Week 5 Downing - Histology Methods, Epithelium, CT Proper

Question 1

Light Microscope

Answer 1

A.K.A. Bright Field

-routine laboratory microscope used for studying tissue sections

Question 2

Transmission Electron Microscope (TEM)

Answer 2

Used to study cytology or internal structures of cells

(study of electron micrographs)

Question 3

Scanning Electron Microscope (SEM)

Answer 3

Used to study the surface features of cells and tissues

(obtain a 3-dimensional picture of the tissue)

Question 4

Polarizing Microscope

Answer 4

Permits one to determine whether biological materials have different refractive indices along different optical axes.

Question 5

Phase Microscope

Answer 5

Used to study living tissue.

(works on a principal of different refractive indices of cellular and sub-cellular components)

Question 6

Interference Microscope

Answer 6

A modification of the phase microscope used for the study of living tissue.

Question 7

Fluorescence Microscope

Answer 7

Used to examine the presence of fluorescent material in tissue sections.

(Uses UV light as the light source)

Question 8

Confocal Scanning Microscope

Answer 8

Used to optically section a cell and with the appropriate computer equipment can reconstruct a

3-D image of the cell.

(uses a layer energy beam)

Question 9

What are the 6 steps in preparing tissues for bright field microscopy?

Answer 9

1. Fixation (stabilize tissue structure)
2. Dehydration (remove water, make miscible)
3. Clearing (replace alcohol with agent miscible to paraffin)
4. Infiltration & Embedding (replace clearing agent with embedding material)
5. Sectioning (cut tissue into thin sections)
6. Staining (add color)

Question 10

How can frozen histological sections be useful?

Answer 10

• pathology examination
• localization of enzymes
• analyze tissue sample

Question 11

What are 6 common artifact in tissue slides?

Answer 11

1. Post-mortem degeneration
2. Shrinkage
3. Precipitates (bad formalin)
4. Wrinkles & Folds
5. Nick in the microtome knife (results in tearing or scraping of tissue when cutting)
6. Mishandling (pinching of tissue)

Question 12

What is an acidic dye?

Answer 12

Capable of forming a salt linkage with a positively charged tissue group.

(dye molecule is negatively charged - anionic)

Question 13

What is a basic dye?

Answer 13

A positively charged (cationic) and hence forms a salt with a negatively charged tissue group.

Question 14

What is an H stain?

Answer 14

Hematoxylin (blue → purple)

basic stain

Question 15

What is an H stain used for?

Answer 15

To stain basophilic substances.

• DNA
  
  • chroms
  • heterochromatin
• RNA
  
  • nucleolus
  • cytoplasmic ribosomes

Question 16

What are basophilic tissues?

Answer 16

Structures in the cell or tissue that love basic stains.

(e.g. nucleus)

Question 17

What is an E stain?

Answer 17

Eosin (red → pink)

acid stain

Question 18

What is an E stain used for?

Answer 18

Acidophilic substances (eosinophilic substances)

• Proteins
• Cations associated with side chains

Question 19

What are acidophilic tissues?

Answer 19

Structures in the cell or tissue that love acid stains.

(a.k.a. eosinophilic substances)

Question 20

When is Trichrome stain used?

Answer 20

Stain for connective tissue (collagen) rather than cells.

(e.g. Masson’s, Mallory’s)

Question 21

When is Elastic stain used?

Answer 21

When staining for elastic fibers or elastic tissue in connective tissue.

(e.g. aldehyde fuchsin, orcein, resorcin-fuchsin)

Question 22

When are Silver stains used?

Answer 22

When staining for reticular fibers in connective tissue.

Also for staining cells of the CNS.

(connective tissue fibers love silver and stain black - argyrophilic)

Question 23

When are Fat stains used?

Answer 23

Oil red O - stains fats red

Sudan black - stains fats black

*soluble in both alcohol & fats

Question 24

What is used to stain nucleic acid (DNA & RNA)?

Answer 24

Feulgen staining reaction for DNA

Question 25

What is used for staining carbohydrates?

Answer 25

Periodic acid-Schiff reaction (PAS)

Question 26

What does Immunocytochemistry allow?

Answer 26

Permits the cellular or intracellular localization of specific proteins.

Question 27

Why are red blood cells useful in determining approximate magnifications of tissue images?

Answer 27

They are about 7um (micrometer) thick.

Can be used as a reference size.

Question 28

What is the basic mechanism of the Periodic acid-Schiff reaction (PAS)?

Answer 28

• Oxidizes diols in sugars → creates two aldehydes
  
  • aldehydes react with Schiff’s agent

​

*Used to detect carbs (polysaccharides, glycogen)

Question 29

What is the basic mechanism of the Feulgen staining reaction?

Answer 29

• HCl removes purine bases from DNA
  
  • unmasks free aldehyde groups
  • free aldehyde groups react with Schiff’s reagent
    
    • purple stained DNA!!!

(does not work on RNA)

Question 30

What are the four major types of tissues in the body?

Answer 30

1. Epithelium tissue
2. Connective tissue
3. Nervous tissue
4. Muscle tissue

Question 31

What are the four general characteristics of Epithelia?

