Digestion is the chemical breakdown of large food molecules into smaller molecules that can be used by cells. The breakdown occurs when certain specific enzymes are mixed with the food.
fats →fatty acids and monoglycerides
Chewing breaks food into smaller particles so that chemical digestion can occur faster.
Salivary amylase breaks starch (a polysaccharide) down to maltose (a disaccharide).
Bicarbonate ions in saliva act as buffers, maintaining a pH between 6.5 and 7.5.
Mucins (mucous) lubricate and help hold chewed food together in a clump called a bolus.
The tongue contains chemical receptors in structures called taste buds. Theses are discussed in the chapter on sensory systems.
The tongue is muscular and can move food. It pushes food to back where it is swallowed.
The respiratory and digestive passages meet in the pharynx. They separate posterior to the pharynx to form the esophagus (leads to the stomach) and trachea (leads to the lungs).
Swallowing is accomplished by reflexes that close the opening to the trachea.
When swallowing, the epiglottis covers the trachea to prevent food from entering.
In the mouth, food is mixed with saliva and formed into a bolus.
Peristalsis refers to rhythmic contractions that move food in the gut. Peristalsis in the esophagus moves food from the mouth to the stomach.
The stomach stores up to 2 liters of food.
Gastric glands within the stomach produce secretions called gastric juice.
The muscular walls of the stomach contract vigorously to mix food with gastric juice, producing a mixture called chyme.
Pepsinogen is converted to pepsin, which digests proteins. Pepsinogen production is stimulated by the presence of gastrin in the blood (discussed below).
- Hydrochloric acid (HCl) converts pepsinogen to pepsin which breaks down proteins to peptides. HCl maintains a pH in the stomach of approximately 2.0.
- It also dissolves food and kills microorganisms.
Mucous protects the stomach from HCl and pepsin.
Secretion of Gastric Juice
Seeing, smelling, tasting, or thinking about food can result in the secretion of gastric juice.
Gastrin is a hormone that stimulates the stomach to secrete gastric juice. (See the discussion of hormones below.)
An ulcer is an irritation due to gastric juice penetrating the mucous lining of the stomach or duodenum. It is believed that ulcers are caused by the bacterium Helicobacter pylori, which, can thrive in the acid environment of the stomach. The presence of the bacteria on portions of the stomach lining prevents it from secreting mucous, making it susceptible to the digestive action of pepsin.
The duodenum is the first part of the small intestine.
Chyme enters through a sphincter.
It enters in tiny spurts.
At this point, proteins and carbohydrates are only partially digested and lipid digestion has not begun.
The pancreas acts as an exocrine gland by producing pancreatic juice which empties into the small intestine via a duct.
The pancreas also acts as an endocrine gland to produce insulin. (See the discussion on the Islets of Langerhans or Pancreatic Islets in the chapter on the endocrine system.)
Pancreatic juice contains sodium bicarbonate which neutralizes the acidic material from the stomach.
Pancreatic amylase digests starch to maltose.
Trypsin and Chymotrypsin digest proteins to peptides. Like pepsin (produced in the stomach), they are specific for certain amino acids, not all of them. They therefore produce peptides.
Lipase digests fats to monoglycerides and fatty acids.
The liver produces bile which is stored in gallbladder and sent to the duodenum through a duct.
Bile emulsifies fats (separates it into small droplets) so they can mix with water and be acted upon by enzymes.
Other Functions of the Liver
The liver detoxifies blood from intestines that it receives via the hepatic portal vein.
The liver stores glucose as glycogen (animal starch) and breaks down glycogen to release glucose as needed. This storage-release process maintains a constant glucose concentration in the blood (0.1%). If glycogen and glucose run short, proteins can be converted to glucose.
It produces blood proteins.
It destroys old red blood cells and converts hemoglobin from these cells to bilirubin and biliverdin which are components of bile.
Ammonia produced by the digestion of proteins is converted to a less toxic compound (urea) by the liver.
