Parietal cell

Template:Short description Template:More citations needed Template:Infobox cell Parietal cells (also known as oxyntic cells) are epithelial cells in the stomach that secrete hydrochloric acid (HCl) and intrinsic factor. These cells are located in the gastric glands found in the lining of the fundus and body regions of the stomach.<ref name=BMJ2014>Template:Cite journal Template:Free access</ref> They contain an extensive secretory network of canaliculi from which the HCl is secreted by active transport into the stomach. The enzyme hydrogen potassium ATPase (H⁺/K⁺ ATPase) is unique to the parietal cells and transports the H⁺ against a concentration gradient of about 3 million to 1,Template:Citation needed which is the steepestTemplate:Citation needed ion gradient formed in the human body. Parietal cells are primarily regulated via histamine, acetylcholine and gastrin signalling from both central and local modulators.

StructureEdit

CanaliculusEdit

A canaliculus is an adaptation found on gastric parietal cells. It is a deep infolding, or little channel, which serves to increase the surface area, e.g. for secretion. The parietal cell membrane is dynamic; the numbers of canaliculi rise and fall according to secretory need. This is accomplished by the fusion of canalicular precursors, or tubulovesicles, with the membrane to increase surface area, and the reciprocal endocytosis of the canaliculi (reforming the tubulovesicles) to decrease it.<ref name="Sahoo">Template:Cite journal</ref>

FunctionEdit

Hydrochloric acid secretionEdit

Hydrochloric acid is formed in the following manner:

Hydrogen ions are formed from the dissociation of carbonic acid. Water is a very minor source of hydrogen ions in comparison to carbonic acid. Carbonic acid is formed from carbon dioxide and water by carbonic anhydrase.
The bicarbonate ion (HCO₃⁻) is exchanged for a chloride ion (Cl⁻) on the basal side of the cell and the bicarbonate diffuses into the venous blood, leading to an alkaline tide phenomenon.
Potassium (K⁺) and chloride (Cl⁻) ions diffuse into the canaliculi.
Hydrogen ions are pumped out of the cell into the canaliculi in exchange for potassium ions, via the H⁺/K⁺-ATPase. These pumps are increased in number on luminal side by fusion of tubulovesicles during activation of parietal cells and removed during deactivation. This pump maintains a million-fold difference in proton concentration.<ref>Template:Cite journal</ref> ATP is provided by the numerous mitochondria.

File:Parietal cells.jpg

Human parietal cells (pink staining) – stomach.

As a result of the cellular export of hydrogen ions, the gastric lumen is maintained as a highly acidic environment. The acidity aids in digestion of food by promoting the unfolding (or denaturing) of ingested proteins. As proteins unfold, the peptide bonds linking component amino acids are exposed. Gastric HCl simultaneously cleaves pepsinogen, a zymogen, into active pepsin, an endopeptidase that advances the digestive process by breaking the now-exposed peptide bonds, a process known as proteolysis.

RegulationEdit

Parietal cells secrete acid in response to three types of stimuli:<ref>Template:Cite book</ref>

Histamine, stimulating H₂ histamine receptors (most significant contribution).
Acetylcholine (ACh), from parasympathetic activity via the vagus nerve and enteric nervous system, stimulating M₃ receptors.<ref name="M3 receptor">{{#invoke:citation/CS1|citation

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Gastrin, stimulating CCK2 receptors (least significant contribution, but also causes histamine secretion by local ECL cells).

Activation of histamine through H₂ receptor causes increases in the intracellular cAMP level, while ACh through M₃ receptor and gastrin through CCK2 receptor increases intracellular calcium level. These receptors are present on basolateral side of membrane.

Increased cAMP level results in increased protein kinase A. Protein kinase A phosphorylates proteins involved in the transport of H⁺/K⁺-ATPase from the cytoplasm to the cell membrane. This causes resorption of K⁺ ions and secretion of H⁺ ions. The pH of the secreted fluid can fall by 0.8.

Gastrin primarily induces acid-secretion indirectly, increasing histamine synthesis in ECL cells, which in turn signal parietal cells via histamine release and H₂ stimulation.<ref>Waldum, Helge L., Kleveland, Per M., et al. (2009)'Interactions between gastric acid secretagogues and the localization of the gastrin receptor', Scandinavian Journal of Gastroenterology, 44:4,390—393.</ref> Gastrin itself has no effect on the maximum histamine-stimulated gastric acid secretion.<ref>Kleveland PM, Waldum HL, Larsson M. Gastric acid secretion in the totally isolated, vascularly perfused rat stomach. A selective muscarinic-1 agent does, whereas gastrin does not, augment maximal histamine-stimulated acid secretion. Scandinavian Journal of Gastroenterology, 1987;22:705–713.</ref>

The effect of histamine, acetylcholine and gastrin is synergistic, that is, effect of two simultaneously is more than additive of effect of the two individually. It helps in non-linear increase of secretion with stimuli physiologically.<ref>Template:Cite book</ref>

Intrinsic factor secretionEdit

Parietal cells also produce a glycoprotein known as intrinsic factor. Intrinsic factor is required for the absorption of vitamin B₁₂ in the diet. A long-term deficiency in vitamin B₁₂ can lead to megaloblastic anemia, characterized by large fragile red blood cells. Pernicious anaemia results from autoimmune destruction of gastric parietal cells, precluding the synthesis of intrinsic factor and, by extension, absorption of vitamin B₁₂. Pernicious anemia also leads to megaloblastic anemia. Atrophic gastritis, particularly in the elderly, will cause an inability to absorb B₁₂ and can lead to deficiencies such as decreased DNA synthesis and nucleotide metabolism in the bone marrow.

Clinical significanceEdit

File:GASTRIC PARIETAL CELL ANTIBODIES.jpg

Immunofluorescence staining pattern of gastric parietal antibodies on a stomach section

File:Histopathology of fundic gland polyp, high magnification, annotated.jpg

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Peptic ulcers can result from over-acidity in the stomach. Antacids can be used to enhance the natural tolerance of the gastric lining. Antimuscarinic drugs such as pirenzepine or H₂ antihistamines can reduce acid secretion. Proton pump inhibitors are more potent at reducing gastric acid production since that is the final common pathway of all stimulation of acid production.
In pernicious anemia, autoantibodies directed against parietal cells or intrinsic factor cause a reduction in vitamin B₁₂ absorption. It can be treated with injections of replacement vitamin B₁₂ (methylcobalamin, hydroxocobalamin or cyanocobalamin).
Achlorhydria is another autoimmune disease of the parietal cells. The damaged parietal cells are unable to produce the required amount of gastric acid. This leads to an increase in gastric pH, impaired digestion of food and increased risk of gastroenteritis.

ReferencesEdit

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External linksEdit

Illustration of Chief cells and Parietal cells at anatomyatlases.org
The Parietal Cell: Mechanism of Acid Secretion at vivo.colostate.edu
Template:BUHistology - Digestive System: Alimentary Canal: fundic stomach, gastric glands, lumen"
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Parietal cell antibody
Antibody to GPC

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