6.1 Digestion and Absorption

Question 1

What are the two major groups of organs which comprise the human digestive system?

Answer 1

• The alimentary canal consists of organs through which food actually passes (oesophagus, stomach, small & large intestine)
• The accessory organs aid in digestion but do not actually transfer food (salivary glands, pancreas, liver, gall bladder)

Question 2

What organs are part of the alimentary canal?

Answer 2

Oesophagus, stomach, small intestine, large intestine

Question 3

What are the accessory organs?

Answer 3

Salivary glands, pancreas, liver, gall bladder

Question 4

What is the oesophagus and what does it do?

Answer 4

• A hollow tube connecting the oral cavity to the stomach (separated from the trachea by the epiglottis)
• Food is mixed with saliva and then is moved in a bolus via the action of peristalsis
• Movement of food by peristalsis from the mouth to the stomach

Question 5

What is the stomach and what does it do? What pH?

Answer 5

• Churning and mixing with secreted water and acid which kills foreign bacteria and other pathogens in food, plus initial stages of protein digestion
• A temporary storage tank where food is mixed by churning and protein digestion begins
• It is lined by gastric pits that release digestive juices, which create an acidic environment (pH ~2)

Question 6

What is the small intestine and what does it do?

Answer 6

Small Intestine

• A long, highly folded tube where usable food substances (nutrients) are absorbed
• Consists of three sections – the duodenum, jejunum and ileum
• Final stages of digestion of lipids, carbohydrates, proteins and nucleic acids, neutralising stomach acid, plus absorption of nutrients

Question 7

What doess the salivary gland do?

Answer 7

• Release saliva to moisten food and contains enzymes (e.g. amylase) to initiate starch breakdown

Question 8

What is the pancreas and what does it do?

Answer 8

• Produces a broad spectrum of enzymes that are released into the small intestine via the duodenum
• Secretion of lipase, amylase, and protease

Question 9

What is the liver and what does it do?

Answer 9

• Secretion of surfactants in bile to break up lipid droplets
• Its role includes detoxification, storage, metabolism, bile production and haemoglobin breakdown

Question 10

What is the gall bladder and hat does it do?

Answer 10

• Store and regulate release of bile produced by the liver
• Bile stored in the gall bladder is released into the small intestine via the common bile duct

Question 11

What are the two methods food can be digested in?

Answer 11

Mechanical and chemical digestion

Question 12

What is involved in mechanical digestion?

Answer 12

Chewing (Mouth)

• Food is initially broken down in the mouth by the grinding action of teeth (chewing or mastication)
• The tongue pushes the food towards the back of the throat, where it travels down the esophagus as a bolus
• The epiglottis prevents the bolus from entering the trachea, while the uvula prevents the bolus from entering the nasal cavity

Churning (Stomach)

• The stomach lining contains muscles which physically squeeze and mix the food with strong digestive juices (‘churning’)
• Food is digested within the stomach for several hours and is turned into a creamy paste called chyme
• Eventually the chyme enters the small intestine (duodenum) where absorption will occur

Question 13

How does the food move?

Answer 13

Peristalsis

• Peristalsis is the principal mechanism of movement in the oesophagus, although it also occurs in both the stomach and gut
• The contraction of circular and longitudinal smooth muscle layers of the small intestine mixes the food with enzymes and moves it along the gut
• Food is moved unidirectionally along the alimentary canal in a caudal direction (mouth to anus)
• Exerts continuous moderate force, interspersed with short periods of more vigorous contraction, rather than remaining relaxed unless stimulated to contract

Question 14

What is segmentation? Where does it occur? What do it do? How does it help?

Answer 14

• Segmentation involves the contraction and relaxation of non-adjacent segments of circular smooth muscle in the intestines
• Segmentation contractions move chyme in both directions, allowing for a greater mixing of food with digestive juices
• While segmentation helps to physically digest food particles, its bidirectional propulsion of chyme can slow overall movement

Question 15

In chemical digestion, how is food broken down?

Answer 15

by the action of chemical agents (such as enzymes, acids and bile)

Question 16

How is stomach acid released?

Answer 16

• The stomach contains gastric glands which release digestive acids to create a low pH environment (pH ~2)

Question 17

Where is bile produced and stored?

What does bile interact with?

Answer 17

• Produced by liver
• Stored in gall bladder
• Release into the intestine
• Bile contains bile salts which interact with fat globules and divide them into smaller droplets (emulsification)

Question 18

Why is emulsification needed?

Answer 18

Bile emulsifies the fat globules and it increases the total surface area available for enzyme activity (lipase)

Question 19

What are enzymes? What do they do?

