L5- Glands introduction

Question 1

definition of a gland

Answer 1

‘An epithelial cell or an aggregate of epithelial cells that are specialised for the secretion of a substance’

Question 2

secretion

Answer 2

production and release of materials by a cell or aggregate of cells

Question 3

types of gland

Answer 3

endocrine and exocrine

Question 4

glands are typically classified according to

Answer 4

their structure and how the products are released

Question 5

endocrine

Answer 5

ductless

• secrete directly into the blood flowing through them

Question 6

exocrine

Answer 6

ducted

• secrete into a location or region of the body through a duct

Question 7

what do endocrine glands secrete

Answer 7

hormones

- that work at distant parts of the body

Question 8

what do exocrine glands secrete

Answer 8

enzyme and lubricants

Question 9

name three endocrine glands

Answer 9

1) Pituitary gland
2) Thyroid gland
3) Parathyroid gland

Question 10

where is the pituitary gland found

Answer 10

the hypothalamus (beneath the thalamus)

Question 11

what does the anterior pituitary gland produce

Answer 11

hormones that regulate most of the glands of the endocrine system

e.g. ACTH
LH
FSH
TSH
Prolactin
Somatorophin

Question 12

prolactin

Answer 12

stimulates milk production in mothers

Question 13

somatorophin

Answer 13

regulates growth of the body and tissue

Question 14

what does the posterior pituitary gland produce

Answer 14

• vasopressin (ADH)

- Oxytocin

Question 15

vasopressin (ADH)

Answer 15

prevents water loss from the kidney

Question 16

Oxytocin

Answer 16

that signals for delivery in pregnant women at the end of gestation and ejection of milk during breast feeding

Question 17

thyroid gland produces

Answer 17

thyroid hormone- T3 and T4

Question 18

T3 and T4

Answer 18

control metabolism, calcitonin (calcium homeostasis)

Question 19

parathyroid produces

Answer 19

produced parathyroid hormones, calcium homeostasis

Question 20

example of exocrine cells

Answer 20

• salivary gland
• pancreas gland
• mammary gland
• sweat glands
• sebaceous gland
• lachrymal gland

Question 21

generation of gland- in utero development

Answer 21

1. Growth signal received (FGF family member)
2. Proliferation of [daughter] cells occurs and extracellular protein degradation of enzymes produced
3. Epithelial cells invade space created
   a. Exocrine glands
   i. Central part dies off to produce duct (canalicularisation)
   b. Endocrine glands
   i. Produce angiogenic factors to stimulate blood vessel growth in and around the epithelial cells
   ii. Link to [mother] cells broken through apoptosis

Question 22

in thyroid follicles (endocrine) production of colloid between epithelial cells causes

Answer 22

expansion of follicle into a sphere

Question 23

endocrine glands are surrounded by

Answer 23

capillaries- quick transport fo hormones into the blood and to distant tissues

Question 24

hormone release in endocrine cells

Answer 24

directly released from cells e.g. B cells- insulin

Question 25

release of enzymes and lubricants from exocrine cells

Answer 25

secretory cells form an acids (circle shape)- all cells secrete into the acinus and the product from many cells gets released from a single duct

Question 26

two types of cells in exocrine glands

Answer 26

epithelial

• cells lining the duct
• cells that make secretly products

Question 27

some cells at the end of the ducts change morphology and class by turning into

Answer 27

myoepithelial cells

Question 28

myoepithelial cells

Answer 28

have features of both epithelial and smooth muscle cells

- help eject sections from the duct

Question 29

types of duct structure

Answer 29

tubular

alveolar

compound

simple

Question 30

simple

Answer 30

duct does not branch e.g. intestinal glands

Question 31

compound

Answer 31

duct branches

Question 32

tubular

Answer 32

tube shaped

Question 33

alveolar

Answer 33

rounder

Question 34

salivary glands structure

Answer 34

compound tubuloalveolar

• ## branched

Question 35

exocrine glands have two types of secretions

Answer 35

mucous

serous

Question 36

development of the breast tissue starts

Answer 36

in utero

- development then stops until puberty

Question 37

At puberty what restarts breast development

Answer 37

oestrogen and progesteron

Question 38

what stimulates the production of milk in pregnancy

Answer 38

prolactin (colostrum and milk)

Question 39

oestrogen stimulates

Answer 39

formation of terminal end bulbs in prepuberty

Question 40

oestrogen and progesterone in puberty

Answer 40

ductal elongation

Question 41

progesteron

Answer 41

ductal elongation and side pranchion

Question 42

secreting cells can also be based on

Answer 42

how cells secrete product

Question 43

types of secretion

Answer 43

• merocrine
• apocrine
• holocrine
• cytocrine

Question 44

merocrine secretion

Answer 44

cells secrete substances by exocytosis- fusion of vesical with apical membrane
- e.g. acinar (alveolar) and endocrine glands of pancreas

