1. Chapter 4 Tissue Level of Organization

2. Tissues are…
Groups of similar cells and extracellular products that carry out a common function
providing protection
facilitating body movement
Study of tissues is histology

3. 4 primary types of tissues in the body
epithelial
connective
muscle
nervous
today
later, dude

4. Epithelial Tissue
Epithelial tissue covers or lines every body surface and body cavity
Epithelium is composed of one or more layers of closely packed cells between two compartments

5. Characteristics of Epithelial Tissue
Cellularity: composed almost entirely of cells (with some extracellular matrix and sometimes other structures)

6. Characteristics of Epithelial Tissue
Apical (free) surface
Epithelium
Lateral surface
Basement membrane
Polarity: has specific top and bottom
apical surface exposed to external environment or internal body space, and
basal surface attached to underlying connective tissue, plus
lateral surfaces connected by intercellular junctions
Basal surface
Connective tissue
Blood vessel
(a) Epithelium–connective tissue junction

7. Characteristics of Epithelial Tissue
Attachment: basal surface bound to basement membrane
Avascularity: no blood vessels; receive nutrients across apical surface or by diffusion
Innervation: lots of nerve endings
High regeneration capacity: epithelial cells are frequently damaged or lost to abrasion, so they are replaced quickly

8. Functions of Epithelial Tissue
Physical protection: protect exposed and internal surfaces from dehydration, abrasion, destruction
Selective permeability: act as gatekeepers to let some substances in and keep others out
Sensation: sense changes in the environment
Some also do secretion: contain glands that release sweat, scents, hormones, etc.

9. Specialized structures of Epithelial Tissue
Epithelium
Basement membrane
Basement layer is extracellular layer between epithelium and connective tissue
often visible with microscope
Basal surface
Connective tissue
(a) Epithelium–connective tissue junction

10. Specialized structures of Epithelial Tissue
Fig. 4.1
Specialized structures of Epithelial Tissue
In some epithelial tissue, basal cells anchored to basement membrane with junctions called hemidesmosomes
Hemidesmosome

11. Intercellular Junctions
Fig. 4.1
Intercellular Junctions
Junctions between cells in epithelium
Tight junctions anchor cells to each other
prevents substances from passing between cells
materials must move through cells, or are blocked from moving past cells
found in intestinal lining
Tight junction

12. Intercellular Junctions
Fig. 4.1
Intercellular Junctions
Adhering junctions often deep to tight junctions
Form all the way around a cell
Support apical surface
Allows passage between cells below apical surface
Adhering junction

13. Cell-Cell Attachment Desmosomes attach cells to each other
Bind epithelium together
Bind muscle cells
Resist shear forces

14. Cell-Cell Communicating Attachment2
Cell 1
Cytosol
Channel proteins
Intercellular space
Gap junctions tunnel between two plasma membranes
Found in muscles
Enables sharing of ions and proteins
Enables fast communication between cells
Cell membrane
Gap junctions are
communicating junctions.
Clusters of gap
junctions
Freeze fracture of cell membrane

15. Classifications of Epithelial Tissue
Apical surface
Lateral surface
Basement membrane
Basal surface
Number of cell layers
simple = one cell layer thick
stratified = >2 cell layers thick
Simple epithelium
Apical surface
Lateral surface
Basement membrane
Basal surface
Stratified epithelium

16. Classifications of Epithelial Tissue
Nucleus
Squamous cell
Nucleus
Cell shape
squamous = flattened
cuboidal = basically cube-shaped or roundish
columnar = long and thin (like a column)
Cuboidal cell
Nucleus
Columnar cell

17. Simple squamous epithelium Simple cuboidal epithelium
Table 4.3a-1
LM 400x
Simple squamous cell
Amnion
Kidney tubules
Simple cuboidal cell
LM 1000x
Simple squamous epithelium
Simple cuboidal epithelium

18. Table 4.3b-2 Cilia Nonciliated simple Simple columnar columnar cell
LM 100x
Uterine tube
Simple columnar
epithelial cell
LM 400x
Mucosa of small intestine
Nonciliated simple
columnar cell
Nonciliated simple columnar epithelium
Ciliated simple columnar epithelium