Answer 19

• Enzymes are biological catalysts which speed up the rate of a chemical reaction (i.e. digestion) by lowering activation energy
• Enzymes allow digestive processes to therefore occur at body temperatures and at sufficient speeds for survival requirements
• Enzymes are specific for a substrate and so can allow digestion of certain molecules to occur independently in distinct locations

Question 20

What are some examples of digestive enzymes from the pancreas and liver?

Answer 20

Question 21

Where are digestive enzymes secreted from?

Answer 21

Digestive enzymes are secreted predominantly by the pancreas, although other organs also contribute (salivary gland, stomach)

Question 22

What does carbohydrate digestion begin?

What is the enzyme secreted by?

Can be digest cellulose?

Answer 22

• begins in the mouth with the release of amylase from the salivary glands (starch digestion)
• secreted by the pancreas in order to continue carbohydrate digestion within the small intestine
• Humans do not possess an enzyme capable of digesting cellulose (cellulase) and hence passes through the body undigested

Question 23

What enzymes are often immobilised and where?

Answer 23

Enzymes for disaccharide hydrolysis are often immobilised on the epithelial lining of the small intestine, near channel proteins

Question 24

Where does protein digestion begin? What does it release? What pH?

Answer 24

• Begins in the stomach with the release of proteases that function optimally in an acidic pH (e.g. pepsin = pH2)
• Then in the small intestine, the smaller polypeptide chains are broken down by endopeptidases released by the pancreas
• Endopeptidases work optimally in neutral environments (pH 7) as the pancreas neutralises the acids in the intestine

Question 25

Where do lipids break down? With what enzyme?

Answer 25

• Lipid breakdown occurs in the intestine, beginning with emulsification of fat globules by bile released from the gall bladder
• The smaller fat droplets are then digested by lipases released from the pancreas

Question 26

What enzyme released from where digests nucleic acids (DNA,RNA) and into what?

Answer 26

• The pancreas releases nucleases which digest nucleic acids into smaller nucleosides

Question 27

What specialised structures do the human intestine have to absorb the products of digestion?

Answer 27

• The small intestine absorbs usable food substances (i.e. nutrients – monosaccharides, amino acids, fatty acids, vitamins, etc.)
• The large intestine absorbs water and dissolved minerals (i.e. ions) from the indigestible food residues

Question 28

What are the 4 main tissue layers of the small intestine?

Identify them in this image

Answer 28

From the outside of the wall going inwards:

• Serosa – a protective outer covering composed of a layer of cells reinforced by fibrous connective tissue
• Muscle layer – outer layer of longitudinal muscle (peristalsis) and inner layer of circular muscle (segmentation)
• Submucosa – composed of connective tissue separating the muscle layer from the innermost mucosa
• Mucosa – a highly folded inner layer which absorbs material through its surface epithelium from the intestinal lumen

Question 29

What are the finger-like projections in the inner epithelial lining of the intestine?

Answer 29

Villi (singular: villus)

Question 30

What are the features in villi?

Answer 30

• Microvilli – Ruffling of epithelial membrane further increases surface area
• Rich blood supply – Dense capillary network rapidly transports absorbed products
• Single layer epithelium – Minimises diffusion distance between lumen and blood
• Lacteals – Absorbs lipids from the intestine into the lymphatic system
• Intestinal glands – Exocrine pits (crypts of Lieberkuhn) release digestive juices
• Membrane proteins – Facilitates transport of digested materials into epithelial cells

Mnemonic: MR SLIM

Question 31

Why is the inner epithelial lining of the intestine highly folded?

Answer 31

The vili increase the available surface area for material absorption

Question 32

What are some structural features which optimise villi’s ability to absorb materials?

Answer 32

Tight Junctions

• Occluding associations between the plasma membrane of two adjacent cells, creating an impermeable barrier
• They keep digestive fluids separated from tissues and maintain a concentration gradient by ensuring one-way movement

Microvilli

• Microvilli borders significantly increase surface area of the plasma membrane (>100×), allowing for more absorption to occur
• The membrane will be embedded with immobilised digestive enzymes and channel proteins to assist in material uptake

Mitochondria

• Epithelial cells of intestinal villi will possess large numbers of mitochondria to provide ATP for active transport mechanisms
• ATP may be required for primary active transport (against gradient), secondary active transport (co-transport) or pinocytosis

Pinocytotic Vesicles

• Pinocytosis (‘cell-drinking’) is the non-specific uptake of fluids and dissolved solutes (a quick way to translocate in bulk)
• These materials will be ingested via the breaking and reforming of the membrane and hence contained within a vesicle

Question 33

During absorption, where must the digested food monomers pass through?

