Intestines

Question 1

What role does the small intestine play in digestion?

Answer 1

Chemical digestion of food and absorption of products of digestion

Question 2

What role does the small intestine play in digestion?

Answer 2

Chemical digestion of food and absorption of products of digestion

Question 3

The small intestine is divided into:

Answer 3

• Duodenum - shortest segment, 25 cm long
• Jejunum - 2.5 cm long
• Ileum - 3.5 cm long

Question 4

What are the four layers of the digestive tract?

Answer 4

1. Mucosa
2. Submucosa
3. Muscularis externa
4. Serosa

Question 5

The mucosa of the small intestine has special features that serve to:

Answer 5

Increase the surface area available for digestion and absorption

Question 6

The surface area of the small intestine is increased by: (2)

Answer 6

1. Plicae circulares

2. Villi

Question 7

What is the plicae circulares?

Answer 7

Valves of Kerckring - permanent submucosal folds. Since the submucosa folds, the overlying mucosa also folds and increases the epithelial surface area

Question 8

What are villi?

Answer 8

Finger-like mucosal folds that project into the lumen. This is characteristic of the small intestine only to increase the surface area.

Question 9

How do you distinguish between villi and microvilli?

Answer 9

Microvilli are cytoplasmic projections of individual cells

Question 10

Describe the mucosa of the small intestine:

Answer 10

1. Characterized by villi - which are covered by simple columnar epithelium containing primarily ENTEROCYTES (absorptive cells). Underlying the epithelium is the lamina propria
2. Also has intestinal glands - CRYPTS OF LIEBERKUHN - simple tubular glands that open at the base of the villi and empty into the lumen.

Question 11

The Crypts of Lieberkuhn extend thru the lamina propria to the:

Answer 11

Muscularis mucosae

Question 12

Describe the lamina propria of the small intestine:

Answer 12

• Delicate CT that forms the core of the villus and surrounds the glands
• Contains blood and lymphatic vessels
• Capillary network right under the epithelium
• Has a central lacteal
• Lymphatic infiltration is common

Question 13

What is the central lacteal?

Answer 13

A lymphatic vessel: blind-ending vessel that begins near the tip of the villus, runs thru the central core of the villus, and drains to a plexus in the lamina propria and submucosa

Question 14

Describe the lymphatic infiltration of the lamina propria:

Answer 14

It can be diffuse or nodular. This is part of the gult-associated lymphatic tissue (GALT) which is found throughout the entire GI tract

Question 15

Where is the muscularis mucosae?

Answer 15

Thin layer deep to the glands

Question 16

Describe the submocosa:

Answer 16

• Coarse collagenous CT (dense irregular)

Question 17

The small intestine is divided into:

Answer 17

• Duodenum - shortest segment, 25 cm long
• Jejunum - 2.5 cm long
• Ileum - 3.5 cm long

Question 18

What are the four layers of the digestive tract?

Answer 18

1. Mucosa
2. Submucosa
3. Muscularis externa
4. Serosa

Question 19

The mucosa of the small intestine has special features that serve to:

Answer 19

Increase the surface area available for digestion and absorption

Question 20

The surface area of the small intestine is increased by: (2)

Answer 20

1. Plicae circulares

2. Villi

Question 21

What is the plicae circulares?

Answer 21

Valves of Kerckring - permanent submucosal folds. Since the submucosa folds, the overlying mucosa also folds and increases the epithelial surface area

Question 22

What are villi?

Answer 22

Finger-like mucosal folds that project into the lumen. This is characteristic of the small intestine only to increase the surface area.

Question 23

How do you distinguish between villi and microvilli?

Answer 23

Microvilli are cytoplasmic projections of individual cells

Question 24

Describe the mucosa of the small intestine:

Answer 24

1. Characterized by villi - which are covered by simple columnar epithelium containing primarily ENTEROCYTES (absorptive cells). Underlying the epithelium is the lamina propria
2. Also has intestinal glands - CRYPTS OF LIEBERKUHN - simple tubular glands that open at the base of the villi and empty into the lumen.

Question 25

The Crypts of Lieberkuhn extend thru the lamina propria to the:

Answer 25

Muscularis mucosae

Question 26

Describe the lamina propria of the small intestine:

Answer 26

• Delicate CT that forms the core of the villus and surrounds the glands
• Contains blood and lymphatic vessels
• Capillary network right under the epithelium
• Has a central lacteal
• Lymphatic infiltration is common

Question 27

What is the central lacteal?

