intro to epithelial solute and water transport

Question 1

what makes up the ECF?

Answer 1

plasma + ISF + trans cellular fluid

Question 2

gives examples of trans cellular fluid

Answer 2

CSF, synovial fluid, intraocular fluid

Question 3

give examples of external space fluid

Answer 3

GI tract, kidney tubules and salivary ducts

Question 4

what is epithelium a barrier between?

Answer 4

ECF + external space

Question 5

what do tight junctions separate?

Answer 5

• neighbouring cells
• also apical and basolateral membranes — allows for asymmetric expression of transport proteins

Question 6

what does the basolateral membrane face?

Answer 6

interstitium

Question 7

what are adhering junctions and desmosomes for?

Answer 7

support

Question 8

what does the apical membrane face?

Answer 8

external space

Question 9

what do cells communicate via?

Answer 9

gap junctions

Question 10

what do tight junctions restrict?

Answer 10

para cellular movement

Question 11

what is para cellular movement?

Answer 11

movement between cells

Question 12

what is tight junction permeability determined by?

Answer 12

claudin family proteins

• TJs in some epithelial are ‘leaky’ to small ions and water eg. transport epithelia
• in others they are ‘tight’ and impermeable eg. in skin

Question 13

what is the phospholipid bilayer impermeable to?

Answer 13

ions and polar molecules

Question 14

membrane transporters are required for the movement of ____ molecules between the ICF and ECF that cant pass by ________?

Answer 14

• polar
• simple diffusion

Question 15

what is the function of sterol in the phospholipid bilayer?

Answer 15

give structure and integrity and provide precursors for fat-soluble vitamins and steroid hormones

Question 16

phospholipid bilayer head vs tails?

Answer 16

heads = hydrophilic
tails = hydrophobic

Question 17

what kind of transporter is the NaKATPase?

Answer 17

ion pump

Question 18

ion pump uses energy from what?

Answer 18

ATP hydrolysis

Question 19

describe NaK ATPase

Answer 19

• uses energy from ATP hydrolysis
• transports 3Na+ out for every 2K+ in
• creates and maintains electrochemical gradients

Question 20

roles of the K+ and Na+ gradient in NaK ATPase

Answer 20

• K+ gradient generates the membrane potential (approx - 60mV)
• Na+ gradient drives other passive transporters — secondary active transport

Question 21

describe ion channels

Answer 21

• highly selective protein pores in the membrane (specificity dependent on protein structure)
• ion flow is driven by conc gradient and membrane potential : electrochemical gradient - Passive transport
• may be gated by intracellular or extracellular messengers, or by membrane potential changes

high —> low conc

Question 22

describe transporter (carrier proteins)

Answer 22

• highly selective carrier protein in the membrane
• transport is passive
• driven by the conc gradient alone
• FACILITATED DIFFUSION
• rate can become saturated
• conformational change upon ligand binding

Question 23

describe the Na+K+2Cl- cotransporter

Answer 23

• symporter (all same direction)
• inward movement of Na+ drives uptake of Cl- against its gradient
• secondary active transport

Question 24

describe the Na+/H+ exchanger

Answer 24

• antiporter (opposite directions)
• inward movement of Na+ drives extrusion of H+ against its gradient
• secondary active transport

Question 25

ICF vs ECF in terms of Na+ and K+ conc

Answer 25

ICF = high K+ and low Na+

ECF = low K+ and high Na+

Question 26

water flow through aquaporins is driven by what?

Answer 26

osmosis

Question 27

what is osmosis?

Answer 27

the diffusion of water through a semi-permeable membrane from a region of lower total solute conc to one of higher total solute conc

Question 28

what establishes electrochemical gradient?

Answer 28

NaK ATPase

Question 29

glucose crosses the basolateral membrane via what?

Answer 29

facilitated diffusion

Question 30

Cl- enters via what? then it exits the apical membrane in the gut lumen through what?

Answer 30

• Cl- in via Na+ gradient
• exits apical membrane through chloride channels

Question 31

transport may occur via what 2 pathways?

Answer 31

trans cellular or paracellular

Question 32

respiratory gases such as oxygen cross membranes via what?

Answer 32

simple diffusion

Question 33

transport proteins are required to transport IONS AND POLAR MOLECULES across cell membranes — eg. ____ and ____

Answer 33

K+ and glucose

Question 34

what does transepithelial transport require?

Answer 34

asymmetric expression of transport proteins on the apical and basolateral membranes

Question 35

describe serous mucous

Answer 35

ion-rich, watery

Question 36

where does saliva secretion begin?