Answer 33

Pass from the lumen into the epithelial lining of the small intestine

Question 34

What do the tight junctions between epithelial cells do?

Answer 34

It occlude any gaps between cells - all monomers must cross the membrane

Question 35

Do different monomers/nutrients undertake different membrane transport?

Answer 35

Yes, different methods of membrane transport are required to absorb different nutrients

Question 36

What is secondary active transport and what monomers uses this method to be absorbed?

Answer 36

• A transport protein couples the active translocation of one molecule to the passive movement of another (co-transport)
• Glucose and amino acids are co-transported across the epithelial membrane by the active translocation of sodium ions (Na⁺)

Question 37

What is facilitated diffusion and what monomers use this method?

Answer 37

• Channel proteins help hydrophilic food molecules pass through the hydrophobic portion of the plasma membrane
• Channel proteins are often situated near specific membrane-bound enzymes (creates a localised concentration gradient)
• Certain monosaccharides (e.g. fructose), vitamins and some minerals are transported by facilitated diffusion

Question 38

What is osmosis and which monomers use this method?

Answer 38

• Water molecules will diffuse across the membrane in response to the movement of ions and hydrophilic monomers (solutes)
• The absorption of water and dissolved ions occurs in both the small and large intestine

Question 39

What is simple diffusion and which monomers use this method?

Answer 39

• Hydrophobic materials (e.g. lipids) may freely pass through the hydrophobic portion of the plasma membrane
• Once absorbed, lipids will often pass first into the lacteals rather than being transported via the blood

Question 40

How is bulk transport achieved?

Answer 40

Using endocytosis

Question 41

What does endocytosis involve? How do vesicles form? Does it require energy? What is it known as in the intestine?

Answer 41

• Endocytosis involves the invagination of the plasma membrane to create an internal vesicle containing extracellular material
• Vesicle formation requires the breaking and reforming of the phospholipid bilayer and hence is an energy-dependent process
• In the intestines, vesicles commonly form around fluid containing dissolved materials (pinocytosis – cell ‘drinking’)
• Pinocytosis allows materials to be ingested en masse and hence takes less time than shuttling via membrane proteins

Question 42

Summary of absorption methods

Answer 42

Question 43

What is starch? In what forms can it exist?

Answer 43

A polysaccharide composed of glucose monomers and accounts for ~ 60% of the carbohydrates consumed by humans

• Starch can exist in one of two forms – linear chains (amylose) or branched chains (amylopectin)

Question 44

What is the digestion of starch initiated by and where

Answer 44

The digestion of starch is initiated by salivary amylase in the mouth and continued by pancreatic amylase in the intestines

Question 45

Why doesnt starch digestion by amylase occur in the stomach?

Answer 45

Starch digestion by amylase does not occur in the stomach as the pH is unsuitable for amylase activity (optimal pH ~ 7)

Question 46

What does amylase digest amylose into? (2)

Answer 46

into maltose subunits (disaccharide) and digests amylopectin into branched chains called dextrins

Question 47

How are both maltose and dextrin digested? What do they form?

Answer 47

• Both maltose and dextrin are digested by enzymes (maltase) which are fixed to the epithelial lining of the small intestine
• The hydrolysis of maltose/dextrin results in the formation of glucose monomers

Question 48

What can glucose produce when hydrolysed?

Answer 48

Glucose can be hydrolysed to produce ATP (cell respiration) or stored in animals as the polysaccharide glycogen

Question 49

Overview of starch hydrolysis

Answer 49

Question 50

What is the two functions of the pancreas in the breakdown of starch?

Answer 50

• It produces the enzyme amylase which is released from exocrine glands (acinar cells) into the intestinal tract
• It produces the hormones insulin and glucagon which are released from endocrine glands (islets of Langerhans) into the blood

Question 51

What do the hormones insulin and glucagon regulate?

Answer 51

the concentration of glucose in the bloodstream (controls availability to cells)

• Insulin lowers blood glucose levels by increasing glycogen synthesis and storage in the liver and adipose tissues
• Glucagon increases blood glucose levels by limiting the synthesis and storage of glycogen by the liver and adipose tissues

Question 52

What are the two key functions of the process of digestion?

Answer 52

• It breaks down insoluble molecules into smaller subunits which can be readily absorbed into body tissues
• It breaks down inert molecules into usable subunits which can be assimilated by cells and reassembled into new products

Question 53

Why must large molecules be broken down in digestion?

Answer 53

Because they must pass through the cell membranes to be absorbed and they are impermeable to large molecules (polypeptides, polysaccharides) unless transport is facilitated by proteins

Question 54

What is the permeability of dialysis tubing?

