Wk 19

Question 1

Which digestive enzymes are in…

Saliva (2)=

Gastric juice (2)=

Pancreatic juice (3)=

Brush border enzymes (2)=

Answer 1

Saliva= amylase and lipase (carbs and fat)

Gastric juice= pepsin and lipase (proteins and fat)

Pancreatic juice= amylase, trypsin and lipase (carbs, proteins and fat)

BBE= glucose enzymes (maltase, lactase, etc), protein enzymes (peptidases)

Question 2

Where are carbs digested?

Where are proteins digested?

Where are fats digested?

Answer 2

Carbs- Starting in the mouth and then continuing in the SI (proximal duodenum)

Proteins- Stomach (pepsin and HCl) and duodenum

Fats- little in the mouth and stomach but mostly in the SI (lipase and bile salts)

Question 3

Fat sol vitamins=

Water sol vitamins=

Answer 3

D,E,A,K

B,C

Question 4

What’s absorbed in the large intestine?

Answer 4

Water (because it follows sodium which is also absorbed)

Also certain vitamins produced by colonic bacteria (Vit K, Vit B12, Vit B1 [thiamine], and Vit B2 [riboflavin])

Question 5

Relationship between motility and absorption=

Answer 5

inverse (decreasing motility leads to greater absorption)

Question 6

Major hormones of digestion…

Cholecystokinin:

Gastrin:

Secretin:

Somatostatin:

Substance P:

VIP:

Answer 6

CCK: increases enzyme secretion and contraction

Gastrin: (acts on G cells in stomach) increases H+ secretion

Secretin: (acts on S cells in SI) increases bicarb secretion and decreases gastric acid secretion

Somatostatin: decreases all secretion (gastrin, fluid, bile) and increases contractions and fluid absorption

VIP: increase contractions, increase secretions in SI and pancreas

Question 7

Consequences of malabsorption on GIT:

with extra info to read

Answer 7

Diarrhoea
- Impaired carb and electrolyte absorption (osmotic diarrhoea)

• Unabsorbed fats lead to irritation of mucosa
• Pale, bulky, frequent stools with foul odour

Question 8

What are the macronutrients broken down into?

Carbs: (3 with examples)

Protein: 2

Fat: 2

Answer 8

Carbs: polysaccharides (starch/ fibre), oligosaccharides, disaccharides (sucrose, lactose, maltose), monosaccharides (glucose, fructose, galactose)

Protein: peptides, AA

Fat: glycerol and fatty acids

Question 9

Consequences of inadequate carb intake=

Answer 9

carb= tissue wasting, metabolic acidosis (from excessive fat use for energy)

Question 10

What are essential fatty acids?

What are the 2 main examples?

Answer 10

They can not be synthesized so must get them from diet (they are all polyunsaturated fats- multiple double bonds/inks)

Linoleic acid (omega 6 FA) and linolenic (omega 3 FA)

Question 11

Consequences of inadequate fat intake= 2

Consequences of inadequate essential FA intake=

Answer 11

weight loss and heat loss

poor growth, skin lesions (eczema like) and depression

Question 12

Consequences of inadequate protein intake=

Answer 12

Major weight loss, tissue wasting, growth retardation in children, anemia, oedema (due to deficits of plasma proteins)

*during preg= miscarriage or premature birth

Question 13

Childhood protein-energy malnutrition

• What is Marasmus?
• What is Kwashiorkor?

Answer 13

Marasmus= wasting due to inadequate energy intake in all forms (proteins, carbs, fat), cachexia

Kwarshiorkor= protein starvation (big swollen belly-oedema) also muscle wasting and infections, skin pigmentation, heart failure

Question 14

What are coenzymes?

Answer 14

They are organic (non-protein) compounds that activate their specific enzymes

Question 15

What are the consequences of folate deficiency?

Answer 15

Anemia (because need folate for red blood cell division- deficient folate= megaloblastic anaemia), GI problems, spina bifida and neural tube defect risk in babies

Question 16

What are the consequences of Vit B12 deficiency?

Where do you get it from?

Answer 16

megaloblastic anaemia (because required for formation of RBCs), degeneration of spinal cord, GI (glossitis, angular stomatitis, jaundice)

Animal products and anaerobic bacteria in gut

Question 17

Consequences of vit C deficiency?

Answer 17

Scurvy (degeneration of skin, teeth, blood vessels- vit c is critical cofactor in collagen formation and without collagen= scurvy), weakness, delayed wound healing, impaired immunity, GI upset, kidney stone formation, gout

Question 18

Consequences of vit A deficiency?