19. Table 4.4a-1 Vagina Epidermis of skin Squamous epithelial cell
Nonkeratinized stratified
squamous epithelium
LM 125x
LM 100x
Epidermis of skin
Keratinized stratified
squamous epithelial cells
Living stratified

20. Table 4.4b-1 Male urethra Duct of sweat gland Columnar cell
LM100x
Columnar cell
Cuboidal cell
Stratified cuboidal
epithelium
Stratified columnar epithelium

21. Table 4.5a
Nasal cavity lining
Pseudostratified columnar epithelium looks stratified, but is actually one layer of cells
all cells in contact with basement membrane
stratified look because nuclei are at different levels in cells
may be ciliated or nonciliated
Cilia
Pseudostratified ciliated columnar epithelium
Columnar cell
Basal cell

22. Transitional epithelium is made of cells that can stretch
Table 4.5b
Transitional epithelium is made of cells that can stretch
cells look cuboidal when relaxed; look squamous when stretched
found in lining of urinary bladder
Urinary bladder lining
Binucleated
epithelial cell
Transitional
epithelium
(relaxed)

23. Connective tissue Supports, protects, and binds organs
Includes tendons and ligaments, body fat, cartilage, skeleton, blood

24. Connective tissue Contains
specific types of cells
protein fibers
ground substance
nonliving material of protein and carbohydrate molecules
Each type of connective tissue has a specific function
Develops from mesenchyme
type of stem cell from which all other connective tissues arise
first arises in developing embryo
form extracellular matrix (stuff outside and around cells, produced by cells)

25. Ground substance Elastic fibers Extracellular matrix Collagen fibers
Fig. 4.7
Ground
substance
Elastic fibers
Extracellular
matrix
Collagen fibers
Protein
fibers
Reticular fibers
Mesenchymal cell
Blood vessel
Macrophage
Adipocyte (fat cell)
Fibroblast

26. Loose connective tissue
Fewer cells and protein fibers than dense connective tissue
protein fibers loosely connected

27. Areolar connective tissue
Table 4.9a-1
Papillary layer of dermis
Provides cushioning to overlying tissues
Fibroblasts are most visible cells
cells with tapered ends
produce fibers and ground substance
Has collagen fibers
fibers of protein collagen
strong, flexible, resistant to stretching
Has elastic fibers
fibers of protein elastin (thinner than collagen)
stretch and recoil easily
Elastic fiber
Fibroblast
Collagen fiber
Ground substance
LM 240x

28. Adipose connective tissue
Table 4.9a-2
Adipose connective tissue
Subcutaneous layer
(hypodermis)
AKA “fat”
contains large cells filled with a droplet of lipid
nucleus pushed to the side
cushions structures from shocks
acts as insulation
storage of energy for the body
adipocytes can’t divide, but mesenchyme can make more if needed
Adipocyte
Blood vessel
Adipocyte
nucleus
LM 250x
LM 200x

29. Dense connective tissue
Primarily protein fibers
lots of collagen fibers
Less ground substance than loose connective tissue
3 types:
dense regular
tendons
dense irregular
reticular layer of dermis
elastic
wall of aorta

30. Dense, regular connective tissue
Table 4.10a-1
Dense, regular connective tissue
Tendon
Found in tendons and ligaments
Collagen fibers packed tightly, arranged in parallel to force applied
Few blood vessels
Ground substance
Collagen fibers
Fibroblast nucleus
LM 250x

31. Dense, irregular connective tissue
Table 4.10a-2
Reticular layer
of dermis
Collagen fibers arranged in clumps and bunches
scattered throughout tissue
Withstands stress in all directions
Found around cartilage and bone
Forms capsule around some internal organs
Collagen fiber bundles
Fibroblast nucleus
Ground substance
LM 200x

32. Elastic connective tissue
Table 4.10b-1
Aorta wall
Elastic connective tissue
Ground substance
Branching elastic fibers
provide resilience and ability to return to shape after being deformed
Lots of fibroblasts
Collagen fibers packed close
Fibroblast nucleus
Elastic fibers