Answer 54

Selectively-permeable

Question 55

What are the 5 stages of digestion?

Answer 55

• Ingestion – food is taken into the body via the act of eating
• Digestion – food is broken down both physically (e.g. mastication) and chemically (e.g. enzymatic hydrolysis)
• Absorption – digested food products are absorbed into the bloodstream and transported to cells
• Assimilation – digested food products are converted into the fluid and solid parts of a cell / tissue
• Elimination – undigested food residues are egested from the body as semi-solid faeces

Question 56

Why are lipids insoluble?

Answer 56

Because they are hydrophobic

Question 57

How does bile divide the fat globule into smaller droplets (emulsification)

Answer 57

Bile is a watery fluid that contains bile salts and pigments (bilirubin) – it is made by the liver and released from the gall bladder

• Bile salt molecules have both a hydrophobic surface and a hydrophilic surface
• The hydrophobic end interacts with the lipid while the hydrophilic end faces out and prevents lipids from coalescing
• This divides the fat globule into smaller droplets (emulsification), increasing the total surface area available for enzyme activity

Question 58

How is lipid absorbed?

Answer 58

After they are emulsified by bile salts, they can enter the epithelial cells. They are combined to form triglycerides

The triglycerides are combined with proteins inside the Golgi apparatus to form chylomicrons

Chylomicrons are released from the epithelial cells and are transported via the lacteals to the liver

Question 59

What do low density lipoproteins and high density lipoproteins do?

Answer 59

LD: They transport lipids via the bloodstream to cells

HD: scavenge excess lipids from the bloodstream and tissues and return them to the liver

Question 60

What is the large intestine and what does it do?

Answer 60

Large Intestine

• The final section of the alimentary canal, where water and dissolved minerals (i.e. ions) are absorbed
• Consists of the ascending / transverse / descending / sigmoidal colon, as well as the rectum
• Re-absorption of water, further digestion especially of carbohydrates by symbiotic bacteria, plus formation and storage of feces

Question 61

What controls peristalsis?

Answer 61

The enteric nervous system, which is extensive and complex

Question 62

Which direction does peristalsis occur? What happens when it goes the opposite way and which muscle does it then use?

Answer 62

From mouth to stomach

When vomiting, abdominal muscles are used rather than the circular and longitudinal muscle in the gut wall

Question 63

Why is food moved slower in the intestine compared to the eosophagus?

Answer 63

Allow time for absorption

Question 64

What is the main function of peristalsis in the intestine?

Answer 64

To churn the semi-digested food and mix it with enzymes and thus speed up the process of digestion

Question 65

What does the pancreas do?

Answer 65

Secrete enzymes into the lumen of the small intestine

Question 66

What 2 types of gland tissues are in the pancreas?

Answer 66

1. Small group of cells secrete the hormones insulin and glucagon into the blood.
2. Synthesises and secretes digestive enzymes into the gut in response to eating a meal

Question 67

How are the digestive enzymes from the pancreas synthesised?

Answer 67

Synthesised in pancreatic gland cells on ribosomes on the rough endoplasmic reticulum. They are then processed in the Golgi apparatus and secreted by exocytosis. Ducts within the pancreas merge into larger ducts, finally forming one pancreatic duct. Then it is secreted into the lumen of the small intestine.

Question 68

Which 4 types of macromolecule found in food does enzymes from pancreatic juice digest?

Answer 68

• Amylase to digest starch = Maltose
• Lipases to digest triglycerides = fatty acids and glycerol or fatty acids and monoglycerides
• Phospholipase to digest phospholipids = fatty acids, glycerol and phosphate
• Proteases to digest proteins and peptides = shorter peptides

Question 69

What environment does stomach acid produce?

Answer 69

An acidic environment to denature proteins and other macromolecules, aiding in their overall digestion

Question 70

How is damage from stomach acid prevented to the organ?

Answer 70

The stomach epithelium contains a mucous membrane which prevents the acids from damaging the gastric lining

Question 71

What is added to the stomach acid when they enter the intestine?

Answer 71

The pancreas releases alkaline compounds (e.g. bicarbonate ions), which neutralise the acids as they enter the intestine

Question 72

What does maltase, lactase, sucrase and dipeptidases digest and give what product?

Answer 72

Maltase digest maltose = glucose

Lactase digest lactose = glucose and galactose

Sucrase digest sucrose = glucose and fructose

Dipeptidases digest dipeptides = amino acids

Question 73

What are exopeptidases and how do they work?