Answer 18

Night blindness, dry/ scaling skin, reproductive failure, increased infection (because immune disruption)

Question 19

Vitamin D deficiency

Answer 19

Rickets (bone deformities) in kids, (osteomalacia) bone softening in adults, poor muscle tone, joint pain, more infections, cancer risk

Question 20

Iron deficiency

Answer 20

anaemia, weakness, impaired immunity

Question 21

Iodine deficiency

Answer 21

Goiter (enlarged thyroid), hypothyroidism (iodine essential for production of thyroid hormone)

Question 22

Digestion of starch polysaccharides

First:

Halted:

2nd:

Last:

Answer 22

First salivary amylase- polysaccharides into short polysaccharides

Then amylase is inactivated by acid in stomach

Pancreatic amylase- digests polysaccharides into oligosaccharides (3-6 monosaccharides)

Small intstine- Oligosaccharides hydrolysed by disaccharidases into simple sugars

Question 23

Glucose transport from intestinal lumen to inside intestinal cell to blood

What is the type of transporter that takes glucose from lumen into cell?

Answer 23

Lumen-> Cell= Symport (seconday active transport), the Na+ glucose cotransporter brings 2 Na and 1 glucose into the cell
(uses energy from electrochemical gradient of Na to transport glucose into cell against conc gradient)

Cell-> Blood= Uniport (facilitated diffusion)
(follows conc gradient (high to low) so no energy required)

Question 24

Where are galactose ad fructose (both monosaccharides) converted to glucose?

Answer 24

Liver

Question 25

Where does digestion of proteins begin? (how)

What are the pancreatic and intestinal enzymes in the SI that break down protein? (what do they do?)

Answer 25

Stomach (HCl denatures [uncoils] protein and Pepsin cleaves protein into smaller polypeptides)

Peptidases (cleave small polypeptides into AA, dipeptides and tripeptides)

Question 26

AA absorption in the small intestine…

Into cell from lumen=

Into blood from cell=

How are peptides absorbed in SI?

Answer 26

(same as glucose)

Symport (secondary active transport) brings Na and AA into cell (uses conc gradient of Na)

Uniport (facilitated diffusion) exports AA from cell into blood (down AA conc grad so no energy required)

Peptides: (Has to be 4 AA or less to be absorbed and then converted to AA by peptidses inside cell)

• Get into cell from lumen via secondary active transport (co transport with H+, brings 1 H+ and 1 peptide inside cell)
• When converted to AA in cell, it leave cell and goes into blood via the uniport (facilitated diffusion)

Question 27

Digestion of lipids…

Mouth:

Stomach:

SI:

Answer 27

Mouth: little bit from lipase
Stomach: little bit from lipase

SI: arival of lipids in duodenum promotes bile secretion from the gall bladder, this allows pancreatic and SI lipases to hydrolyze triglycerides into free FAs and monoglycerides (1 glycerol linked to 1 FA)

Question 28

Process of triglycerides in lumen to chylomicrons in lymph:

Answer 28

Triglycerides–> bile salts and lipase convert TGs to FAs and monoglycerides

FAs and MGs enter cell and form triglycerides again

These triglycerides combine with cholesterol and apolipoproteins to form chylomicrons, which enter lymph

Question 29

What is a chylomicron?

Answer 29

Biggest lipoprotein with the lowest density (due to high triglyceride count and low protein count)

Question 30

Order of time it takes to digest proteins, fats and carbs:

Answer 30

Carbs are usually quickest to digest, followed by proteins and fat takes the longest

Question 31

Absorption of fat sol vs water sol vitamins

Fat sol:

• what are they
• how are they absorbed

Water sol:

Answer 31

Fat sol:

• D,E,A,K
• require lipids in diet to be absorbed, carried by micelles, once in cell, packaged into chylomicrons and get into lymph and then blood

Water sol:

• B and C
• absorbed in the upper part of the SI (diffusion) directly into blood (except B12 because it is large and charged)

Question 32

Absorption of B12:

Answer 32

Vit B12 binds to intrinsic factor (released by stomach parietal cells), forming a complex that resists digestion by GIT enzymes

Vit B12 intrinsic factor complex is absorbed (endocytosis) at the terminal ileum

Vit B12 transported around body by transcobalamin II

Stored mainly in liver (2-5 mg, 3 yrs)

Question 33

Role of vit D in absorption of calcium in small intestine

Answer 33

Vit D (calcitriol) promotes synthesis of calbindin (Ca carrier protein) and Ca channels and extrusion pumps (active transport of calcium out of cell into blood)

Question 34

Where in the SI is iron absorbed and by what cells

What form is the iron absorbed in?

