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*'''Sugar uptake'''. Polysaccharidases and [[disaccharidase]]s in the [[glycocalyx]] break down large sugar molecules, which are then absorbed. [[Glucose]] crosses the [[apical membrane]] of the enterocyte using the [[sodium-glucose cotransporter]]. It moves through the [[cytosol]] (cytoplasm) and exits the enterocyte via the [[basolateral membrane]] (into the [[blood capillary]]) using [[GLUT2]]. [[Galactose]] uses the same transport system. [[Fructose]], on the other hand, crosses the apical membrane of the enterocyte, using [[GLUT5]]. It is thought to cross into the blood capillary using one of the other [[glucose transporter|GLUT transporters]]. | *'''Sugar uptake'''. Polysaccharidases and [[disaccharidase]]s in the [[glycocalyx]] break down large sugar molecules, which are then absorbed. [[Glucose]] crosses the [[apical membrane]] of the enterocyte using the [[sodium-glucose cotransporter]]. It moves through the [[cytosol]] (cytoplasm) and exits the enterocyte via the [[basolateral membrane]] (into the [[blood capillary]]) using [[GLUT2]]. [[Galactose]] uses the same transport system. [[Fructose]], on the other hand, crosses the apical membrane of the enterocyte, using [[GLUT5]]. It is thought to cross into the blood capillary using one of the other [[glucose transporter|GLUT transporters]]. | ||
*'''Peptide and amino acid uptake'''. Peptidases in the glycocalyx cleave proteins to amino acids or small peptides. [[Enteropeptidase]] (also known as enterokinase) is responsible for activating [[pancreatic]] [[trypsinogen]] into [[trypsin]], which activates other pancreatic [[zymogens]]. They are involved in the [[Krebs cycle|Krebs]] and the [[Cori Cycle]]s and can be synthesized with [[lipase]]. | *'''Peptide and amino acid uptake'''. Peptidases in the glycocalyx cleave proteins to amino acids or small peptides. [[Enteropeptidase]] (also known as enterokinase) is responsible for activating [[pancreatic]] [[trypsinogen]] into [[trypsin]], which activates other pancreatic [[zymogens]]. They are involved in the [[Krebs cycle|Krebs]] and the [[Cori Cycle]]s and can be synthesized with [[lipase]]. | ||
*'''Lipid uptake'''. Lipids are broken down by [[Human pancreatic lipase|pancreatic lipase]] aided by [[bile]], and then diffuse into the enterocytes. Smaller lipids are transported into intestinal capillaries, while larger lipids are processed by the [[Golgi apparatus|Golgi]] and [[smooth endoplasmic reticulum]] into lipoprotein [[chylomicra]] and [[exocytosis| | *'''Lipid uptake'''. Lipids are broken down by [[Human pancreatic lipase|pancreatic lipase]] aided by [[bile]], and then diffuse into the enterocytes. Smaller lipids are transported into intestinal capillaries, while larger lipids are processed by the [[Golgi apparatus|Golgi]] and [[smooth endoplasmic reticulum]] into lipoprotein [[chylomicra]] and [[exocytosis|exocytosed]] into [[lacteals]]. | ||
*'''Vitamin B12 uptake'''. Receptors bind to the [[vitamin B12]]-[[intrinsic factor|gastric intrinsic factor]] complex and are taken into the cell. | *'''Vitamin B12 uptake'''. Receptors bind to the [[vitamin B12]]-[[intrinsic factor|gastric intrinsic factor]] complex and are taken into the cell. | ||
*'''Resorption of unconjugated bile salts'''. Bile that was released and not used in emulsification of lipids are reabsorbed in the [[ileum]]. Also known as the [[enterohepatic circulation]]. | *'''Resorption of unconjugated bile salts'''. Bile that was released and not used in emulsification of lipids are reabsorbed in the [[ileum]]. Also known as the [[enterohepatic circulation]]. | ||
Latest revision as of 07:00, 11 July 2025
Template:Short description Template:Infobox cell Enterocytes, or intestinal absorptive cells, are simple columnar epithelial cells which line the inner surface of the small and large intestines. A glycocalyx surface coat contains digestive enzymes. Microvilli on the apical surface increase its surface area. This facilitates transport of numerous small molecules into the enterocyte from the intestinal lumen. These include broken down proteins, fats, and sugars, as well as water, electrolytes, vitamins, and bile salts. Enterocytes also have an endocrine role, secreting hormones such as leptin.
Function
The major functions of enterocytes include:[1]
- Ion uptake, including sodium, calcium, magnesium, iron, zinc, and copper. This typically occurs through active transport.
- Water uptake. This follows the osmotic gradient established by Na+/K+ ATPase on the basolateral surface. This can occur transcellularly or paracellularly.
- Sugar uptake. Polysaccharidases and disaccharidases in the glycocalyx break down large sugar molecules, which are then absorbed. Glucose crosses the apical membrane of the enterocyte using the sodium-glucose cotransporter. It moves through the cytosol (cytoplasm) and exits the enterocyte via the basolateral membrane (into the blood capillary) using GLUT2. Galactose uses the same transport system. Fructose, on the other hand, crosses the apical membrane of the enterocyte, using GLUT5. It is thought to cross into the blood capillary using one of the other GLUT transporters.
- Peptide and amino acid uptake. Peptidases in the glycocalyx cleave proteins to amino acids or small peptides. Enteropeptidase (also known as enterokinase) is responsible for activating pancreatic trypsinogen into trypsin, which activates other pancreatic zymogens. They are involved in the Krebs and the Cori Cycles and can be synthesized with lipase.
- Lipid uptake. Lipids are broken down by pancreatic lipase aided by bile, and then diffuse into the enterocytes. Smaller lipids are transported into intestinal capillaries, while larger lipids are processed by the Golgi and smooth endoplasmic reticulum into lipoprotein chylomicra and exocytosed into lacteals.
- Vitamin B12 uptake. Receptors bind to the vitamin B12-gastric intrinsic factor complex and are taken into the cell.
- Resorption of unconjugated bile salts. Bile that was released and not used in emulsification of lipids are reabsorbed in the ileum. Also known as the enterohepatic circulation.
- Secretion of immunoglobulins. Immunoglobulin A from plasma cells in the mucosa are absorbed through receptor-mediated endocytosis on the basolateral surface and released as a receptor-IgA complex into the intestinal lumen. The receptor component confers additional stability to the molecule.
Clinical significance
- Dietary fructose intolerance occurs when there is a deficiency in the amount of fructose carrier.
- Lactose intolerance is the most common problem of carbohydrate digestion and occurs when the human body doesn't produce a sufficient amount of lactase enzyme to break down the sugar lactose found in dairy. As a result of this deficiency, undigested lactose is not absorbed and is instead passed on to the colon. There bacteria metabolize the lactose and in doing so release gas and metabolic products that enhance colonic motility. This causes gas and other uncomfortable symptoms.
- Cholera toxin may increase the secretion or decrease the intake of water and electrolytes, leading to possibly severe dehydration and electrolyte imbalance.[2]
- Rotavirus selectively invades and kills mature enterocytes in the small intestine.[3]
Stem cell aging
Intestinal stem cell aging has been studied in Drosophila as a model for understanding the biology of stem cell/niche aging.[4] Using knockdown mutants defective in various genes that function in the DNA damage response in enterocytes, it was shown that deficiency in the DNA damage response accelerates intestinal stem cell aging, thus providing a better understanding of the molecular mechanisms of this aging process.[4]
See also
References
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External links
- Histology image: 11706loa – Histology Learning System at Boston University — "Digestive System: Alimentary Canal — jejunum, goblet cells and enterocytes"
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