Unit 6 Feeding and DIgestion

Question 1

What are the Major Nutrient Molecules

Answer 1

water, proteins/amino acids, lipids, carbohydrates

Question 2

Vitamins

Answer 2

• participate in catalysis
• solubility affect mode of uptake and potential toxicit
• some obtained from symbiotic bacteria (vitamin C, K, B12)
• Coprophagy - improves vitamin uptake

Question 3

Essential Amino Acids

Answer 3

• eight of them
• must come from diet
• during starvation, protien comes from muscles

Question 4

Lipids

Answer 4

• essential for membrane production
• animals cant produce omega-3 or omega 6
• must come from diet

Question 5

steps of eating and digestion

Answer 5

• nutrient sensing
• mechanical digestion
• chemical processing
• egestion

Question 6

The breakdown of energy

Answer 6

gross energy —-> indigestible energy (feces)

• digestible energy —–> unetabolizable energy (urine)
• -Metabolizable energy—> heat
• —net energy

Question 7

Acquiring food

Answer 7

sensing- prey with Gustatory receptors, energy emitted as heat or light

• lateral line
• electromagnetic receptors

small partibles- filter feeding
large particles - chewing, capture and swallow
fluids and soft tissues- nectal, blood, milk and milk like secretions

Question 8

Filter feeding

Answer 8

• Planktivorous fishes - filter water over fills and sieve out the flanction
• some frogs use mucous covered fileter plates on gills to entrap particles

Question 9

Fluid feeding

Answer 9

• sucking (baby)

- cutting and licking (lamprey + vampire bat)

Question 10

Solid feeding

Answer 10

• teeth, beaks, great variety

- carnivores, herbivores, omnivores

Question 11

Solid feeding- teeth types

Answer 11

• usually undifferentiated in non-mammalian vertebrates (homodonts) - sharks, fish, amphibians, reptiles
• venemous snakes have specialized fangs to inject venom and elastic ligaments which allow their jaws to stretch
• mammalian teeth are very specialized (incisors, canines, and molars) (heterodonts)

Question 12

3 basic types of Alimentary sytems

Answer 12

Batch reactors (hydra) 
Continuous-flow, stirred tank reactors (ruminants forestomach) 
Plug-flow reactors (human small instestine)- composition varies along the tube

Question 13

Essential parts of the Alimentary system

Answer 13

1. Headgut- mouth, buccal cavity, pharynx
   - –receiving food
2. Foregut - esophagus, stomach
   - —food conduction, storage and digestion
3. Midgut - small intestine
   - ——chemical digestion, absorption
4. Hindgut - colon, rectum
   - —water/ion absorption, defecation

Question 14

Headgut

Answer 14

• salivary glands (mucins-lubrication, digestive enzymes)
• mastication: teeth, beak etc.
• tongue (unique to vertebrates)

Question 15

taste buds

Answer 15

figure 7-16

Question 16

Foregut

Answer 16

Esophagus - gizzard (some birds, some fish), crop (some birds)

• stomach - cellular level view
• –monogastric (carnivores, omnivores)
• –digastric (ruminants)

Question 17

Gastric Pit

Answer 17

mucous neck cells ----mucus
cheif cells --------Pepsin
parietal cells -----HCl
G-cell-------Gastrin 
-low pH is optimal for gastric enzymes 

Men can pass gass, men pass Hot gas

Question 18

Platypus and gastric brooding frog

Answer 18

-do not have low pH

Question 19

Monogastric stomach

Answer 19

• pylorospasm and pyloric stenosis -infants
• gastroesophageal Reflux - Hcl irritates wall
• —avoid foods that stimulate stomach acid or relax sphincter

Question 20

Ruminant Stomachs

Answer 20

esophagus—rumen—reticulum—–omasum—Abomasum—small intestine

Question 21

Other examples of Foregut Fermenters

Answer 21

Kangaroo, sloth, colombus monkey

Question 22

MIdgut

Answer 22

• most nutrient absorption occurs here

- duodenum (secretions), jejunum (secretions and absorption, ileum (absorption)

Question 23

Anatomy of intestinal epithelium

Answer 23

• longitudinal smooth muscle
• circular smooth muscle
• epithelial layer: submucosa, mucosa
• villi
• microvilli
• tight junctions and desmosomes
• hormones and antimicrobial stem cells

Question 24

HIndgut

Answer 24

• storage of undigested food, absorption of water, ions

- major site for bacterial digestion in herbivorous reptiles, birds, most herbivorous mammals

Question 25

two types of hindgut fermenters

Answer 25

• colon fermenters: horses, zebras, tapirs, sirenians, elephants, rhinos, marsupial wombats
• cecal fermenters: rabbits, many rodents, hydraxes, howler monkeys, koalas, opossums
• terminates in rectum or cloaca

Question 26

What is the largest exocrine and endocrine gland in the body

Answer 26

the gut

Question 27

Two important layers in the gut secretion

Answer 27

-myenteric plexus, submucous plexus

Question 28

Endocrine and Exocrine glands

Answer 28

• exocrine glands- secretes fluids through a duct onto an epithelial surface
• endocrine glands secrete substances (hormones) direction into the blood

