AS Lecture 8 - Ions, Vitamins And Minerals

Question 1

What are the 2 types of transporter proteins?

Answer 1

Carrier proteins and channel proteins (much faster)

Question 2

What are the 2 types of ion channels?

Answer 2

Gated or non gated, pics

Question 3

3 Types of carrier mediated transport

Answer 3

Uniport, symport, antiport NB: if both molecules are oppositely charged they are moved via symporters

Question 4

Where does water absorption take place?

Answer 4

Most is reabsorbed - mainly in Jejunum, some in colon Needs power of ion absorption (mostly by diffusion)

Question 5

Where does the water that you excrete come from?

Answer 5

Ingest (2L), saliva (1.2L), gastric secretions (2L), bile (0.7L), pancreas (1.2L), intestinal (2.4L) Small intestine absorbs (8L), colon (1.5L)

Question 6

What is the standing gradient of osmosis driven by?

Answer 6

Driven by Na, and transport of Na from lumen into Enterocytes are complex and varies between species

Question 7

How is sodium transported to keep the standing gradient of osmosis?

Answer 7

Counter-transport i exchange for H+ (proximal bowel), co-transport with a.a., monosaccharides (jejunum). co-transport with Cl- (ileum), restricted movement through ion channels (colon)

Question 8

How do molecules cross the epithelium to enter the bloodstream?

Answer 8

Paracellular transport, transcellular transport

Question 9

What type of gated can channel proteins be?

Answer 9

Voltage gated, ligand gated - extra/intracellular, mechanically gated

Question 10

What is a uniport carrier?

Answer 10

Carries just on type of molecule across

Question 11

What is an antiport/symport carrier?

Answer 11

Carries 2 molecules either in the same/opposite across the membrane

Question 12

What are some examples for primary active transport?

Answer 12

Na/K ATPase, H/K ATPase

Question 13

What are some examples for secondary active transport?

Answer 13

SGLT-1 co-transport, HCO3-/Cl- counter transport, Na/H counter transport

Question 14

What are some examples for facillitated transport?

Answer 14

GLUT-5, GLUT-2

Question 15

How is calcium absorbed in the intestines?

Answer 15

Cl- is co-transported with Na+ (ileum), exchanged with HCO3- (colon) into enterocytes - both secondary active transport

Question 16

How is potassium absorbed in the intestines?

Answer 16

K+ diffuses in via paracellular pathways in small intestine, leaks out between cells in colon - passive transport

Question 17

What happens to the intracellular sodium from the standing gradient osmosis?

Answer 17

Active transport of Na+ into lateral intercellular spaces by Na/K ATPase transport in the lateral plasma membrane

Question 18

What happens when sodium is transported into the intercellular spaces?

Answer 18

Cl- and HCO3- are transported into the intercellular spaces as well and the high concentration of ions in the intercellular space causes the fluid to become hypertonic

Question 19

What happens due to the fluid in the intercellular space becoming hypertonic?

Answer 19

Water distends in the intercellular channels and causes increased hydrostatic pressure, so ions and water move across the basement membrane of epithelium and are carried away by the capillaries

Question 20

How is the standing gradient of osmosis maintained? (image)

Answer 20

Question 21

Where calcium absorbed in the gut?

Answer 21

In the duodenum and ileum - if diet low in Ca, then gut’s absorptive ability inceases

Question 22

What stimulates calcium absorption?

Answer 22

Vitamin D and parathyroid hormone stimulate absorption

Question 23

How much calcium is absorbed in a day?

Answer 23

Diet 1-6g/day, secretions 0.6g, absorb 0.7g

Question 24

What are the intra/extracellular [Ca2+]?

Answer 24

Low intra, but can increase in during various cellular functions High extracellular fluid, (plasma around 2.2mM and luminal varying)

Question 25

How does Ca2+ get carried across the apical membrane?

Answer 25

Intestinal Ca-binding protein (IMcal) - facilitated diffusion OR ion channel

Question 26

What is the function of Ca2+?

Answer 26

Acts as an intracellular signalling molecule - so this proses a problem when needed to be transported across the membrane

Question 27

How is calcium transported into the cytosol?

Answer 27

Binds to calbindin, which prevents the action of Ca as an intracellular signal

Question 28

How do we get Ca out of the cell and into the blood stream?

Answer 28

Ca2+ is pumped out by PMCA against conc gradient OR Ca2+ pumped across basolateral membrane via Na/Ca exchanger

Question 29

What is an advantage of PMCA?

Answer 29

It helps maintain basal levels of Ca inside the cell

Question 30

What does PMCA stand for?

Answer 30

Plasma membrane Ca2+ ATPase

Question 31

What is the difference between the PMCA and Na/Ca exchanger?

Answer 31

PMCA - has a high affinity for calcium, but low capacity, so needs low conc to be effective, but is slower Na/Ca exchanger - has a low affinity but high capacity, so needs higher conc to be effective, but is very fast

Question 32

What is vitamin D used for?

