Histology of Epithelial Tissue

Question 1

Epithelial tissue is composed of aggregates of _ that are tightly connected by different types of intercellular junctions; these aggregates rest on a supportive structure called the _

Answer 1

Epithelial tissue is composed of aggregates of epithelial cells that are tightly connected by different types of intercellular junctions; these aggregates rest on a supportive structure called the basement membrane

Question 2

_ is epithelial tissue that lines the blood vessels

Answer 2

Endothelium is epithelial tissue that lines the blood vessels

Question 3

Aggregates of epithelial cells rest on a supportive structure called the _ ; this separates them from an underlying layer of loose connective tissue that contains blood vessels

Answer 3

Aggregates of epithelial cells rest on a supportive structure called the basement membrane ; this separates them from an underlying layer of loose connective tissue that contains blood vessels

Question 4

Where do epithelia get their oxygen, nutrients, and signaling molecules from?

Answer 4

Epithelia are avascular, so the blood vessels in the underlying connective tissue are their source of oxygen, nutrients, signaling molecules, and other proteins
* Must pass through connective tissue and across the basement membrane

Question 5

Epithelial tissue can either be organized into layers that line or cover surfaces (like skin) or into _ that specialize in secreting different products into the body or external environment

Answer 5

Epithelial tissue can either be organized into layers that line or cover surfaces (like skin) or into glands that specialize in secreting different products into the body or external environment

Question 6

The underlying connective layer in most of our internal organ system is called _

Answer 6

The underlying connective layer in most of our internal organ system is called lamina propria

Question 7

The underlying connective layer in the skin is called the _

Answer 7

The underlying connective layer in the skin is called the dermis

Question 8

The (apical/ basolateral) side of the polar epithelial cell faces away from the basement membrane

Answer 8

The apical membrane side of the polar epithelial cell faces away from the basement membrane

Question 9

The _ is the bottom-most layer or floor of the epithelial tissue

Answer 9

The basement membrane is the bottom-most layer or floor of the epithelial tissue

Question 10

The basement membrane is composed of the _ and the _

Answer 10

The basement membrane is composed of the basal lamina and the reticular lamina

Question 11

The basal lamina has two zones: _ and _

Answer 11

The basal lamina has two zones: lamina lucida and lamina densa

Question 12

The lamina _ has specialized glycoproteins called laminins

Answer 12

The lamina lucida has specialized glycoproteins called laminins
* This layer is right next to the epithelial cells’ plasma membrane
* Laminins bind to hemidesmosomes and also help guide development, maintain structural architecture, aid in wound development and invasion of cancer cells

Question 13

The lamina _ contains type IV collagen

Answer 13

The lamina densa sits beneath the lamina lucida and contains type IV collagen (plus various glycoproteins and proteoglycans)

Question 14

The layers of the basement membrane are _ , _ , _ (superficial to deep)

Answer 14

The layers of the basement membrane are:
Lamina lucida (superficial)
Lamina densa (middle)
Reticular lamina (deep)

The reticular lamina is beneath the basal lamina and is derived from connective tissue

Question 15

_ epithelial cells are a single layer of columnar cells that all rest on the basal lamina but falsely appear to be stratified

Answer 15

Pseuodostratified epithelial cells are a single layer of columnar cells that all rest on the basal lamina but falsely appear to be stratified

Question 16

There is a special type of stratified epithelium called _ that is seen in tissues that need to stretch, like the bladder, or parts of the urinary tract

Answer 16

There is a special type of stratified epithelium called transitional epithelium that is seen in tissues that need to stretch, like the bladder, or parts of the urinary tract
* Cells in the lowest layer are cuboidal or columnar
* Cells in the upper layer vary in appearance (cuboidal without stretch, squamous when stretched)

Question 17

Answer 17

Question 18

Answer 18

Question 19

Answer 19

Question 20

Answer 20

Question 21

Answer 21

Simple columnar epithelium in the rectum (still part of absorptive intestine) are important in transporting water

Anus is part of the outside world so it has tough stratified squamous epithelia

Question 22

Answer 22

Question 23

_ are tightly spaced finger-like extensions of cells that are commonly found in the renal tubules and GI tract because they increase the cell’s surface area and aid in absorption and secretion

Answer 23

Microvilli are tightly spaced finger-like extensions of cells that are commonly found in the renal tubules and GI tract because they increase the cell’s surface area and aid in absorption and secretion
* Epithelial cells with microvilli are sometimes said to have a brush boarder