Question 29

What are three exocrine secretions

Answer 29

1. Water and electrolytes
2. Bile and Bile salts
3. Digestive Enzymes

Question 30

Overview of Exocrine secretions

Answer 30

• review slide on powerpoint

Question 31

Water and Electrolyte secretions

Answer 31

• ~95% of GI secretions are water and mucus
• thin slippery mucus- lubricates, protects the lining of the gut
• primary secretions enter in the acinar lumen (end of an exocrine gland)
• –modifications in the duct produce the final secretory juice composed of water, ions mucus and enzymes

Question 32

Acinar cells

Answer 32

• primary secretions from capaillaries around acinar cells

- secondary modification in ducts

Question 33

The liver produces

Answer 33

• bile (water, cholesterol, lecithin, inorganic salts)
• bile salts (organic salts derived from Cholesterol)
• bile pigments (from hemoglobin breakdown)

Question 34

Bile travel pathway

Answer 34

-through the hepatic duct to the gallbladder where it is stored

Question 35

Function of Bile

Answer 35

• neutralization of acidic gastric juices
• facilitation of digestion of fats by breaking them down into small droplets (emulsification)
• dispersion of lipid-soluble vitamins for transport int he blood
• removal of waste substances from the liver, (hemoglobin pigments, cholesterol, steroids, hydrophobic drugs.

Question 36

Hyperbilirubinemia

Answer 36

• increased bilirubin in blood (frome heme catabolism)
• Jaundice
• normaly excreted in urine (yellow) and feces (brown)
• causes yellow color of bruises
• Treatment? broken down by blue light

Question 37

Digestive enzymes

Answer 37

• hydrolysis of polymeric food molecules

- proenzymes (zymogens): inactive form of enzymes which are cleaved to produce active forms

Question 38

Proteases

Answer 38

• endopeptidases, exopeptidases (highly specific enzymes)
• pepsin (stomach))
• tripsin and chymotrypsin (released from pancrease to SI

Question 39

Carbohydrases

Answer 39

• amylases- salivary glands, duodenum
• polysaccharidases
• glycosidases
• cellulase- duodum

Question 40

Lipases

Answer 40

• degrade lipids into fatty acids plus mono and di-glycerides
• fat digesion: 3 steps
• -emulsification
• -formation of micelles
• -digestion by lipases

Question 41

other types of digestive enzymes

Answer 41

-nucleases, nucleotidases, nucleosidases, esterases

Question 42

what is the primary stimulus for secretion of digestive enzymes

Answer 42

• presence of food molecules
• triggers chemoreceptors along the GI tract
• cephalic influences also stimulate sectretions

Question 43

Secretion differences in the mouth, stomach and intestines (control and speed)

Answer 43

• mouth = neuronal = fast
• stomach = neuronal and hormonal = medium
• Intestine = hormonal = slow

Question 44

What are the salivary secretions?

Answer 44

-water, electrolytes, mucin, amylase, anitmicrobial agents (lysozyme, thiocyanate)

Question 45

what controls salivary secretions

Answer 45

• cholinergic parasympathetic control

- suppression of secretion cause by sympathetic innervation

Question 46

what are the three gastric secretions

Answer 46

1. HCL
2. Pepsin
3. Gastric Mucus

Question 47

Hcl secretion in the gastic intestinal tract

Answer 47

• produced by teh parietal cells of the gastric pits
• stimulated by parasympatheitc activity in the vagus nerve, gastrin, secretagogues in food
• alkaline tide may occur in blood pH after a large meal due to loss of H+ to gastric secretions

Question 48

Pepsin secretion in the gastric intestinal tract

Answer 48

• endopeptidase with several gastric variants
• produces as pepsinogen by chief (zygomatic) cells
• under parasympathetic control of gastric branch of vafus nerve and hormone gastrin

Question 49

Gastric mucus secretion

Answer 49

• protects gastric epithelium from digestion and from high acidity
• trapped electrolytes help to neutralize gastric acid
• from the goblet cells (mucous neck cells)

Question 50

What are the three gastric secretion phases

Answer 50

1. Cephalic Phase
2. Gastric phase
3. Intestinal phase

Question 51

1. Cephalic phase of gastric secretion

Answer 51

-secretion in response to sight, smell or taste of food or to conditioned reflex

Question 52

2. Gastric phase of gastric secrtion

Answer 52

• secretion of Hcl and pepsin in response to food in the stomach
• mediated by gastrine (endocrine) and histamine (paracine) which bind receptors on parietal cells
• gastrin is secreted by pyloric mucosa in response to protein-contaning chyme and stomach distention; it also stimulates stomach motility

Question 53

3. Intestinal phase of gastric secretions

Answer 53

• controled by enteric gastrin (inresponse to partially digested proteins in duodunum), vasoactive intestinal protien (VIP) and gastric inhibitory peptide (GIP) in response to fats, sugars in duodenum

