Gastric glands

Gastric glands
Cardiac glands shown at c and their ducts at d
Details
Identifiers
Latinglandulae gastricae
Anatomical terminology

The gastric glands are located in different regions of the stomach. These are the fundic glands, the cardiac glands, and the pyloric glands. The glands and gastric pits are located in the stomach lining. The glands themselves are in the lamina propria of the mucous membrane and they open into the bases of the gastric pits formed by the epithelium.[1] The various cells of the glands secrete mucus, pepsinogen, hydrochloric acid, intrinsic factor, gastrin, and bicarbonate.

Types of gland

Histology of normal fundic mucosa. Fundic glands are simple, branched tubular glands that extend from the bottom of the gastric pits to the muscularis mucosa; the more distinctive cells are parietal cells. H&E stain.
Histology of normal antral mucosa. Antral mucosa is formed by branched coiled tubular glands lined by secretory cells similar in appearance to the surface mucus cells. H&E stain.

Gastric glands are mostly exocrine glands[2] and are all located beneath the gastric pits within the gastric mucosathe mucous membrane of the stomach. The gastric mucosa is pitted with innumerable gastric pits which each house 3-5 gastric glands.[3][4] The cells of the exocrine glands are foveolar (mucus), chief cells, and parietal cells. The other type of gastric gland is the pyloric gland which is an endocrine gland that secretes the hormone gastrin produced by its G cells.

The cardiac glands are found in the cardia of the stomach which is the part nearest to the heart, enclosing the opening where the esophagus joins to the stomach. Only cardiac glands are found here and they primarily secrete mucus.[5] They are fewer in number than the other gastric glands and are more shallowly positioned in the mucosa. There are two kinds - either simple tubular with short ducts or compound racemose resembling the duodenal Brunner's glands.

The fundic glands (or oxyntic glands), are found in the fundus and body of the stomach. They are simple almost straight tubes, two or more of which open into a single duct. Oxyntic means acid-secreting and they secrete hydrochloric acid (HCl) and intrinsic factor.[5]

The pyloric glands are located in the antrum of the pylorus. They secrete gastrin produced by their G cells.[6]

NameSecretion Layer of stomachRegion of stomachStainingImage
Foveolar cellsMucus gel layer Isthmus of glandFundic, cardiac, pyloricClear
Parietal (oxyntic) cellsGastric acid and intrinsic factor Body of glandFundus and body[7]Acidophilic
Chief (zymogenic) cellsPepsinogen and gastric lipase Base of glandFundus and body[7]Basophilic
Enteroendocrine (APUD) cellsHormones gastrin, histamine, endorphins, serotonin, cholecystokinin and somatostatin Base of glandFundic, cardiac, pyloric

Types of cell

Transverse section of fundic gland
Diagram depicting the major determinants of gastric acid secretion

There are millions of gastric pits in the gastric mucosa and their necessary narrowness determines the tubular form of the gastric gland. More than one tube allows for the accommodation of more than one cell type. The form of each gastric gland is similar; they are all described as having a neck region that is closest to the pit entrance, and basal regions on the lower parts of the tubes.[8] The epithelium from the gastric mucosa travels into the pit and at the neck the epithelial cells change to short columnar granular cells. These cells almost fill the tube and the remaining lumen is continued as a very fine channel.

Cells found in the gastric glands include foveolar cells, chief cells, parietal cells, G cells, enterochromaffin-like cells (ECLs), etc. The first cells of all of the glands are foveolar cells in the neck region–also called mucous neck cells that produce mucus. This is thought to be different from the mucus produced by the gastric mucosa.

Fundic glands found in the fundus and also in the body have another two cell types–gastric chief cells and parietal cells (oxyntic cells).

