Fluid And Digestion

Question 1

Amount of water in the GI tract

Answer 1

9L

Question 2

What percentage of water in the gut comes from secretions

Answer 2

80%

Question 3

Amount of water in GI tract from saliva

Answer 3

1.5 L

Question 4

Amount of water in GI tract from gastric juices

Answer 4

2 L

Question 5

Amount of water in GI tract from bile

Answer 5

0.5 L

Question 6

Amount of water in GI tract from pancreatic juices

Answer 6

1.5 L

Question 7

Amount of water in GI tract from intestinal secretions

Answer 7

1.5 L

Question 8

Amount of water in GI tract from drinking water

Answer 8

2L

Question 9

Water absorption in the stomach

Answer 9

Small amount
Small surface area and lacks solute absorbing mechanisms which create osmotic gradient

Question 10

Where is majority of water reabsorbed in GI tract

Answer 10

Small intestine
8.5 L

Question 11

Amount of water reabsorbed by small intestine

Answer 11

8.5 L

Question 12

Amount of water reabsorbed by colon

Answer 12

400 ml

Question 13

Amount of water excreted by faeces

Answer 13

100ml

Question 14

How is small intestine adapted for water absorption

Answer 14

Epithelial membrane very permeable to water
Na+ is very abundant in chyme: actively transported into cells in ileum and Jejunum
Luminal membrane transport is variably coupled with glucose, amino acids and other substances

Question 15

Na+ and small intestine

Answer 15

Na+ very abundant in chyme
Actively transported into cells in ileum and Jejunum

Question 16

Colon and water reabsorption

Answer 16

Contents are iso-osmotic
Na+ actively pumped from the lumen and water follows osmotically
K+ reabsorbed by passive diffusion, rate determined by gradient
Cl- is reabsorbed in exchange for HCO3-, intestinal contents becomes more alkaline

Question 17

Na+ and colon

Answer 17

Actively pumped from lumen and water follows osmotically

Question 18

K+ and small intestine

Answer 18

Reabsorbed by passive diffusion
Rate determined by gradient

Question 19

Cl- and colon

Answer 19

Cl- is reabsorbed in exchange for HCO3- - contents becomes more alkaline

Question 20

How many stages of sodium absorption

Answer 20

2

Question 21

1st stage of sodium absorption

Answer 21

Na/K ATPase on basolateral side of cell
Pumps Na+ out of the cell to create a low intracellular concentration of Na+

Question 22

2nd stage of sodium absorption

Answer 22

Membrane transport protein
Glucose-sodium transporter uptakes from luminal side (apical side)
1 glucose: 2 Na+
Glucose moved out through GLUT2 protein

Question 23

Glucose transporter in GI epithelial cells

Answer 23

GLUT2

Question 24

Paracellular movement

Answer 24

Between cells

Question 25

Number of Na+ moved via glucose-sodium transporter

Answer 25

2

Question 26

Sodium secretion (and water)

Answer 26

1. Na/K ATPase creates low intracellular concentration of Na+
2. NKCC2 restores Na+ levels by pumping it into the cell along with K+ and 2Cl- ions
3. K+ levels restored by a K+ channel
4. Cl- ions excreted on the apical membrane into the gut lumen
5. This is modulated by:
   -VIP increases cAMP to increase NKCC2 and Cl- channels
   - ACh increases intracellular Ca2+ to increase Cl- channels
6. h2O follows the gradient of Cl-

Question 27

VIP and sodium secretion

Answer 27

Increases cAMP to increase NKCC2 and Cl- channels

Question 28

ACh and sodium secretion

Answer 28

Increased intracellular Ca2+ to increase Cl- channels

Question 29

Water secretion follows gradient of which ion

Answer 29

Cl-

Question 30

What does NKCC2 pump

Answer 30

1 Na+
1 K+
2 Cl-

Question 31

Factors affecting absorption

Answer 31

Number and structure of enterocytes
Blood and lymph flow
Nutrient intake
GI motility

Question 32

Factors affecting secretion

Answer 32

Irritants
Bile
Bacterial toxins
Neural and hormonal inputs to secretion and GI motility

Question 33

Coeliac disease

Answer 33

1% of population suffer
Genetic component
Gluten- found in wheat, rye and barley
Villi become damaged
Digestion is impaired

Question 34

Oral rehydration

Answer 34

High levels of Na+ and glucose
Aids absorption of electrolytes and thus water

Question 35

Cholera

Answer 35

Vibrio Cholerae
Transmitted through contaminated water
Toxin released from bacteria
Binds to interstitial cells
Stimulates adenylate cyclase to produce more cAMP and increase expression of Cl- channels
Dramatic efflux of ions and water - 15-20 L/day
Watery diarrhoea