Question 54

Intenstinal and pancreatic Secretion

Answer 54

• small intestin: succus entericu
• -bunner’s glands- secrete alkaline mucus
• -crypts of lieberkuhn- secrete enzyme-rich alkaloid fluid

Question 55

What controls the pancrease and its secretion

Answer 55

-peptide hormones from the upper intestine
-endocrine secriton: insulen
exocrine secretions: many numerous secrtion

Question 56

What enzymes does the large intestine secrete

Answer 56

-none

Question 57

Absorption pathway

Answer 57

-gut lumen–epithelial cell: apical surface -cytosol –basal surface– blood or lymphde

Question 58

5 types of nutrient uptakes in the intestine

Answer 58

• simple diffusion
• facilitated diffusion
• active transport
• chylomicrons into central lacteal
• endocytosis

Question 59

feeding enzymes (review slides_

Answer 59

• GLUT 2, SCLT ect

Question 60

lipid transport in the body

Answer 60

-di/triglyceride surrondd by lipase –> micelle
micelle migrate to brush border and release their contents— triglycerides reassemble in smooth endoplasmic reticulum - exocytosis or chlomicron into the central lacteal

Question 61

Nutrient Transport in the Blood

Answer 61

• through central lacteal (80% of chylomicrons)
• into capillaries which then drain to hepatic portal vein and travel to liver where glucose is converted to glycogen for storage

Question 62

What occurs during fasting

Answer 62

1. use up glycogen storage (hours)
2. Catabolism of triglycerides and structural proteins (weeks)
3. Gluconeogenesis, ketogenesis (weeks)

Day 2- blood-glucose stabilized, fatty acids 4X, ketones 100-300X

day 40 - ketones supply 2/3 of brain’s energy needs

Question 63

Hibernation

Answer 63

• metabolic rates lowered (only replace protein structures)

- bears recycle urea nitrogen back into animo acids

Question 64

Aerophagia

Answer 64

(burping)
Caused by excess air in the stomach or gases created by digestion
-relazation of the lower esophageal sphincter
—vents gastric air

Question 65

Colon Canger

Answer 65

• develos in the cells lining the colon and/or rectum
• people who have a diet righ in fat and read meat are at a greater risk
• easy to treat but symptoms don’t manifest until later

Question 66

Crohn’s Disease

Answer 66

• inflammatory bowel disease, characterized by abdominal pain, diarrhea and weight loss
• immune related disease in which the body’s immune system attacks the GI tract, possibly directed as microbial antigens
• large part of the risk is genetics as well as smoking an stress

Question 67

Diarrhea

Answer 67

• osmotic diarrhea = excessive solutes in the lumen of the intestine prevents absorption of water
• secretory diarrhea - water secreted in the small intestine is not reabsorbed
• inflammatory and infectious = micobial or viral pathogens destroy intestine epithelial cells
• results do include bloody diarrhea and lower water reabsorption

Question 68

Diverticulitis

Answer 68

• outpockets along the wall of the colon
• they become inflamed due to infection from waste blockage and bacteria build up
• symptoms= cramps and abdominal pain, chills or fever and alternating diarrhea and constipation

Question 69

Gallstones

Answer 69

• hard crystalline masses that form int he gall bladder or bile ducts
• form when there is an imbalance in the substances that make bile
• symptoms= pain in upper abdomen and back, nauseau, vomiting bloating and indigestion

Question 70

Gas

Answer 70

-bloating (small bowel bacteria overgrowth)

by large amount of bacterial growth within the small intestine which use up nutrients that would otherwise be absorbed causing malnourishment.

conditions causing this= crohns disease
diabetes and scleroderma

treatment = antibiotics, drugs that speed intestinal movement

Question 71

Heart burn (acid indigestion)

Answer 71

-the burning senstion (irritation) of teh esophagus caused by stomach acid

caused by = the lower esophageal sphinctor does not tight as it shood from:

• —too much food in the stomach
• —too much pressure on the stomach (obesity, pregnancy, constipation)

as a result, food and digestive juices from the stomach flow backward up into the esophagus

Question 72

Jaundice

Answer 72

-bilirubin–> bile pigment in fat layer under the skin
-normally involved in the breakdown of red blood cells
abnormal= disruption of the meabolism in livier or excretion–> bilirubin build-up
from:
1. liver damage
2. gallbladder blockage
3. Rapid destruction of RBC’s

Question 73

Pyloral Spasms

Answer 73

• pyloric stenosis is a narrowing of the opening in the stomach leading to the small intestine - the muscle surronding the opening is enlarged
• when the stomach empties into the small intestine the muscle spasm, causing projectile vomitting

Question 74

Vomiting

Answer 74

• controled by the bilateral vomitting centers with are located in the medulla
• recives signals from 4 major sources
  1. CTZ
  2. visceral afferents from the GI tract
  3. Visceral afferents from outside the GI tract
  4. Afferents from extramedullary centers in the brain