Question 24

The microvilli contain a core of actin filaments that are cross-linked by a protein called _

Answer 24

The microvilli contain a core of actin filaments that are cross-linked by a protein called villin

Question 25

Answer 25

Question 26

_ are thin, highly motile extensions of the apical membranes on some columnar and pseudostratified epithelial cells ; they are commonly found in the respiratory tract and fallopian tube

Answer 26

Cilia are thin, highly motile extensions of the apical membranes on some columnar and pseudostratified epithelial cells ; they are commonly found in the respiratory tract and fallopian tube

Question 27

Answer 27

Question 28

Each cilium has a specific structure of nine pairs of peripheral microtubules that surround two central microtubules, called _

Answer 28

Each cilium has a specific structure of nine pairs of peripheral microtubules that surround two central microtubules, called an axoneme

Question 29

_ proteins are the molecular motors of cilia

Answer 29

Dynein proteins are the molecular motors of cilia

Question 30

What is the purpose of cilia in the respiratory tract? In the fallopian tube?

Answer 30

Respiratory tract cilia help to remove inhaled particles from the environment

Fallopian tube cilia help guide the egg from ovary to uterus and help sperm get to the epididymis for maturation

Question 31

Immotile cilia syndrome (Kartagener syndrome)

Answer 31

Immobile cilia syndrome is an autosomal recessive disorder that causes a defect in cilia
* The cilia’s axonemes lack dynein
* Associated with sterility, infertility, lower respiratory tract infections

Question 32

Stereocilia are not actual cilia; instead they are _ and are found in only a few places such as _ and _

Answer 32

Stereocilia are not actual cilia; instead they are unique, long microvilli specialized for absorption and are found in only a few places such as male reproductive tract and sensory components of the inner ear

Question 33

Epithelial cells can also form glands which are _

Answer 33

Epithelial cells can also form glands which are collections of cells that release substances into the body or the external environment
* Can either be endocrine or exocrine

Question 34

Endocrine glands secrete their products to _

Answer 34

Endocrine glands secrete their products into space around the cells from which nearby blood vessels take up the hormones to circulate throughout the bloodstream
* Endocrine = into blood stream = to target tissues

Question 35

Exocrine glands secrete their product onto _

Answer 35

Exocrine glands secrete their product onto epithelial surfaces such as onto the skin or into the GI tract

Question 36

(True/False) Exocrine glands are secreting hormones

Answer 36

False; exocrine glands are not secreting hormones
* We cannot call their products hormones because they are not circulating in the bloodstream

Question 37

Name some exocrine gland examples

Answer 37

• Mammary glands
• Sweat glands
• Secretory glands of the stomach and pancreas for digestion

Question 38

How do we classify exocrine glands?

Answer 38

Exocrine glands can be:
* Unicellular or multicellular
* Serous, Mucous, or Mixed seromucous
* Eccrine, Apocrine, Holocrine

Question 39

Unicellular exocrine glands are commonly called _ cells; they secrete their product via _

Answer 39

Unicellular exocrine glands are commonly called goblet cells; they secrete their product via exocytosis
* They are found interspersed within the columnar cells lining the intestinal and respiratory tracts

Question 40

How do multicellular exocrine glands make and release their product?

Answer 40

Multicellular exocrine glands make their product in a multicellular secretory unit and then transport the secretion through a duct –> release it to the epithelial surface
* Ex: sweat glands, mammary glands

Question 41

Serous glands release a _ kind of substance

Answer 41

Serous glands release a watery, proteinaceous kind of substance
* Often contains enzymes
* Ex: chief cells of the stomach that secrete digestive enzymes in the stomach

Question 42

Mucous glands secrete a _ kind of substance

Answer 42

Mucous glands secrete a viscous, slippery kind of substance (aka mucus)
* It is good at lubricating
* Ex: esophageal glands

Question 43

Mixed seromucous glands secrete both _ and _

Answer 43

Mixed seromucous glands secrete both proteins and mucus
* This includes most salivary glands because saliva contains enzymes + mucus

Question 44

Eccrine glands secrete via _

Answer 44

Eccrine glands secrete via exocytosis only
* Product is packaged into vesicles –> transported to the cell surface –> fuse to cell membrane –> release into duct

Question 45

Examples of eccrine glands

Answer 45

Examples of eccrine glands: salivary glands and eccrine sweat glands

Question 46

Aprocrine glands secrete via _

Answer 46

Apocrine glands secrete “A Piece”; they secrete their product along with a piece of the apical cell cytoplasm

