Understanding the Role of Salivary Glands and Stomach in Digestion Process

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Learn about the essential functions of salivary glands and stomach in the digestion process. Understand how salivary glands secrete saliva containing enzymes like amylase and lingual lipase to break down food for absorption. Explore the significance of these organs in converting dietary foodstuffs into absorbable forms for the body.

  • Salivary Glands
  • Stomach
  • Digestion
  • Saliva
  • Enzymes
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  1. Role of Salivary Glands and Stomach Role of Salivary Glands and Stomach in Digestion in Digestion By By Rana Hasanato, MD, ksfcc Clinical Biochemistry Unit, Path. Dept. College of Medicine, King Saud University

  2. Objectives: Objectives: Understand the principle and importance of digestion of dietary foodstuffs Understand the role of salivary glands in digestion Understand the role of stomach in digestion

  3. Background: Background: Most of dietary foodstuffs are ingested in the form that cannot be readily absorbed from the digestive tract Digestion: The breakdown of the naturally occurring foodstuffs absorbable forms into smaller, easily

  4. Processes of the digestive system Motility Secretion Absorption Elimination

  5. Digestion: Digestion: Mechanical effects: e.g., mastication Enzymatic effects: Digestive enzymes (hydrolases)

  6. End Products of Digestion: End Products of Digestion: Carbohydrates Monosaccharides Triacylglycerols (TAG) Fatty acids & monoacylglycerols Proteins Amino acids

  7. Role of Salivary Glands in Digestion Role of Salivary Glands in Digestion They secrete saliva Saliva: Acts as lubricant Contains salivary -amylase Contains lingual lipase

  8. Salivary Salivary - -Amylase Amylase Secreted by: Parotid glands Optimum pH: 6.6 6.8 Substrate: Starch and glycogen Hydrolyzes: (1,4) glycosidic bonds Produces: Short oligosaccharides

  9. Digestion Pre-stomach Salivary amylase : 1-4 endoglycosidase G G G G G G Limit dextrins GGG G G G G G G G G amylase G G GG GGG 1-6 link G maltotrio se GGG 1-4 link G G G G maltos e G G isomalto se

  10. Hydrolysis of (1,4) Glycosidic Bonds Hydrolysis of (1,4) Glycosidic Bonds

  11. Effect of Effect of - -Amylase on Amylase on Glycogen Glycogen Hydrolysis of: (1,4) glycosidic bonds Products: Mixture of short oligosaccharides (both branched & unbranched) Disaccharides: Maltose and isomaltose

  12. Salivary Salivary - -Amylase Amylase CONT D Its digestive action on the polysaccharides is of little significance because of the short time during which the enzyme can act on the food in the mouth Salivary amylase is inactivated by the acidity of stomach (The enzyme is inactivated at pH 4.0 or less)

  13. Salivary Salivary - -Amylase Amylase CONT D Salivary -amylase does not hydrolyze: (1,6) glycosidic bonds (The branch points of starch and glycogen) Salivary -amylase cannot act on: (1,4) glycosidic bonds of cellulose Salivary -amylase does not hydrolyze disaccharides

  14. Digestion of Carbohydrates in the Mouth Digestion of Carbohydrates in the Mouth

  15. Lingual Lipase Lingual Lipase Secreted by the dorsal surface of the tongue (Ebner s glands) Acts in the stomach for the digestion of TAG Produces fatty acids and monoacylglycerols Its role is of little significance in adult humans

  16. Role of Stomach in Digestion Role of Stomach in Digestion No further digestion of carbohydrates Lipid digestion begins by lingual and gastric lipases Protein digestion begins by pepsin and rennin

  17. Lingual and Gastric Lipases Lingual and Gastric Lipases (Acid (Acid- -Stable Lipases) Stable Lipases) Substrate: TAG medium- and short-chain fatty acids; such as found in milk fat The end products are: 2-monoacylglycerols and fatty acids The role of both lipases in lipid digestion is of little significance in adult human (The lipids in the stomach is not yet emulsified. Emulsification occurs in duodenum) molecules, containing

  18. Lingual and Gastric Lipases Lingual and Gastric Lipases CONT D Lipase Target substrate for acid-stable lipases is TAG containing: O O R1 C O and R3 C O as short- or medium-chain fatty acids

  19. Lingual and Gastric Lipases Lingual and Gastric Lipases CONT D They are important in neonates and infants for the digestion of TAG of milk They are also important in patients with pancreatic insufficiency where there is absence of pancreatic lipase

  20. Digestion of Lipids in Stomach Digestion of Lipids in Stomach In adults, no significant effects because of lack of emulsification that occurs in duodenum In neonates and infants, digestion of milk TAG and production of short- and medium-chain fatty acids

  21. Pepsin Pepsin Secreted by chief cells of stomach as inactive proenzyme, pepsinogen Activated by HCl and autocatalytically by pepsin Acid-stable, endopeptidase Substrate: denatured dietary proteins (by HCl) End product: Smaller polypeptides

  22. Peptide Protein Structures: Primary, Secondary, Tertiary, Quaternary

  23. Endopeptidases and exopeptidases

  24. Rennin Rennin Secreted by chief cells of stomach in neonates and infants Substrate: Casein of milk (in the presence of calcium) End product: Paracasein formation of milk clot Effect: It prevents rapid passage of milk from stomach, allowing more time for action of pepsin on milk proteins with the

  25. Digestion of Dietary Proteins in Stomach Digestion of Dietary Proteins in Stomach HCl: Denatures proteins Activates pepsin Pepsin: Cleaves proteins into polypeptides Rennin: & Rennin Formation of milk clot

  26. Take Home Message Take Home Message Digestion involves both mechanical and enzymatic processes Digestion makes dietary foodstuffs readily absorbable by the digestive tract Salivary -amylase is of limited, but initial effect on digestion of starch and glycogen in the mouth Salivary -amylase converts starch and glycogen into short, branched oligosaccharides

  27. Take Home Message Take Home Message CONT D Limited digestion of TAG begins in the stomach by both lingual and gastric lipases producing 2-monoacylglycerols and fatty acids Digestion of proteins begins in the stomach by pepsin producing smaller polypeptides In neonates and infants, digestion of milk occurs in stomach by: Acid-stable lipases for digestion of milk fat Rennin and pepsin for digestion of milk proteins

  28. Questions?

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