Answer 27

A lymphatic vessel: blind-ending vessel that begins near the tip of the villus, runs thru the central core of the villus, and drains to a plexus in the lamina propria and submucosa

Question 28

Describe the lymphatic infiltration of the lamina propria:

Answer 28

It can be diffuse or nodular. This is part of the gult-associated lymphatic tissue (GALT) which is found throughout the entire GI tract

Question 29

Where is the muscularis mucosae?

Answer 29

Thin layer deep to the glands

Question 30

Describe the submocosa:

Answer 30

• Coarse collagenous CT (dense irregular)
• Ganglion cells of submucosal (Meissner’s) plexus may be present
• Submucosal glands in DUODENUM ONLY - Brunner’s glands

Question 31

What are Brunner’s glands?

Answer 31

They are present in the duodenum, branched tubular glands that produce an alkaline mucus, buffering the acidic chyme entering from the stomach.

Question 32

What do Brunner’s glands empty into?

Answer 32

Crypts of Lieberkuhn

Question 33

Describe the muscularis externa of the small intestine?

Answer 33

• Two layers of smooth muscle - inner circular and outer longitudinal
• Ganglion cells of the myenteric plexus between the smooth muscle layers

Question 34

Contraction of the INNER layer of smooth muscle results in:

Answer 34

Segmentation

Question 35

Contraction of the OUTER layer of smooth muscle results in:

Answer 35

Peristalsis

Question 36

Describe the serosa:

Answer 36

When covered by peritoneal epithelium

Question 37

What are the different types of cells in the epithelium? (5)

Answer 37

1. Enterocytes - absorptive cells
2. Goblet cells - mucus
3. Enteroendocrine cell - hormones: gastrin, secretin, serotonin
4. Immature enterocyte - secretory IgA
5. Undifferentiated stem cell

Question 38

What are enterocytes?

Answer 38

• Columnar absorptive cells
• Primary cell type covering the villi
• Replaced every 5-6 days
• Tall, regualr microvilli at apical surface of cells greatly increased the surface area for absorption

Question 39

What are enterocytes replaced by?

Answer 39

Undifferentiated cells in the crypt of Lieberkuhn

Question 40

In LM sections, they are visible as:

Answer 40

The striated border

Question 41

In TEM section, they can be identified as:

Answer 41

Absorptive microvilli

Question 42

What are actin microfilaments within these microvilli bundled by?

Answer 42

Fimbrin and Villin

Question 43

How are the actin filaments linked to the plasma membrane?

Answer 43

By myosin I and calmodulin

Question 44

How do microfilaments interact within the terminal web?

Answer 44

With a spectrin isoform that connects them to intermediate filaments (cytokeratins)

Question 45

Microvilli are covered with a glycocalyx surface coat that contains enzymes including:

Answer 45

Oligosaccharidases, disaccharidases, and pepitdases

Question 46

Where are the junctional complexes?

Answer 46

They form a tight seal near the apical margin

Question 47

What is the function of enterocytes?

Answer 47

1. Uptake of ions
2. Uptake of sugars
3. Uptake of peptides and amino acids
4. Uptake of lipids
5. Uptake of vitamin B12
6. Recycling of unconjugated bile salts
7. Absorption of water
8. Release of secretory IgA at the luminal surface

Question 48

Describe the uptake of sugar by the enterocytes:

Answer 48

The plasma membrane of microvilli is covered with a glycocalyx surface coat, which includes enzymes such as oligosaccharidases and dissaccharidases (lactase, maltase, sucrase) for terminal digestion of carbohydrates

Question 49

What happens to the monosaccharides?

Answer 49

They are then absorbed by active transport and move to the basal membrane where they are exported by other transporters

Question 50

What is the cause of lactose intolerance?

Answer 50

A genetic defect in lactase

Question 51

Describe the uptake of peptides and amino acids by the enterocytes:

Answer 51

ENTEROKINASE which is an enzyme present in the glycocalyx of the apicl (microvilli) membrane - this activates trypsinogen (from the pancreas) to form trypsin

Question 52

What does trypsin do?

Answer 52

Activates other pancreatic enzymes –> these enzymes cleave proteins to amino acids or very small peptides that can be transported into and then out of enterocytes

Question 53

Describe the uptake of lipids:

Answer 53

In the intestinal lumen, lipids are broken down by pancreatic lipase in the presence of bile salts to free fatty acids and monoglycerides, which then diffuse into the enterocytes

Question 54

What is the role of sER in the uptake of lipids?

Answer 54

It resynthesizes triglycerides and then transfers them to Golgi complexes for further processing and incorporation into vesicles with protein componenets - CHYLOMICRONS

Question 55

What happens to the chylomicra?