Question 47

Examples of apocrine glands

Answer 47

Mammary glands, apocrine sweat glands of the armpit

Question 48

Holocrine glands secrete via _

Answer 48

Holocrine glands secrete the Hole thing; they first accumulate their secretions and then the cell dies and becomes part of the secretion

Question 49

Examples of holocrine glands

Answer 49

Sebaceous glands in the skin are examples of holocrine glands

Question 50

Sweat glands in the armpit are known as _ sweat glands; sweat glands on the skin are _ sweat glands

Answer 50

Armpit: apocrine
Skin: eccrine

Question 51

Apocrine glands function to _

Answer 51

Apocrine sweat glands function to release pheromones (sexual attraction)

Question 52

Eccrine sweat glands function to _

Answer 52

Eccrine sweat glands function to cool the body

Question 53

Sebaceous glands are found on the _ and they secrete _

Answer 53

Sebaceous glands are found on the skin and they secrete sebum which functions to lubricate and waterproof the skin

Question 54

Binding of epithelial cells is done by _ ; allows for formation of sheets and glands

Answer 54

Binding of epithelial cells is done by desmosomes ; allows for formation of sheets and glands
* There are two types: belt and spot desmosomes

Question 55

The scientific name for belt desmosomes is _

Answer 55

The scientific name for belt desmosomes is zonulae adherens or adherens junctions

Question 56

The scientific name for spot desmosomes is _

Answer 56

The scientific name for spot desmosomes is maculae adherens

Question 57

_ wrap around cells like a belt and connect epithelial cells together; example: they anchor to actin filaments inside the cells

Answer 57

Belt desmosomes wrap around cells like a belt and connect epithelial cells together; example: they anchor to actin filaments inside the cells

Question 58

Belt desmosomes are helpful in resisting _ forces; like would happen when food moves down the GIT

Answer 58

Belt desmosomes are helpful in resisting shearing forces; like would happen when food moves down the GIT

Question 59

The bridges formed by belt desmosomes are formed by _ proteins

Answer 59

The bridges formed by belt desmosomes are formed by cadherin proteins

Question 60

_ are small, disk-shaped, adhesive plaques that are anchored to intermediate filaments in epithelial cells

Answer 60

Spot desmosomes are small, disk-shaped, adhesive plaques that are anchored to intermediate filaments in epithelial cells

Question 61

Spot desmosomes are commonly found in regions like _

Answer 61

Spot desmosomes are commonly found in regions like the bladder where tissue needs strength
* They are strong intercellular binders
* These bridges are also formed by cadherin proteins like desmoglein and desmocollin

Question 62

_ is a rare blistering skin disease in which antibodies form agains the protein desmoglein and disrupts spot desmosomes

Answer 62

Pemphigus vulgaris is a rare blistering skin disease in which antibodies form agains the protein desmoglein and disrupts spot desmosomes

Question 63

Hemidesmosomes provide the attachment between _ and _

Answer 63

Hemidesmosomes provide the attachment between epithelial cells and basement membrane

Question 64

Hemidesmosomes contain proteins called _ that extend from the base of the hemidesmosome into the lamina lucida

Answer 64

Hemidesmosomes contain proteins called integrins that extend from the base of the hemidesmosome into the lamina lucida where they connect with laminin

Question 65

_ is a rare autoimmune disease that is caused by autoantibodies binding to a component of the hemidesmosomes

Answer 65

Bullous pemphigoid is a rare autoimmune disease that is caused by autoantibodies binding to a component of the hemidesmosomes –> leads to poor attachment of epithelial cells to the basement membrane –> blistering

Question 66

Gap junctions are essential to cell communication; they have a unique hexagonal array of proteins called _ that form a cylindrical _

Answer 66

Gap junctions are essential to cell communication; they have a unique hexagonal array of proteins called connexins that form a cylindrical connexon

Question 67

What would happen if we did not have tight junctions?

Answer 67

Without tight junctions we might see molecules leaking passively and randomly between the epithelial cells; tight junctions are meant to seal in the neighbor cells’ plasma membrane to one another and prevent large molecules from passing through the intercellular space

Question 68

Tight junctions have special transmembrane proteins called _ and _

Answer 68

Tight junctions have special transmembrane proteins called claudins and occludins which are anchored to the cell’s actin cytoskeleton by zona occluden proteins