Question 45

regulated secretion

Answer 45

• Secretory granules accumulate in large vesicles and are released by exocytosis upon stimulation
  o Needs Calcium ions to work

Question 46

constitutive secretion

Answer 46

• Secretory product is not concentrated into granules but packaged in small vesicles and continuously released to the cell surface
  o Used to repopulate the plasma membrane with plasma proteins

Question 47

apocrine

Answer 47

portion of the cell membrane and cytoplasm that contains excretion buds off
- e.g. lactating mammary gland, sweat glands in the axilla and externa genitalia

Question 48

holocrine

Answer 48

entire cell disintegrates to excrete its substance

- e.g. sebaceous glands of the skin and nose and tarsal glands in eyelid

Question 49

cytocrine

Answer 49

cells are released as recreations e

Question 50

example of cytocrine

Answer 50

spermatids in the seminiferous tubule

Question 51

regulated merocrine secretion

Answer 51

• Uses ATP
  1) Content of vesicle can be anything in the cell
  2) Active secretion requires Ca2+ ions
  3) Vesicle migrates to cell surface along microtubules
  4) In presence of Ca2+ ions, membrane of vesicle fuses with plasma lemma
  5) Cargo release into extracellular space

Question 52

example of regulated merocrine secretion

Answer 52

Example: Insulin release
- Dependent on calcium influx for insulin to be secreted - is dependent on membrane depolarisation which allows for calcium channels to open to allow calcium to enter the cell

Question 53

holocrine secretion example

Answer 53

Sebaceous gland

1. Secretory cell gradually fills up with secretory granules
2. Cell organelles degenerate
3. Cells die
4. Plasma membrane breaks and the contents (secretum) empties
5. Dead cells are replaced by mitotic division of the basal cells

Question 54

definition of glycosylation of proteins

Answer 54

The covalent attachment of sugars by enzymes to p[routines and lipids to form glycoproteins and glycolipids

Question 55

glycosylation occurs in the

Answer 55

golgi

Question 56

role of glycosylation

Answer 56

• Avoid protein folding
• Prevent protein digestion by intracellular proteases
• Prevent lipid digestion by intracellular lipases
• Cell recognition (blood groups)

Question 57

how many proteins undergo glycosylation

Answer 57

50%

Question 58

how many disorders of glycosylation are known

Answer 58

40- rare and lethal

Question 59

role of the golgi apparatus

Answer 59

1) Protein-containing vesicles from the ER transfer substances to the cis region of the Golgi apparatus
2) Golgi chemically modifies the proteins in its lumen e.g. by glycosylation
3) And targets them to the correct address

Question 60

types of transport in and out of the cell (4)

Answer 60

exocytosis
endocytosis
phagocytosis
pinocytosis

Question 61

exocytosis

Answer 61

• Secretion of molecules outside the cell via vesicle fusing to a membrane

Question 62

endocytosis

Answer 62

• Engulfing of molecules inside the cell via vesicle formation

Question 63

phagocytosis

Answer 63

• Process by which cells envelop or engulf other cells or particles
• Cells of the immune system: phagocytes (macrophages, dendritic, neutrophils, basophils, eosinophils)

Question 64

pinocytosis

Answer 64

• Process by which liquid droplets are ingested by cells

* Used by all cells esp SMC

Question 65

transcytosis

Answer 65

movement across a membrane

Question 66

types of transpeitheilal transport

Answer 66

paracellular
transcellular
Carrier protein
cell surge recpetors

Question 67

paracellular

Answer 67

Molecules may move through aqueous channels in the intercellular junction (paracellular transport)
a. Amino acid for hormone production

Question 68

transcellular

Answer 68

Through lipid membranes (transcellular)

a. Steroid hormones (oestrogen, progesterone etc)

Question 69

carrier protein

Answer 69

Transported by carrier proteins into or out of the cell

Question 70

Molecules that are impermeable may bind to

Answer 70

cell surface receptors, be engulfed by the cell membrane (endocytosis) and then released inside the cell or expelled via exocytosis
a. Cholesterol transport (many drugs)

Question 71

3 types of glandular control

Answer 71

humoral
neural
hormonal

Question 72

humoral

Answer 72

exocrine and endocrine

e.g. substances in the blood may trigger release of hormone e.g. calcium

Question 73

neural

Answer 73

only exocrine

e.g. neurones stimulating hormone secretion

Question 74

hormonal

Answer 74

exocrine and endocrine

.g. the secretion of one hormone provides positive or negative feedback for the release of another hormone

Question 75

example of gland that has neural communication

Answer 75

hypothalamus to the pituitary

Question 76

Hypothalmo-hypophyseal portal system

Answer 76

• Neurons in the hypothalamus synthesising trophic hormone release them into the capillaries of the portal system
• The portal vessel carry the trophic hormones ( TSH) directly to the anterior pituitary
• Endocrine cells release their hormones into the second set of capillaries for distribution to the rest of the body e.g. T3/T4- thyroxine
  o Provides negative feedback to Hypothalamus