What is the intracellular iron storage protein?

Answer 34

Duodenum
SI mucosal cells

ferrous Fe form

Ferritin

Question 35

What is the difference between Autoimmunity vs Allergy?

Answer 35

Autoimmunity= results from an exaggerated (hypersensitive) response to ‘self’ antigen

Allergy= results from exaggerated (hypersensitive) response to harmless food allergen/ antigen

Question 36

Define food allergy vs food intolerance…

Answer 36

Food allergy= occurs when an immune response is activated by otherwise harmless food antigen/ allergen

Food intolerance (non-allergic hypersensitivity)= occurs when the body has a non-immune response to eating a particular food or drink (does not cause anaphylaxis) 
- not detected by allergy testing

Question 37

Difference between lactose intolerance and milk allergy…

Answer 37

Lactose intolerance= non-immune response to lactase (a sensitivity)

Milk allergy= immune response to milk protein (allergy)

Question 38

How does food allergy occur?

milk protein allergy

Answer 38

Food allergens contact the intestinal mucosa (normally processed by GALT tissue and no allergy occurs) and if there are weakened tight junctions between epithelial cells, the allergen bypasses GALT tissue and leads to loss of tolerance, immune activation and ongoing tissue damage

(tight junctions are weakened by imaturity [babies], alcohol ingestion and inflammation in the gut epithelium from infection etc)

Question 39

How does lactose intolerance occur?

Answer 39

If someone doesn’t have lactase, they can’t convert lactose into glucose and galactose so it travels further down the intestine and pulls water into the lumen (osmosis) and arrives in the large intestine still as lactose so colonic microbes try and break it down, producing FAs and gas (causes bloating, abdominal pain and gas)

Question 40

What are DAMPs and what are PAMPs?

Answer 40

DAMPs= damage associated molecular patterns (tissue damage [penetrating trauma, blunt trauma, thermal injury and tissue damage] causes DAMPs to be released which triggers inflammatory response

PAMPs= infection triggers immune response when PAMPs are released

Question 41

How does the immune system cause tissue damage?

DAMPs and PAMPs:

Pathogens:

Answer 41

DAMPs and PAMPs activate cells (complement–> neutrophils and monocytes) which activate pro-inflammatory cytokines

Pathogens cause tissue damage by direct mechanisms (endo/exotoxins and direct cytopathic effect) and indirect mechanisms (immune complexes, anti-host antibodyand cell-mediated immunity)

Question 42

How does Coeliac Disease occur?

Answer 42

When gluten is partially digested, it forms gliadin, gliadin absorbed across mucosa, gliadin cross-links with tissue transglutaminase and this complex is detected as being antigenic, CD4 T cells are activated and anti transglutaminase antibodies (IgG) are formed

Immune reaction causes an inflammatory process, the mucosal villi become blunt/ flattered leading to malabsorption

Question 43

What type of disease is Coeliac Disease?

Answer 43

TH1 Autoimmune disease (does NOT involve IgE or allergic response)

Question 44

Definition of autoimmunity:

Answer 44

A misdirected immune response against host tissue

• Complex interaction between genetic susceptibility and environmental exposure (triggers)

Question 45

Where are T cells ‘educated’?

Answer 45

Thymocytes (T cells) are positively and negatively (destroyed) selected in the thymus

-Negative T cells are those which strongly bind to MHC+ self peptides and are likely to trigger an autoimmune response

Question 46

What is anergy?

Answer 46

Absence of the normal immune response without killing the immune cell (just inactivates it)

Question 47

What does central tolerance do (B cells)

What does peripheral tolerance do (B cells)

Answer 47

Removes B cells that react to self antigens (receptor editing or decreased receptor expression and signalling [anergy] or apoptosis)

‘Somatic hypermutation’ which modifies their antigen receptor, also B cells that bind to self antigen are removed by apoptosis

Question 48

What is the hygiene hypothesis?

Answer 48

States that the lack of early childhood exposure to

• Infectious agents
• Symbiotic microorganisms (such as gut microbes or probiotics)

Increases susceptibility to allergic and autoimmune diseases by interfering with the natural development of the immune system