Hormones Involved in Digestion
The hormones listed below, like all hormones, reach their target cells by the circulatory system.
|Hormone||Secreted by:||Stimulus for secretion||Effect|
|Gastrin||Stomach||Presence of food in the stomach||Stimulates the stomach to secrete gastric juice|
|Secretin||Duodenum||Chyme from the stomach||Stimulates the pancreas to produce sodium bicarbonate and the liver to secrete bile|
|CCK||Duodenum||Presence of food in the duodenum||Stimulates the gallbladder to release bile and the pancrease to produce pancreatic enzymes|
|GIP||Duodenum||Presence of food in the duodenum||Inhibits the gastric glands of the stomach and inhibits stomach motility|
The presence of food in the stomach stimulates stretch receptors which relay this information to the medulla oblongata. The medulla stimulates endocrine cells in the stomach to secrete the hormone gastrin into the circulatory system. Gastrin stimulates the stomach to secrete gastric juice. This pathway of information is summarized below.
stretch receptors →medulla oblongata →endocrine cells in the stomach →gastrin →circulatory system →stomach →secretes gastric juice
Secretin is produced by cells of the duodenum.
It’s production is stimulated by acid chyme from stomach.
It stimulates the pancreas to produce sodium bicarbonate, which neutralizes the acidic chyme. It also stimulates the liver to secrete bile.
CCK production is stimulated by the presence of food in the duodenum.
It stimulates the gallbladder to release bile and the pancreas to produce pancreatic enzymes.
GIP (Gastric Inhibitory Peptide)
Food in the duodenum stimulates certain endocrine cells to produce GIP.
It has the opposite effects of gastrin; it inhibits gastric glands in the stomach and it inhibits the mixing and churning movement of stomach muscles. This slows the rate of stomach emptying when the duodenum contains food.
The small intestine is approximately 3 m long.
Like the stomach, it contains numerous ridges and furrows. In addition, there are numerous projections called villi that function to increase the surface area of the intestine. Individual villus cells have microvilli which greatly increase absorptive surface area.
The total absorptive surface area is equivalent to 500 or 600 square meters.
Each villus contains blood vessels and a lacteal (lymph vessel).
Peptidases and maltase are embedded within the plasma membrane of the microvilli.
- Peptidases complete the digestion of peptides to amino acids.
- Maltase completes the digestion of disaccharides.
Absorption is an important function of the small intestine.
Active transport moves glucose and amino acids into the intestinal cells, then out where they are picked up by capillaries.
Monoglycerides and fatty acids produced by the digestion of fat enter the villi by diffusion and are reassembled into fat (triglycerides). They combine with proteins and are expelled by exocytosis. They move into the lacteals for transport via the lymphatic system.
The large intestine is also called the colon.
It receives approximately 10 liters of water per day. 1.5 liters is from food and 8.5 liters is from secretions into the gut. 95% of this water is reabsorbed.
The large intestine also absorbs sodium and other ions but it excretes other metallic ions into the wastes.
If water is not absorbed, diarrhea can result, causing dehydration and ion loss.
It absorbs vitamin K produced by colon bacteria.
The last 20 cm of the large intestine is the rectum.
Feces is composed of approximately 75% water and 25% solids. One-third of the solids is intestinal bacteria, 2/3’s is undigested materials.
The cecum is a pouch at the junction of the small intestine and large intestine. In herbivorous mammals, it is large and houses bacteria capable of digesting cellulose. In human ancestors, the cecum was larger but has been reduced by evolutionary change to form the appendix.
Polyps are small growths in the epithelial lining of the colon.
They can be benign or cancerous and can be removed individually.
A low-fat, high-fiber diet promotes regularity and is recommended as a protection against colon cancer.
The appendix is attached to cecum.
Appendicitis is an infection. The appendix may swell and burst, leading to peritonitis (infection of the abdominal lining).
Summary of Digestive Enzymes
The digestive enzymes in the table below are summarized according to type of food that they digest.
|FATS||Lipase||Pancreas||Fatty acids |
The table below shows digestive enzymes grouped by source of the enzyme.
|MOUTH (salivary glands)||Salivary amylase||Polysaccharides||Maltose|
|SMALL INTESTINE|| |
Fill in the source of each enzyme in the table below and state the product produced by the enzyme.