Question 36

Which enzyme produces cAMP

Answer 36

Adenylate cyclase

Question 37

Protein requirement for a healthy adult per day

Answer 37

40-50g

Question 38

Number of essential amino acids

Answer 38

8

Question 39

Number of amino acids

Answer 39

20

Question 40

Function of peptides in diet

Answer 40

Supply essential amino acids and replace nitrogen which has been converted to urea

Question 41

Which optical isomer of amino acids can the body use

Answer 41

L-isomers

Question 42

Zwitterions

Answer 42

Have both negative and positive charge on same molecule

Question 43

Stimulus of gastric acid production

Answer 43

Increased gastrin secretion
Histamine from ECL cells
Parasympathetic innervation(enteric and vagal)- ACh

Question 44

Inhibition of gastric acid production

Answer 44

Intestinal hormones (GIP, VIP, somatostatin, secretin, glucagon)
Prostaglandins

Question 45

Cell targets and actions of gastric acid

Answer 45

Activation of pepsinogen to pepsin

Question 46

Production of H+ in parietal cells- 2 methods

Answer 46

1. H2O in parietal cells dissociates into OH- and H+
2. CO2 and H2O create HCO3- and H+ via carbonic anhydrase
   Method 2 preferred to prevent buildup of OH- — OH- levels kept low by re-association with H+ ions

Question 47

Production of gastric acid

Answer 47

H+ ions pumped into stomach lumen by H/K ATPase pumps
HCO3- is secreted into the capillary in exchange for Cl-
Cl- ions diffuse into the lumen through Cl- channels
In the lumen H+ and Cl- react to form HCl

Question 48

Source of K+ ions in stomach lumen

Answer 48

Food
Ions that have diffused back into the lumen through K+ channels

Question 49

Increased secretion of HCl mechanism

Answer 49

Results from migration of H/K ATPase proteins to the apical membrane in vesicles
Removal of end products speeds up forward rate of reaction

Question 50

Amount of stomach acid produced per day

Answer 50

2 L

Question 51

pH of gastric acid

Answer 51

2

Question 52

2 types of gastrin

Answer 52

G17
G34
(Number of amino acids)

Question 53

Which is the active form of gastrin

Answer 53

G17

Question 54

In between feeding which form of gastrin is released in a larger quantity

Answer 54

G34

Question 55

What secreted gastrin

Answer 55

G cells

Question 56

Stimulus of G cells

Answer 56

Amino acids/peptides in stomach lumen
Distension of stomach
Activation of enteric nervous system
Neural- vagus nerve from hindbrain (Cephalic reflex)

Question 57

Inhibition of G cells

Answer 57

Decreased pH

Question 58

Cell targets and actions of gastrin

Answer 58

Parietal cells —> HCl release
ECL cells —> histamine release —> parietal cells —> HCl release
Whole stomach —> trophic effect (walls grow in size and number of cells)

Question 59

Which cells secrete pepsinogen

Answer 59

Chief cells from stomach body

Question 60

What activates pepsinogen to form pepsin

Answer 60

HCl

Question 61

Stimulus of pepsinogen release

Answer 61

Parasympathetic nerve activity (vagus)
Enteric nerve activity

Question 62

Inhibition of pepsin

Answer 62

Pepsin is inhibited by HCO3- which irreversibly inactivates it

Question 63

At what pH is pepsin most effective

Answer 63

1.6-3.2

Question 64

What percentage of protein digestion does pepsin account for

Answer 64

20%

Question 65

Mechanism of pepsin

Answer 65

Breaks down collagen
Increases surface area of molecules for more efficient digestion

Question 66

pH in duodenal cap

Answer 66

2-4

Question 67

pH in duodenum (excluding duodenal cap)

Answer 67

6.5

Question 68

Endopeptidases

Answer 68

Split polypeptides internal bonds

Question 69

Examples of endopeptidases

Answer 69

Trypsin
Chymotrypsin
Elastase

Question 70

Exopeptidases

Answer 70

Cleaves amino acids off ends of polypeptides

Question 71

What activates trypsinogen—> trypsin

Answer 71

Enterokinase

Question 72

Examples of exopeptidases

Answer 72

Carboxyl dipeptidases
Amino pepridases of the microvilli border

Question 73

3 locations for peptide digestion

Answer 73

Intestinal lumen
Brush border
Intracellular

Question 74

What activates most peptidases

Answer 74

Trypsin

Question 75

Absorption of amino acids

Answer 75

Amino acids are absorbed through facilitated diffusion and cotransport
Na?K ATPase creates a Na+ gradient
Amino acids absorbed alongside Na+