  • Surface mucous cell (foveolar cell) - They are mucous producing cells which cover the inside of the stomach, protecting it from the corrosive nature of gastric acid. These cells line the gastric mucosa.
  • Mucous neck cell - Mucous neck cells are located within gastric glands, interspersed between parietal cells. These are shorter than their surface counterpart and contain lesser quantities of mucin granules in their apical surface.
  • Chief cells (Zymogen cells/ peptic cells) - They are found in the basal regions of the gland and release proenzymes or zymogens – pepsinogen (precursor to pepsin), and prorennin (precursor to rennin or chymosin).[9] Prorennin is secreted in young mammals (childhood stage). It is not secreted in adult mammals. Chief cells also produce small amounts of gastric lipase. Gastric lipase contributes little to digestion of fat.
  • Parietal cells ("parietal" means "relating to a wall"), also known as oxyntic cells are most numerous on the side walls of the gastric glands. The parietal cells secrete hydrochloric acid, the main component of gastric acid. This needs to be readily available for the stomach in a plentiful supply, and so from their positions in the walls, their secretory networks of fine channels called canaliculi can project and ingress into all the regions of the gastric-pit lumen. Another important secretion of the parietal cells is castle's intrinsic factor. Intrinsic factor is a glycoprotein essential for the absorption of vitamin B12. The parietal cells also produce and release bicarbonate ions in response to histamine release from the nearby ECLs, and so serve a crucial role in the pH buffering system.[10]
  • Enteroendocrine cells or argentaffin cells - They are usually present in the basal parts of the gastric glands, which is differentiated in three cells - these are D-cells, Enterochromaffin like cells (ECL-cells) and G-cells.
    • Enterochromaffin like cell (ECL cell) - they release serotonin and histamine. These cells store and release histamine when the pH of the stomach becomes too high. The release of histamine is stimulated by the secretion of gastrin from the G cells.[11] Histamine promotes the production and release of HCL from the parietal cells to the blood and protons to the stomach lumen. When the stomach pH decreases(becomes more acidic), the ECLs stop releasing histamine.
    • G cells- They secrete gastrin hormone. Gastrin stimulates the gastric glands to release gastric juice. These cells are mostly found in pyloric glands in the antrum of the pylorus; some are found in the duodenum and other tissues. The gastric pits of these glands are much deeper than the others and here the gastrin is secreted into the bloodstream not the lumen.[12]
    • D-cells - D cells secrete somatostatin. Somatostatin suppresses the release of hormones from the digestive tract.

Clinical significance

Fundic gland polyposis is a medical syndrome where the fundus and the body of the stomach develop many fundic gland polyps.

Pernicious anemia is caused when damaged parietal cells fail to produce the intrinsic factor necessary for the absorption of vitamin B12. This can be one of the causes of vitamin B12 deficiency.

See also

Additional images

References

  1. "Stomach". Retrieved 22 March 2016.
  2. "Stomach | SEER Training". training.seer.cancer.gov.
  3. "gastric pits, that each open into four or five gastric glands", Quantitative Human Physiology 2E, 2017, Joseph Feher
  4. "Secretions from several gastric glands flow into each gastric pit" Principals of Anatomy & Physiology 15th Ed 2017, Gerard Tortora & Bryan Derrickson
  5. 1 2 Dorland's (2012). Dorland's Illustrated Medical Dictionary (32nd ed.). Elsevier. p. 777. ISBN 978-1-4160-6257-8.
  6. Dorland's (2012). Dorland's Illustrated Medical Dictionary (32nd ed.). Elsevier. p. 762. ISBN 978-1-4160-6257-8.
  7. 1 2 Kelsey E. McHugh, M.D., Thomas P. Plesec, M.D. "Stomach - General - Histology". PathologyOutlines.{{cite web}}: CS1 maint: multiple names: authors list (link) Topic Completed: 28 May 2020. Minor changes: 28 December 2020
  8. Pocock, Gillian (2006). Human Physiology (3rd ed.). Oxford University Press. p. 388. ISBN 978-0-19-856878-0.
  9. Khan, AR; James, MN (April 1998). "Molecular mechanisms for the conversion of zymogens to active proteolytic enzymes". Protein Science. 7 (4): 815–36. doi:10.1002/pro.5560070401. PMC 2143990. PMID 9568890.
  10. "Clinical correlates of pH levels: bicarbonate as a buffer". Biology.arizona.edu. October 2006.
  11. Guyton, Arthur C.; John E. Hall (2006). Textbook of Medical Physiology (11 ed.). Philadelphia: Elsevier Saunders. p. 797. ISBN 0-7216-0240-1.
  12. "Basic organization of the gastrointestinal tract". Retrieved 15 May 2015.

Public domain This article incorporates text in the public domain from the 20th edition of Gray's Anatomy (1918)

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