Answer 31

1. Sheets or layers of cells in close apposition
2. Cover surfaces/line cavities
3. Very little intercellular material (epithelium = highly cellular tissue)
4. Always in contact with a basal lamina

Question 32

What germ layers give rise to Epithelia?

Answer 32

ALL THREE!

(ectodoerm, mesoderm, & endoderm)

Question 33

What are tight junctions?

Answer 33

• Zonula occludens
  
  • apical domain
  • cadherin
  • freeze fracture technique: pattern of ridges

Question 34

What are integrins? What is one example?

Answer 34

Mediate cell-extracellular matrix interactions.

ex. Hemidesmosomes

Question 35

What are cadherins? What are some examples?

Answer 35

Mediate cell-cell interaction.

ex. Zonula occludens, Zonula adherens, Macula adherens

Question 36

What are belt desmosomes?

Answer 36

• Zonula adherens
  
  • belt of adhesion
  • cadherin
  • not as close as tight junctions
  • cytoplasmic domains interact with actin microfilaments via linker proteins

Question 37

What are spot desmosomes?

Answer 37

• Macula adherens (desmosomes)
  
  • form spot-like “welds” between adjacent epithelial cells
  • cadherin
  • transmembrane proteins
    
    • desmogleins & desmocollins
  • desmoplakins
    
    • dense plaque
    • interacts with intermediat filaments

Question 38

What are hemidesmosomes?

Answer 38

• looks like half of a desmosome
• forms between cell membrane of a basal epithelial cell and the adjacent basal lamina
• integrin
• cytoplasmic domains interact with intermediate filaments via linker proteins
• extracellular domains interact with laminin found in the basal lamina

Question 39

What are gap junctions?

Answer 39

• Nexus
  
  • 6 transmembrane protein subunits form connexin
  • line up with opposite and identical structure in an adjacent cell
    
    • create channel pore that connects the cytoplasm of the two adjacent cells

Question 40

What are the two components of the basement membrane?

Answer 40

• Basal lamina
  
  • lamina lucida
  • lamina densa
  • lamina reticularis
• Hemidesmosomes

Question 41

What does the first part of the basal lamina, the lamina lucida, do?

Answer 41

• electron lucent portion of basement membrane
• rich in glycoproteins, laminin, and entactin
• binds to integrins

Question 42

What does the second part of the basal lamina, the lamina densa, do?

Answer 42

• dense meshwork of type IV collagen
  
  • sandwiched by the proteoglycan perlacan containing heparan sulfate side chains
• tightly anchored to reticular lamina
  
  • by fibronectin

Question 43

What does the third part of the basal lamina, the lamina reticularis, do?

Answer 43

• forms interface between the basal lamina and underlying connective tissue

Question 44

What is the structure and function of microvilli?

Answer 44

• microscopic projections above free surface
• covered with cell membrane
• core of microfilaments
• form “brush border”
• increase surface area of cell

Question 45

What is the structure and function of stereocilia?

Answer 45

• unusually long microvilli appearing
• apical ends twist together
• non-motile
• increase absorptive surface of cells

Question 46

What is the structure and function of cilia?

Answer 46

• motile processes that extend from the apical surface of the cell
• shaft covered with plasma membrane
• arise from basal bodies
• axoneme: internal/core structure
  
  • two single, central microtubules
  • nine peripheral pares of fused double microtubules
    
    • A-tubule (complete) + B-tubule (incomplete)
    • doublets connected by nexin link
    • dynein walks toward minus (-) end of doublet

Question 47

What is the structure and function of flagella?

Answer 47

• same axial structure as cilia
• much longer than cilia
• beat is more random, whip-like motion

Question 48

Epithelioid

Answer 48

term for an epithelium-like appearance of non-epithelial cells

Question 49

Metaplasia

Answer 49

An abnormal change from one distinctive kind of cell to another at a definite site after development is over.

Question 50

Neoplasia

Answer 50

An abnormal change from on distinctive kind of cell to a tumor cell.

ex. carcinoma: a malignant neoplasm of epithelial origin

• benign
• metastatic

Question 51

Hyperplasia

Answer 51

An increase in the number of cells in a tissue or organ, excluding tumor formation.

Increases the bulk of the part or organ.

Question 52

Hypertrophy

Answer 52

Overgrowth or general increase in bulk of a part or organ.

Question 53

Anaplasia

Answer 53

Loss of structural differentiation.

Particularly prevalent in malignant neoplasms.

Question 54

What is the embryological origin of connective tissue?

Answer 54

Mesoderm!

Question 55

What are the physical characteristics of collagen?

Answer 55

Microfibril x3 → Fibril x3 → Fiber → Aggregate to form Bundle

• flexible
• non-extensible (inelastic)
• forms gelatin when placed in boiling water

Question 56

What is the chemical composition of collagen fibers?

Answer 56

• polymerization of tropocollagen molecules into fibrils
  
  • three chains of polypeptides (280nm long)
  • triple helix

Question 57

What is the chemical composition of amorphous intercellular substance (ground substance)?

Answer 57

1. water
2. glycosaminoglycans
3. proteoglycans
4. structural multi-adhesive glycoproteins (fibronectin, laminin)

Question 58

What is the function of ground substance?

Answer 58

• efficient space filler
• permits passages of gases, ions, and small particles
• helps to immobilize larger objects (e.g. bacteria)