Question 76

Absorption of peptides

Answer 76

Co-transport with H+

Question 77

Where does protein digestion start

Answer 77

Stomach

Question 78

Zymogen of elastase

Answer 78

Proelastase

Question 79

Zymogen of colipase

Answer 79

Procolipase

Question 80

What percentage of carbohydrate calories are ingested

Answer 80

50%

Question 81

What percentage of carbohydrate calories ingested come from starch

Answer 81

50%

Question 82

What percentage of carbohydrate calories ingested come from sucrose

Answer 82

30%

Question 83

What percentage of carbohydrate calories ingested come from lactose

Answer 83

6%

Question 84

What percentage of carbohydrate calories ingested come from maltose

Answer 84

1-2%

Question 85

Monosaccharides examples

Answer 85

Glucose
Fructose
Galactose

Question 86

Oligosaccharides

Answer 86

Several sugar molecules

Question 87

Which optical isomer of sugars can be used by the body

Answer 87

D-isomers

Question 88

Sucrose

Answer 88

Glucose and fructose

Question 89

Glycogen

Answer 89

Principle dietary polysaccharide
From animal sources
Polymer of glucose molecules
Joined by Alpha 1-4 glycosidic linkages and some chain branching Alpha 1-6 glycosidic linkages

Question 90

Starch

Answer 90

Majority alpha 1-4 glycosidic linkages
Some chain branching but much less than glycogen

Question 91

Lactose

Answer 91

Forms beta linkage: OH groups lie above the plane of the molecule
Requires its own enzyme to break it down

Question 92

Cellulose

Answer 92

Only has beta 1-4 glycosidic linkages

Question 93

Starch is first degraded by…

Answer 93

Ptyalin (Alpha amylase in saliva)

Question 94

Optimal pH of ptyalin

Answer 94

6.7-7.5

Question 95

Where does carbohydrate digestion start

Answer 95

Mouth

Question 96

Which glands secrete ptyalin

Answer 96

Parotid and submandibular glands

Question 97

End products of starch break down

Answer 97

Maltose
Maltotriose
Larger polymers of glucose
Alpha-limit dextrins (branched polymers with around 8 units)

Question 98

Alpha-limit dextrins

Answer 98

Branched polymers with around 8 units

Question 99

Where does further digestion of oligosaccharides occur

Answer 99

Microvilli membrane

Question 100

Enzymes on microvilli membrane for digestion of oligosaccharides

Answer 100

Maltase
Sucrase
Lactase
Alpha-limit dextrinase

Question 101

What percentage of starch digestion is the duodenum responsible for

Answer 101

95%

Question 102

Which hormone is responsible for signalling starch digestion in duodenum

Answer 102

CCK

Question 103

What gland secretes Alpha amylase into duodenum

Answer 103

Pancreas

Question 104

What stimulates duodenal digestion of starch

Answer 104

Arrival of chyme in duodenum

Question 105

What does pancreatic alpha amylase catalyse

Answer 105

Break down of alpha 1-4 linkages

Question 106

What does pancreatic alpha amylase not catalyse

Answer 106

Break down of:
Alpha 1-6 linkages
Alpha 1-4 linkages next to branch points
Terminal alpha 1-4 linkages

Question 107

Where are monosaccharides absorbed

Answer 107

Brush border membrane

Question 108

Which monosaccharides require active transport for absorption

Answer 108

Glucose
Galatose

Question 109

Absorption of glucose and galactose

Answer 109

Low Na+ concentration created intracellularly
Monosaccharides co-transported with Na+ (SGLT)

Question 110

Which co-transporter is used for Na+ and glucose or galactose

Answer 110

SGLT

Question 111

Absorption of fructose

Answer 111

Facilitated diffusion (GLUT)

Question 112

Which protein is responsible for facilitated diffusion of monosaccharides

Answer 112

GLUT

Question 113

Movement of monosaccharides from cell to blood

Answer 113

Facilitated diffusion via GLUT on basolateral membrane
Diffuse through capillary pores into hepatic portal veins

Question 114

Most carbohydrates are digested and absorbed in the first…….. of the small intestine

Answer 114

20%

Question 115

What occurs when monosaccharides enter the liver

Answer 115

Converted to glucose

Question 116

What does the creation of alpha-glycerol phosphate require

Answer 116

Dihydroxyacetone phosphate which is reduced during glycolysis

Question 117

Two fates of glucose in the liver

Answer 117

Stored as glycogen
Converted to alpha-glycerol phosphate and fatty acids

Question 118

Pathway of glucose to stored triglycerides

Answer 118

Glucose
Fatty acids and alpha-glycerol phosphate
Triglycerides and fatty acids
VLDLs and LDLs
Adipocytes capillaries
Triglycerides released
Triglycerides stored