Answer 73

Exopeptidase are proteases that digest peptides by removing single amino acids either from the carboxy or amino terminal of the chain until only a dipeptide is left

Question 74

What are the 6 enzymes produced by gland cells in the intestine wall that mostly remain immobilised in the plasma membrane of epithelium cells lining the intestine?

Answer 74

Nucleases, Maltase, Lactase, Sucrase, Exopeptidases, Dipeptidases

Question 75

Why are some substances undigested?

Answer 75

Because humans cannot synthesize the necessary enzymes

Question 76

What forms a barrier to harmful substances for villi?

Answer 76

The epithelium that covers it

Question 77

What products of digestion of macromolecules in food can villus cells absorb?

Answer 77

• Glucose, fructose, galactose and other monosaccharides
• Any of the 20 amino acids used to make proteins
• Fatty acids, monoglycerides and glycerol
• Bases from digestion of nucleotides

Question 78

What products from food is absorbed but doesnt need digestion?

Answer 78

• mineral ions such as calcium, potassium and sodium
• Vitamins such as ascorbic acid (vitamin c)

Question 79

What happens to harmful substances that pass through the epithelium? How about harmless but unwanted substances?

Answer 79

They are subsequently removed from the blood and detoxified by the liver

Harmless unwanted substances are also absorbed, including many of those that give food its colour and flavour. They pass out in urine.

Question 80

How are small amounts of bacteria that pass through the epithelium removed?

Answer 80

Small numbers of bacteria pass through the epithelium but are quickly removed from the blood by phagocytic cells in the liver

Question 81

What must nutrients do to be absorbed into the body?

Answer 81

They must pass from the lumen of the small intestine to the capillaries or lacteals in the villi. The nutrients must be first absorbed into epithelium cells through the exposed part of the plasma membrane that has its surface area enlarged with microvilli. The nutrients must then pass out of this cell through the plasma membrane where it faces inwards towards the lacteal and blood capillaries of the villus.

Question 82

What 4 different mechanisms move nutrients into and out of the villus epithelium cells?

Answer 82

• Simple diffusion
• Facilitated diffusion
• Active transport
• Exocytosis

Question 83

Why must starch be digested in the small intestine to allow absorption?

Answer 83

Starch molecules cannot pass through membranes

Question 84

Are the reactions involved in the digestion of starch exo or endo?

Answer 84

Exothermic

Question 85

What happens when digestion of starch happens without a catalyst?

Answer 85

It happens at very slow rates.

Question 86

Which enzyme begins the digestion of both forms of starch?

Answer 86

Amylase digests both types of starch molecule: Amylose and Amylopectin

Question 87

Where is amylase found in the body?

Answer 87

Saliva
Then most starch digestion occurs in the small intestine, catalysed by pancreatic amylase.

Question 88

What does amylase do to amylose?

Answer 88

Breaks the 1,4 bonds as long as there is a chain of at least four glucose monomers. Amylose is therefore digested into a mixture of two- and three-glucose fragments called maltose and maltotriose

Question 89

Why can amylase break 1,6 bonds in amylopectin?

Answer 89

Because of the specificity of its active site.

Question 90

What are the fragments of the amylopectin molecule containing a 1,6 bond that amylase cannot digest called?

Answer 90

Dextrins

Question 91

Which 3 enzymes complete the digestion of starch?

Answer 91

Maltase, glucosidase and dextrinase digest maltose, maltotriose and dextrins into glucose

Question 92

Where are the enzymes that complete the digestion of starch located?

Answer 92

In the membranes of microvilli on villus epithelium cells

Question 93

How does the glucose from digested starch enter the blood system?

Answer 93

1. Glucose is absorbed into villus epithelium cells by co-transport with sodium ions
2. It then moves by facilitated diffusion into the fluid in interstitial spaces inside the villus
3. The dense network of capillaries close to the epithelium ensures that glucose only has to travel a short distance to enter the blood system

Question 94

What feature of the capillary walls have that aids the entry of glucose?

Answer 94

• Single layers of thin cells, with pores between adjacent cells
• But these capillaries have larger pores than usual to aid entry of glucose

Question 95

Where does the blood carrying glucose and other products of digestion flow through and to where?

Answer 95

Flows through villus capillaries to venules in the sub-mucosa of the wall of the small intestine

Question 96

How does blood carrying glucose and other products of digestion end up as glycogen?

Answer 96

1. The blood flows through villus capillaries to venules in the sub-mucosa of the wall of the small intestine
2. The blood in the venules is carried via the hepatic portal vein to the liver, where excess glucose can be absorbed by liver cells and converted to glycogen for storage

Question 97

What is glycogen’s structure like?

Answer 97

Similar in structure to amylopectin, but with more 1,6 bonds and therefore more extensive branching