Skin structure and function 1-3

Question 1

What are the 3 main layers of the skin

Answer 1

• epidermis
• dermis
• subcutis

Question 2

what is a keratonocyte? describe its function

Answer 2

the building block of the skin (over 90% of skin cells)
- provide the principle protection of the skin
- form intermediat efilaments to provide mechanical support
- like cell’s nuclear membrane to the plasma membrane at desmosomes
- anchored together by desmosomes that fit together like a zipper so they cant float apart (also provide intercellular signal)
- anchored to the dermis by hemidesmosomes (link between keratin intermediate filaments and interstitial collagen in the dermis
- large cells of epithelial origin with complex internal cytoskeletons
- immunologically active (produce extracellular lipids

Question 3

what 3 things do karatinocytes need to be able to do to functionally create protective skin

Answer 3

• strength
• attachment to eachother
• attachment to the underlying dermis (otherwise will peel off)

Question 4

how do epidermal cells get nutrients

Answer 4

diffusion from dermal vessels etc.

Question 5

Label

Answer 5

Question 6

name the layers of the epidermis

Answer 6

• stratum corneum
• stratum granulosum
• spinous spinosum
• stratum basale

Question 7

Discuss features of the stratum basale

Answer 7

• single layer of cuboidal cells (both proliferative and anchoring)
• have a structural role (attaching to the dermis via hemidesmosomes and keratinocyte to keratinocyte via desmosomes)
• proliferative cells are mitotically active to produce daughter cells)
• influenced by growth factors and hormones (epidermal growth factor, insulin like growth factor, karatinocyte growth factor, corisol and thyroid hormones), inflammatory mediators and drugs/viatmins

Question 8

discuss the features of the stratum spinosum

Answer 8

• 1-20 cells thick
• polyhedral cells
• prominent intracellular bridges (desmosomes)
• upper layer produces involucrin (part of cornified layer)
• appears spikey on histo

Question 9

discuss features of stratum granulosum

Answer 9

• variably present in haired skin
• slightly flattened cells, shrunken nuclei with inracellular keratohyaline granules containing profilaggrin (glue)
• various lipids and enzymes secreted extracellularly (creates a watertight seal)
• desmosomes express corneodesmosin (slightly different desmosome)
• sometimes not visible on histology but essential to forming stratum corneum

Question 10

discuss features of the stratum lucidum

Answer 10

• not present in haired skin!
• variable present in hairless, thickened skin (nasal planum)
• slightly flattened cells with shrunken nuclei
• intracellular keratohyalin
• increased intracellular lipids

Question 11

discuss features of the stratum corneum

Answer 11

• composed of anucleate flattened cells (squames) of variable thickeness (depends on location and species)
• plasma membrane is replaced by cornified envelope comprising intracellular proteins (involucrin, loricin, peripalkin)
• extensively cross linked with the aid of filaggrin and keratins
• hydrophilic bonging of lipids forms organised mortar between squames
• desmosomes now called corneodesmosomes due to addition of corneodesmosin

Question 12

discuss the formation of the cornified envelope

Answer 12

1. in the basal and spinous layers the cell membrane is a typical lipid bilayer
2. in the upper granular layer, envoplakin and periplakin are laid on the cytoplasmic side of the cell membrane, under the influence of increased calcium.
3. to this, involucrin anf transglutimase 1 are added.
4. the contents of the lamella bodies are released into the cell membrane. ceramides are incorporated into the wall and fatty acids and cholesterol are released into the intercellular space
5. the cell membrane is replaced by a ceramind and fatty acid complex. loricin, SPRPs and other proteins provide a strong stratum corneum

Question 13

what is desquamation

Answer 13

• the final part of terminal development
• homeostatic process (continual loss of cells)
• in part mediated by proteinases and glycosidases in which a variety of intracellular and intercellualr macromolecules are degraded
• destructuion of the corneodesmosome
• invisible rafts of attached corneocytes fall off