Answer 36

acinus = sac-like cavities within the salivary glands surrounded by acinar cells that feed into the salivary ducts

Question 37

what are the 2 acinus types?

Answer 37

serous vs mucous

Question 38

what type of acinar cells are mainly found in each of the salivary glands?

Answer 38

1. parotid = mainly serous acinar
2. submandibular = serous and mucous acinar
3. sublingual = mainly mucous acinar

Question 39

human parotid salvia secretions and rich in what?

Answer 39

Na+, HCO3- and Cl-

Question 40

what maintains the more alkaline pH of saliva?

Answer 40

HCO3-

Question 41

what is the 2 stage process of saliva secretion?

Answer 41

1. primary secretion by acinar cells
2. modification of primary saliva by salivary duct cells

Question 42

primary secretion by acinar cells:

NaK ATPase role

Answer 42

• maintains conc gradients for Na+ and K+
• small direct contribution to membrane potential
• 2K+ in for every 3Na+ out
• Na out against conc gradient via active transport

Question 43

primary secretion by acinar cells:

Na+ K + 2Cl- cotransporter (NKCC1, SLC12A2) role

Answer 43

• electrically neutral
• uses inward gradient for Na+ to drive coupled uptake of Cl-
• secondary active transport
• Na moves back in down conc grad, bringing Cl- with it
• Cl- moves in against conc grad and accumulates in cell

Question 44

primary secretion by acinar cells:

K+ channels (BK and IK1) role

Answer 44

recycles K+ and maintains membrane potential

no net movement of K+

Question 45

primary secretion by acinar cells:

Ca2+ activated Cl- channel (TMEM16A) role

Answer 45

• allows Cl- efflux down its electrochemical gradient

Cl leaves via chloride channels across apical membrane

Question 46

primary secretion by acinar cells:

what drives Na+ secretion via the para cellular pathway?

Answer 46

small -ve potential in lumen (Cl- in lumen)

Question 47

primary secretion by acinar cells:

what allows H2O reflux driven by a small osmotic gradient?

Answer 47

aquaporin 5 water channel (AQP5)

Question 48

what separates acinar cells?

Answer 48

tight junctions

Question 49

modification of primary saliva by salivary duct cells:

Na+ enters the cell passively via what?

Answer 49

ENaC channels

Question 50

modification of primary saliva by salivary duct cells:

Na+ leaves across the basolateral membrane via what?

Answer 50

NaK ATPase

Question 51

modification of primary saliva by salivary duct cells:

small +ve potential on the blood side draws Cl- through the cell via what?

Answer 51

Cl- channels

Question 52

modification of primary saliva by salivary duct cells:

Cl- also taken up from saliva in exchange for HCO3- via what?

Answer 52

apical Cl-/HCO3- exchangers

Question 53

modification of primary saliva by salivary duct cells:

intracellular HCO3- is generated from CO2 and water by what enzyme?

Answer 53

carbonic anhydrase

Question 54

modification of primary saliva by salivary duct cells:

what do basolateral Na+/H+ exchangers extrude?

Answer 54

H+

Question 55

what are duct cells impermeable to, unlike acinar cells? result?

Answer 55

H2O — therefore little water reabsorption — therefore hypotonic saliva

Question 56

primary vs final saliva?

Answer 56

primary saliva = isotonic

final saliva = hypotonic

Question 57

ACh raises what?

Answer 57

intracellular Ca++

Question 58

NA raises what?

Answer 58

intracellular cAMP

Question 59

describe the role of ACh in PS stimulation

Answer 59

• ACH activates M1 and M3 muscarinic receptors
• activated G protein
• activates phospholipase C
• increases inositol 1,4,5-trisphosphate (IP3)
• increases Ca++ release from endoplasmic reticulum
• Ca++ has a positive effect on Cl- and K+ channels
• increases the flow rate of ions throguh these channels
• more ion movement
• more chloride movement
• more Na+ movement
• more osmotic movement of H2O

Question 60

what acts as a signalling molecule to activate other ion channels?

Answer 60

Ca++

Question 61

parasympathetic vs sympathetic nerves on saliva

Answer 61

Question 62

parasympathetic neuronal activation promotes ____ secretion

sympathetic neuronal activation promotes _____ secretion

Answer 62

1. PS = salt and water secretion
2. S = protein secretion

Question 63

salivary duct cells reabsorb ___ and ____ but are impermeable to ____ resulting in a _____ final saliva

Answer 63

• Na+ and Cl-
• H2O
• hypotonic