Answer 55

They migrate to the lateral margin where they are released by exocytosis into the intercellular space –> they then move toward lymphatic vessels (lacteals) in the center of the villus

Question 56

Describe the uptake of vitamin B12 by the enterocytes:

Answer 56

Gastric intrinsic factor (IF) is produced by PARIETAL CELLS in gastric glands in the body of the stomach –> IF binds to B12 in intestinal lumen and then this complex can be taken up by the enterocyte

Question 57

What happens to vitamin B12 within the enterocyte?

Answer 57

It is liberated and transported across the basal membrane into a capillary

Question 58

What is vitamin B12 necessary for?

Answer 58

RBC production

Question 59

What happens to the recycled unconjugated bile salts?

Answer 59

They are returned to liver hepatocytes

Question 60

Describe the absorption of water by the enterocytes:

Answer 60

Na+-K+ ATPase in the lateral plasma membranes moves Na+ ions into the intercellular spaces and water follow. During active absorption, lateral plications separate, enlarging the space

Question 61

Describe the release of secretory IgA at the luminal surface:

Answer 61

IgA is synthesized by plasma cells in the lamina propria as a dimer –> taken up by receptor-mediated endocytosis at the basal surface of enterocytes –> IgA-receptor complex is transported up through the cell –> then released at the apical margin with the stabilizing portion of the receptor still attached

Question 62

What is special about secretory IgA?

Answer 62

It is less easily degraded within the intestinal lumen

Question 63

What are goblet cells and what is their function in the small intestine?

Answer 63

Unicellular exocrine glands, the apical cytoplasm packed with coalescing glycoprotein mucinogen granules that are released to form a coat of mucus.

Question 64

What are enteroendocrine cells?

Answer 64

They contain basal granules that are released into the underlying CT. They make up 1% of the cell population. There are more than a dozen types of enteroendocrine cells throughout the digestive tract

Question 65

What are the 4 types of enteroendocrine cells and what organs do they impact?

Answer 65

1. Cholecystokinin (CCK)
2. Gastric inhibitory peptide (GIP)
3. Secretin
4. Motilin

Impacts the stomach, intestines, pancreas, or gallbladder

Question 66

What is CCK’s function?

Answer 66

Responds to lipid content, stimulates the gallbladder contraction and pancreatic enzyme secretion

Question 67

What is the function of gastric inhibitory peptide?

Answer 67

It inhibits gastric secretion from gastric glands

Question 68

What is the function of secretin?

Answer 68

It is released in duodenum in response to input of HCl from the stomach, inhibits gastric acid secretion and causes pancreatic ducts to release bicarbonate ion (buffer)

Question 69

What is the function of motilin?

Answer 69

Stimulates gastrointestinal motility

Question 70

What are the cells in the intestinal glands (Crypts of Lieberkuhn)? (5)

Answer 70

1. Immature enterocytes
2. Goblet cells
3. Enteroendocrine cells
4. Paneth cells
5. Undifferentiated stem cells

Question 71

What are paneth cells?

Answer 71

They are located in the base of glands and contain prominent acidophilic granules. The products are lysozyme, which degrades bacterial surface coats, and defensins which increase membrane permeability of parasites and bacteria

Question 72

What are the undifferentiated stem cells?

Answer 72

They are precursors of other cells. The cells undergo mitosis within the glands, then migrate toward an extrusion zone at tips of villi.

Question 73

How often do the undifferentiated stem cells replace epithelium?

Answer 73

5-6 days.

Question 74

Which cells are replaced more slowly?

Answer 74

Paneth cells and Enteroendocrine cells

Question 75

What is gut-associated lymphatic tissue (GALT)?

Answer 75

Lymphatic infiltration is common in small intestine and may be diffuse or nodular. This is part of GALT, which is found throughout the entire GI tract

Question 76

Describe the lymphoid elements in CT of lamina propria and/or submucosa:

Answer 76

• Lymphatic nodules with B cells and macrophages
• Diffuse lymphatic tissue
• In cooperation with T cells, B lymphocytes differentiate into plasma cells which setlle down in the GI tract or elsewhere to produce an antibody response

Question 77

What is nodular GALT and what makes up the epithelium?

Answer 77

It is follicular and covered by a specialized epithelium and has:

• M (microfold) cells: flattened cells with short apical folds of the plasma membrane. They take up antigens and transport them to underlying lymphocytes
• Dendritic cells: sample and transport antigen from the lumen
• Enterocytes: assist by degrading antigens

Question 78

Where is the nodular form of GALT most prominent?

Answer 78

In the ileum where it can be seen macroscopically as Peyer’s patches

Question 79

Defining characteristics of the small intestine:

Answer 79

1. Presence of villi - not found elsewhere
2. Duodenum is identified by the presence of Brunner’s glands in the submucosa
3. The jejunum has NO submucosal glands
4. The ileum has NO submucosal glands and shows an increase in the number of goblet cells and the amount of lymphatic infiltration and is the site of Peyer’s patches

Question 80

What does the large intestine play a major role in?