Question 14

what is the dermis

Answer 14

connective tissue of mesenchymal origin containing insoluble fibres (collagen and elastin for tensile strength) and soluble polymers (proteoglycans and hyaluronan to resist and absorb compressive forces)
- thickeness of dermis determines the thickness of the skin
- divided into deep and superficial dermis
- contains epidermal appendages, arrector pili muscles, blood and lymph vessels and verves
- cells present include perivascular lymphocytes, dermal dendritic cells, mast cells and fibroblasts

Question 15

name and describe the 2 different nerve types in the dermis

Answer 15

sensory nerves
- respond to touch, pressure, temp, nociception, pruritis
- has mechanoreceptors (free nerve endings, meissneners and pacinian corpuscles and tylotrich hairs, merkel cells, ruffini corpuscles, sinus hairs and tylotrich pads)

motor nerves
- has adrenergic and cholinergic fibres
- control arterioles, artichial and epitrichial sweat glands

Question 16

name and describe the 3 layers of blood supply in the dermis

Answer 16

deep dermal vascular plexus
- interface of dermis and subcutis
- supply lower hair follicle and epitrichial sweat glands

mid-dermal vascular plexus
- level of the sebaceous glands
- supply arrector pili muscles, mid hair follicle and sebaceous glands

superficial dermal vascular plexus
- just below epidermis
- capillary loops supply epidermis and upper hail follicle

Question 17

discuss sebaceous glands

Answer 17

• basal layer of germinative cells divide and differentiate to form large polygonal cells abundant with vacuolated cytoplasm
• holocrine secretion of sebum containing triglycerides and other lipids, transferrin, IgA, IgG
• function of sebum is to lubricate the hair and skin. it is required for normal hair shaft separation
• sebum is secreted via the squamous duct to the hair follicle

Question 18

name some specialised sebaceous glands

Answer 18

• meibomian gland (eyelid)
• circumanal (hepatoid) gland
• supracaudal gland of dogs and cats
• submental glands in cats
• preputial glands in horses
• infraorbital, inguinal and interdigital glands in sheep

Question 19

name the 2 types of sweat glands and discuss characteristics of both

Answer 19

epitrichial
- associated with a hair follicle
- single layer of flattened cuboidal cells surrounded by myoepithelial cells
- coiled and saccular or tubular structures
- distributed throughout haired skin
- located below the sebaceous gland
- excrete sweat into piliary canal just above the sebaceous gland opening
- not innervated
- pheremonal and antimicrobial properties

atrichial
- not associated with hair follicles
- single layer of flattened cuboidal cells surrounded by myoepithelial cells (merocrine secretion, contract to produce sweat)
- small tightly coiled glands
- innervated by cholinergic nerve fibres
- restricted to non-haired areas (nose and footpas in carnivores)
- also carpus of pigs, frog of ungulates and nasolabial region of ruminants and pigs

Question 20

list some specialised atrichial glands

Answer 20

• mammary glands
• interdigital glands of small ruminants
• external ear canal
• nasolacrimal glands
• apocrine glands of the anal sac

Question 21

what is hair

Answer 21

• a specialised keratinised tubular structure
• 2 types: primary (guard hairs) secondary (downy hairs)
• important for insulation, signalling anf physical protection

Question 22

what type of hair follicles do omnivores and herbivores have

Answer 22

simple follicles: each infundibulum contains a single hair shaft of approximately the same size (except sheep)

Question 23

what type of hair follicle do carnivores have

Answer 23

compound follicles: multiple hair shafts per follicle

Question 24

define the term anagen

Answer 24

actively growing hair

Question 25

what is meant by catagen hair

Answer 25

a period of rapid change in which the lower portion undergoes apoptosis in a short period of time

Question 26

what is telogen hair

Answer 26

the resting hair

Question 27

what is the difference between primary and secondary hair

Answer 27

• primary hairs are deep in the dermis because they are growing and are bound in connective tissue
• secondary hairs are soft, shorter and sit more superficial in the dermis

Question 28

discuss the hair cycle

Answer 28

1. anagen: growth phase, new hair produced under previous hair in deep dermis. distinctive hair bulb containing collicular dermal papilla present. duration determines hair length
2. *catagen. rarely seen in normal skin. transitional phase
3. telogen: resting phase
4. exogen: the process of the hair being lost