Answer 32

Essential for normal Ca absorption Deficiency causes rickets and osteoporosis

Question 33

What happens when 1,25-DHD3 is taken up by enterocytes?

Answer 33

Enhances the transport of Ca through cytosol, increases levels of calbindin, increases rates of extrusion across basolateral membrane by increasing the level of Ca ATPase in the membrane

Question 34

What is the function of iron?

Answer 34

It can act as an electron donor and an electron acceptor - oxygen transport and oxidative phosphorylation

Question 35

What happens when iron is in excess?

Answer 35

Iron is toxic, but there is no mechanism for actively excreting iron - so iron should be absorbed rapidly when required and absorption should also be limited

Question 36

How is iron present in your diet?

Answer 36

Adults ingest 15-20mg/day and absorb 0.5-1.5mg/day Present as: inorganic iron or as part of haem group

Question 37

What is the difference between Fe3+ and Fe2+ absorption?

Answer 37

Can’t absorb Fe3+ as it forms insoluble salts with hydroxide, phosphate and HCO3-

Question 38

Why do we need vitamin C?

Answer 38

It reduces Fe3+ to Fe2+, so it can be absorbed

Question 39

Can haem be absorbed readily?

Answer 39

It is a smaller part of the diet but it is more readily absorbed - 20% of presented

Question 40

What are haem molecules and how are they absorbed?

Answer 40

Dietary haem is highly bioavailable, absorbed intact into enterocyte by HCP-1 and via receptor mediated endocytosis, with Fe2+ liberated by haem oxygenase

Question 41

What is HCP-1?

Answer 41

Haem Carrier Protein 1

Question 42

How do we uptake inorganic iron?

Answer 42

Dcytb catalyses reduction of Fe3+ to Fe2+ in process of iron absorption in duodenum, Fe2+ is transported via DMT-1, a H+-coupled co-transporter, Fe2+ binds to unknown factors, carried to basolateral membrane and moves via ferroportin ion channel into blood

Question 43

What happens after the ferroportin-Fe2+ moves into blood?

Answer 43

Hephaestin converts Fe2+ and Fe3+, so Fe3+ binds to aoptransferrin and travels in blood as transferrin

Question 44

How is the uptake of iron regulated?

Answer 44

Hepcidin suppresses ferroportin function to decrease iron absorption

Question 45

What is DMT-1?

Answer 45

Divalent metal transporter 1

Question 46

What is Dcytb?

Answer 46

Duodenal cytochrome B

Question 47

What is hephaestin?

Answer 47

Transmembrane copper-dependent ferroxidase

Question 48

If Fe2+ doesn’t get transported out of the cell, what happens? (Ferritin pathway)

Answer 48

Fe2+ binds to apoferritin in cytosol, forming ferritin micelle, where Fe2+ is oxidised to Fe3+, which crystalises within the protein shell

Question 49

What is ferritin?

Answer 49

Globular protein complex - which can store up to 4000 iron ions

Question 50

What happens to excess ferritins?

Answer 50

Irreversible binding of iron to ferritins in epithelial cells, so iron isn’t available for transport into plasma, so it is lost in intestinal lumen and excreted in faeces

Question 51

How is ferritin synthesis increased?

Answer 51

Increased concentration of iron in cytosol

Question 52

What are vitamins?

Answer 52

Organic compounds that can’t be manufactured by the body but are vital to metabolism

Question 53

How are vitamins taken up?

Answer 53

Fat soluble vitamins (ADEK) are transported to brush border in micelles, and K is taken up by active transport Specific transport mechanisms for vit C, folic acid, vit B1 and B12

Question 54

Where is vit B12 stored?

Answer 54

Liver contains a large store, most B12 in food is bound to proteins

Question 55

What happens if there is impaired absorption of vit B12?

Answer 55

Retards the maturation of RBC, causing pernicious anaemia

Question 56

How is the denaturation of vit B12 in the stomach avaoided?

Answer 56

B12 is released when proteins broken down, but becomes denatured in acidic pH of stomach - so binds to R protein released in saliva from parietal cells

Question 57

What are R proteins?

Answer 57

A.K.A. Haptocorrin - digested in duodenum

Question 58

What happens to B12 in the duodenum?

Answer 58

When R protein is digested, B12 binds to intrinsic factor, which is resistant to digestion

Question 59

What does the Vit B12/IF complex do when it reaches the ileum?

Answer 59

Binds to cubilin receptor, taken up in distal ileum, where it is broken down in mitochondria

Question 60

What are intrinsic factors?

Answer 60

Vit B12 binding glycoproteins secreted by parietal cells

Question 61

What happens to B12 in the cell, after IF is broken down?

Answer 61

B12 binds to TCII where it crosses the basolateral membrane and travels to the liver, TCII receptors on cells allowing for uptake of complex, then proteolysis breaks down TCII inside the cell, then B12 can be stored in the liver

Question 62

How is B12 taken up by the cells from intestine?

Answer 62