Answer 80

Reabsorption of electrolytes and water and elimination of undigested foods

Question 81

The colon is divided into:

Answer 81

1. Cecum - with projecting vermiform appendix
2. Colon - ascending, transverse, descending, and sigmoid
3. Rectum
4. Anal canal

Question 82

Does the colon have villi?

Answer 82

No, only crypts of Lieberkuhn (it does have the same 4 layers - mucosa, submucosa, muscularies externa, and serosa/fibrosa)

Question 83

Describe the mucosa of the colon:

Answer 83

• The epithelium is simple columnar with a smooth surface (no villi) - has enterocytes with the primary role of reabsorption of electrolytes and water and also has goblet cells: produce mucus
• Has Crypts of Lieberkuhn
• Lamina propria withGALT
• Muscularis mucosae

Question 84

The crypts of Lieberkuhn (simple tubular glands) are located in the mucosa and contain:

Answer 84

1. Immature enterocytes
2. Goblet cells - increase in number as the rectum is approached
3. Enteroendocrine cells
4. Undifferentiated cells - surface renewal every 5-6 days

Question 85

Are there paneth cells in the colon mucosa?

Answer 85

No, they are lost from the glands at the beginning of the large intestine

Question 86

Describe the submucosa of the colon:

Answer 86

No glands, but lymphatic tissues is usually present

Question 87

Describe the muscularis externa:

Answer 87

It has a continuous inner circular layer and an outer longitudinal layer that is organized into 3 distinct and separate bands - the taeniae coli

Question 88

How it the appendix different than the colon?

Answer 88

• Smaller diameter
• Presence of a continuous outer longitudinal layer of muscle
• More extensive lymphatic infiltration than the colon
• Less regularly spaced crypts

Question 89

Describe the rectum:

Answer 89

• Makeup is similar to the colon

- Crypts of Lieberkuhn are lined predominantly by goblet cells

Question 90

What is the anal canal?

Answer 90

The most distal portion of the alimentary canal and about 4 cm long. Has mucosa, submucosa, muscularis externa, and fibrosa

Question 91

Describe the mucosa of the anal canal:

Answer 91

• The upper anal canal resembles the large intestine with simple columnar epithelium with simple intestinal tubular glands
• Glands (crypts of Lieberkuhn) contain many goblet cells as well as undifferentiated cells and a few enteroendocrine cells

Question 92

When the upper anal canal transitions into the lower anal canal, there are 3 changes in the mucosa:

Answer 92

1. Transition from simple columnar to stratified columnar epithelium (sometimes stratified cuboidal)
2. Crypts of Lieberkuhn are lost
3. Muscularis mucosae disappears

Question 93

Within the lower anal canal, the epithelium will further transition to:

Answer 93

Stratified squamous nonkeratinized epithelium

Question 94

At the end of the anal canal, there is a transition of the stratified squamous nonkeratinized epithelium to:

Answer 94

Stratified squamous keratinized epithelium of thin skin

Question 95

Describe the submucosa of the anal canal:

Answer 95

Very vascular with extensive plexus of hemorrhoidal veins

Question 96

Describe the muscularis externa of the anal canal:

Answer 96

• Inner circular layer of smooth muscle forms the internal anal sphincter
• Outer longitudinal layer of smooth muscle terminates in adjacent CT
• An increasing layer of skeletal muscle forms the external anal sphincter

Question 97

Review of the stomach wall:

Answer 97

• Mucosal glands are simple branches tubular glands that empty into gastric pits
• NO VILLI
• 3 poorly defined layers of smooth muscle in muscularis externa

Question 98

Review of the small intestinal wall:

Answer 98

• Finger-like mucosal projections into the lumen are villi and are only present in the small intestine
• Mucosal glands are simple tubular glands that open at the base of the villi (crypts of Lieberkuhn)
• Submucosal glands are only present in duodenum - Brunner’s glands
• Villi + submucosal glands = duodenum
• Villi but no submucosal glands = jejunum or ileum
• 2 smooth muscle layers in muscularis externa (inner circular and outer longitudinal)

Question 99

Review of the large intestinal wall:

Answer 99

• NO VILLI
• Mucosal glands are simple tubular glands (crypts of Lieberkuhn)
• 2 layers of smooth muscle in muscularis externa: inner circular and outer longitudinal

Question 100

In the colon, outer longitudinal is organized into 3 distinct bands:

Answer 100

Taeniae coli