ACTE

Question 29

what is the difference between anagenic and telogenic growth patterns and give examples of animals that have these patterns

Answer 29

anagenic: hair grows and grows (humans, angora rabbit, mohair goat, poodles)
telogenic growth: hair grows to a length then stops (dogs, cats, horses, hedgehogs)

Question 30

how is the hair cycle regulated

Answer 30

• photoperiod (meletonin)
• temp
• hormones (thyroid and growth hormone increase, oestrogen and corticosteroids decrease)
• nutritional status and general health
• growth factors
• drugs

Question 31

what are the 6 layers of the anagen hair inner to outer

Answer 31

• medulla
• cortex
• cuticle
• inner root sheath
• outer root sheath (continuous with epidermis)
• glassy membrane (basement membrane, holds it all together)

Question 32

discuss the appearance of the telogen hair

Answer 32

• located in mid to upper dermis
• conical bulb at the level of the attachment of the arrector pili muscle
• hair surrounded by the external root sheath, which terminates at sebaceous gland level
• hair bulb separated from the dermal papilla by thick basement membrane
• original bulb is dormant
• new bulb and papilla form beneath old follicle
• when stimulated, new bulb forms a new hair and old hair is lost

Question 33

what is vibrissae

Answer 33

• simple follicles with blood filled sinus between the inner and outer layers of the dermal sheath
• located on nose, above eyes, lips etc
• have mechanoreceptors for sensing touch

Question 34

what are tylotrich hairs

Answer 34

• simple folliclles in amongst body hairs
• have mechanoreceptors (fast adapting)
• associated with tylotrich pads (slow adapting)

Question 35

what is the subcutis and what are its functions

Answer 35

• connective tissue of mesenchymal origin
• deepest and thickest layer of the skin
• variably present
• projects into the dermis (papillae adiposae) to pretect hair follicles, weat glands and vessels
• predominant cell type = lipocyte
• energy reserve
• thermogenesis and insulation
• protective padding and support
• maintaining surface contour/shape
• has small blood flow and is therefore susceptible to disease

Question 36

what are melanocytes

Answer 36

• derived from the neural crest
• cell immersed in the epidermis with close contact with a defined number of karatinocytes
• melanin is composed of two types (eumalanin black or brown, phaeomelanin reddish yellow)
• melaocytes produce pigment in melanosomes which are membrane bound structures derived from golig involved in the transfer of pigment to keratinocytes
• melanocytes have photoprotection and immune function

Question 37

what are langerhans cells

Answer 37

• professional antigen presenting cells in the epidermis
• seen as clear cells on H&E hisopath
• distinctive tennis racket shape on electron microscopy
• migrate to the dermis and regional lymph nodes on activation to activate T lymphocytes
• markedly reduced in UV light (increases infection risk on white legs of horses, increases melanoma/squamous cell carcinoma in plae skin)

Question 38

what are the functions of the skin

Answer 38

• protective barrier via hair, stratum corneum, sebum, sweat)
• chemical barrier via inorganic acids, proteins and fatty acids
• normal flora inhibits infectious agents via coagulase negative spp breaking down lipids to form antibacterial free fatty acids, making the environment hostile for bacteria
• temp regulation via blood flow, sweat, hair
• exrectory organ via small amounts of urea, uric acid, ammonia and lactic acid
• sensory organ via sensory nerve endings in the dermis and epidermis sensitive to pain, temp and touch
• photoreception via urocanic acid and melanin that absorb UVA and UVB, as well as nuclear capping by melanin and skin thickness
• immunosurveillance
• BP regulation via storing Na in skin
• produces Vitamin D
• stores nutrients (particularly in subcutis)
• absorptive surface (esp of drugs)

Question 39

how can external fctors influence skin and hair

Answer 39

skin is largest organ in body therefore normal function of other organs paramount to healthy skin environment
- nutritional deficiencies (proteins, fatty acids, vitamins and minerals, hepatic dysfunction, pancreatic dysfunction, bowel disease and genetics)
- endocrine influences
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