Question 119

What hydrolyses triglycerides to monoglycerides and fatty acids

Answer 119

Lipoprotein lipase

Question 120

Where is lipoprotein lipase found

Answer 120

Blood facing surface of capillary endothelial cells, especially in adipose tissue

Question 121

Average daily lipid uptake

Answer 121

70-100 g

Question 122

3 main fatty acids

Answer 122

Palmitic acid
Stearic acid
Oleic acid

Question 123

Where does fat digestion start

Answer 123

Mouth

Question 124

What initially breaks down large fatty molecules

Answer 124

Lipase
Cholesterol esterase
Phospholipase A

Question 125

3 types of lipase

Answer 125

Lingual
Gastric
Pancreatic

Question 126

Where does lipid digestion predominantly occur

Answer 126

Small intestine

Question 127

Mechanism of lipase

Answer 127

Splits bonds between 1st and 3rd carbons and their fatty acids
Forms monoglycerides and 2 free fatty acid chains

Question 128

Droplet formation

Answer 128

Lipids are insoluble so aggregate into droplets in upper portion of the stomach
Emulsified into smaller droplets 1mm in diameter

Question 129

Droplet formation requires

Answer 129

Mechanical disruption : provided by GI tract motility
Emulsifying agents: provided by phospholipids in food and bile salts in duodenum

Question 130

What are bile salts synthesised from

Answer 130

Cholesterol

Question 131

How do bile salts work

Answer 131

Non-polar ends associate with non-polar interiors of lipid droplets
Has an affinity for both fat and water so bring the 2 together leaving polar regions exposed to water
Repel other lipid droplets which have been emulsified preventing reaggregation

Question 132

Function of colipase

Answer 132

Bind the lipid droplet and lipase together creating micelles
Emulsifying agents impairs accessibility of lipase

Question 133

Which gland secretes colipase

Answer 133

Pancreas

Question 134

Constituents of micelles

Answer 134

Bile salts
Fat soluble vitamins (A, D, K, E)
Cholesterol
Fatty acids
Monoglycerides
Phospholipids

Question 135

Size of lipid droplets

Answer 135

1 mm in diameter

Question 136

Size of micelles

Answer 136

4-7 nm in diameter

Question 137

Where is bile reabsorbed

Answer 137

Ileum

Question 138

What percentage of bile is excreted

Answer 138

3%

Question 139

How many times a day is bile recycled

Answer 139

8

Question 140

Absorption of fats

Answer 140

1. Bile salts from liver coat fat droplets
2. Pancreatic lipase and colipase break down fats into monoglycerides and fatty acids stored in micelles
3. Monoglycerides and fatty acids move out of micelles and enter cells by diffusion
   Cholesterol is transported into cells
4. In sER triglycerides are resynthesised
5. Absorbed fats combine with cholesterol and proteins in Golgi apparatus to form Chylomicrons or VLDL particles
6. Exocytosed into lymphatic system via a lacteal

Question 141

Systemic handling of fats

Answer 141

Chylomicrons enter lacteals into lymphatic system
Lymph eventually drains into systemic veins
Once in blood circulation fatty acids are released by lipoprotein lipase
Fatty acids diffuse into adipocytes to combine with alpha-glycerol phosphate

Question 142

Why don’t Chylomicrons enter capillaries

Answer 142

Cannot diffuse through basement membrane

Question 143

Why can Chylomicrons enter lacteals

Answer 143

Have larger pores than capillaries

Question 144

How is alpha-glycerol phosphate produced

Answer 144

Glycolysis

Question 145

Why is glucose essential for triglyceride synthesis in adipocytes

Answer 145

Do not contain the enzyme to phosphorylate glycerol to alpha-glycerol

Question 146

How is glycerol produced

Answer 146

From dihydroxyacetone phosphate

Question 147

3 main sources of fatty acids for triglyceride synthesis

Answer 147

1. Glucose that enters adipose tissue is broken down
2. Glucose used in the liver to form VLDL triglycerides which are transported int the blood and taken up by adipocytes
3. Ingested triglycerides transported in the blood in Chylomicrons and taken up by adipocytes

Question 148

Trace elements occur in a normal human diet. Which of the following metals is an example of a trace?

Answer 148

Manganese

Question 149

67 year old woman has had her gastric antrum removed as treatment for chronic gastric ulcers. Her niece is worried that she won’t be able to digest her food properly. Which statement regarding carbohydrate digestion and absorption is correct?

Answer 149

Glucose is passively absorbed through a membrane transporter