

Contain specialized junctions that contain cell adhesion molecules (CAMs) and restrict movement of materials into and out of lamina.

Answer 57

THE LATERAL DOMAIN

Question 58

Membrane-associated structures that functions in cell-to-cell attachment of columnar epithelial cells.

Answer 58

JUNCTIONAL COMPLEX

Question 59

Three distinct components of junctional complex

Answer 59

1. Tight Junctions (zonula occludens)
2. Anchoring Junctions
   a. belt desmosomes, zonula adherens b. desmosome (macula adherens)

Question 60

Formed by the fusion of the outer leaflets of cell’s plasma membrane

ex . Active transport-Prevents back-diffusion of transported substances

Answer 60

Tight Junctions (zonula occludens)

Question 61

Junction for

Sealing off intercellular space

Answer 61

Tight Junctions (zonula occludens)

Question 62

Prevents digested macromolecules passing thru adjacent cells (impermeable barrier)

Answer 62

Tight Junctions (zonula occludens)

Question 63

Analogous to fascia occludens on adjacent endothelial cells lining capillaries

Answer 63

Tight Junctions (zonula occludens)

Question 64

Has 4 transmembrane – tightly attach cellular membrane

-aid in attachment

Answer 64

Tight Junctions (zonula occludens)

Question 65

Provides mechanical stability to group of epithelial cells

Answer 65

anchoring junctions

Question 66

Provide lateral adhesions between epithelial cells

Answer 66

anchoring junctions

Question 67

Cell Adhesion Molecules on both lateral and basal domain

Answer 67

anchoring junctions

Question 68

1. surrounds the entire perimeter of epithelial cells just basal to the tight junction

Answer 68

a. Zonula Adherens aka belt desmosomes

Question 69

2. contains adhesion molecule “E-cadherin”

Answer 69

a. Zonula Adherens aka belt desmosomes

Question 70

feature of Zonula Adherens aka belt desmosomes

mediates attachment of E-cadherin

Answer 70

Extracellular Accessory Link/Ion (Ca2+)

Question 71

feature of Zonula Adherens aka belt desmosomes

attached to the transmembrane link protein

Answer 71

Intracellular Link Protein

Question 72

Localized spot-like junction between epithelial cells

Each has intracellular plaque

Answer 72

Macula Adherens “desmosome”

Question 73

dense plaque of intercellular which consists of several link protein attachment proteins on cytoplasmic surface of each opposing cell.

Answer 73

desmoplakins

Question 74

loop into and out of the desmoplakins

Answer 74

Keratin –

Question 75

– transmembrane linker glycoproteins between adjacent cells mediates the attachment

Answer 75

Desmogleins and desmocollins

Question 76

Allows selective diffusion of molecules; cell-cell communication

Answer 76

Gap Junctions Communicating junctions or nexus

Question 77

Is not a part of the junctional complex

Answer 77

Gap Junctions Communicating junctions or nexus

Question 78

Has pores for substance passage

Answer 78

Gap Junctions Communicating junctions or nexus

Question 79

Common also in CNS, cardiac muscle, and smooth muscle pass signals involved in contraction from one cell to another

Answer 79

Gap Junctions Communicating junctions or nexus

Question 80

Plaque-like(circular patch)entity composed of channels called “Connexons”

Answer 80

Gap Junctions Communicating junctions or nexus

Question 81

– six cylindrical connexins around a central channel

Answer 81

Connexons

Question 82

alter conformation to shut off communication between cells

Answer 82

Connexins -

Question 83

visible only by E.M.

Answer 83

Basal Lamina

Question 84

Consists of Matrix protein: type IV collagen, laminin, entactin + perlacan, and proteoglycans

Answer 84

Basal Lamina

Question 85

composition of matrix protein of basal lamina

Answer 85

type IV collagen, laminin, entactin + perlacan, and proteoglycans

Question 86

two zones of Basal Lamina

lies next to the plasma membrane

Answer 86

1. lamina lucida (lamina rara) –

Question 87

two zones of Basal Lamina

lies adjacent to the reticular lamina of deeper C.T.

Answer 87

2. lamina densa –

Question 88

Basal lamina + reticular lamina

Answer 88

Basement membrane

Question 89

Attachment of epithelial cells to underlying support tissue

Answer 89

Basement membrane

Question 90

Mediate adhesion of Epithelial cells to the underlying extracellular matrix

Answer 90

B. Hemidesmosomes

Question 91

Found in basal surface of basal cells (tracheal epithelium and stratified squamous).

Answer 91

B. Hemidesmosomes

Question 92

Dense cytoplasmic plaque linked via integrins to laminins in the basal lamina

Answer 92

B. Hemidesmosomes

Question 93

Type VII collagen from the basal lamina extend deeper into the underlying connective tissue and insert into plaques of type IV collagen.

Answer 93

B. Hemidesmosomes

Question 94

“Cell-to-Extracellular Matrix Junctions”

Answer 94

B. Hemidesmosomes