Interstitial cell of Cajal

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Interstitial cells of Cajal (ICC) are interstitial cells found in the gastrointestinal tract. There are different types of ICC with different functions. ICC and another type of interstitial cell, known as platelet-derived growth factor receptor alpha (PDGFRα) cells, are electrically coupled to smooth muscle cells via gap junctions, that work together as an SIP functional syncytium.[2] Myenteric interstitial cells of Cajal (ICC-MY) serve as pacemaker cells that generate the bioelectrical events known as slow waves.[3] Slow waves conduct to smooth muscle cells and cause phasic contractions.[4][5]

Interstitial cell of Cajal
Details
Identifiers
Latincellulae interstitiales stimulantes[1]
MeSHD056885
FMA86573
Anatomical terminology
An isolated Interstitial cell of Cajal from the myenteric plexus of the mouse small intestine grown in a primary cell culture.

The picture to the right shows an isolated Interstitial cell of Cajal from the Myenteric plexus of the mouse small intestine grown in a primary cell culture. This cell type can be characterized morphologically as having a small cell body often triangular or stellate-shaped with several long processes branching out into secondary and tertiary extensions - these processes often contact smooth muscle cells. They have contractile behaviour in both the cell body and the extended processes.

Embryology

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These cells are derived from mesoderm,[6] unlike the enteric neurons that arise from neural crest cells.

Function

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Intramuscular Interstitial cells of Cajal (ICC-IM) are involved in mediating responses to neurotransmission.[7] All ICC in the gastrointestinal tract express calcium-activated chloride channels encoded by the gene ANO1. These channels are activated by release of calcium in ICC and are important for both the pacemaker activity of ICC and their responses to neurotransmitters. A recent review noted that carbachol increases ICC activity through this channel.[8][9] ANO1-knockout mice fail to produce slow waves and ANO1 channel inhibitors block slow waves.[8]

ICC are also thought to be present in other types of smooth muscle tissues. But with few exceptions the function of these cells is not well understood and currently an area of active research.

Role in slow wave activity

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ICC serve as electrical pacemakers and generate spontaneous electrical slow waves in the gastrointestinal (GI) tract. Electrical slow waves spread from ICC to smooth muscle cells and the resulting depolarization initiates calcium ion entry and contraction. Slow waves organize gut contractions into phasic contractions that are the basis for peristalsis and segmentation.[medical citation needed]

Frequency of ICC pacemaker cells

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The frequency of ICC pacemaker activity differs in different regions of the GI tract:[10]

ICC also mediate neural input from enteric motor neurons. Animals lacking ICC have greatly reduced responses to the neurotransmitter acetylcholine, released from excitatory motor neurons, and to the transmitter nitric oxide, released from inhibitory motor neurons. Loss of ICC in disease, therefore, may interrupt normal neural control of gastrointestinal (GI) contractions and lead to functional GI disorders, such as irritable bowel syndrome.[medical citation needed]

ICC also express mechano-sensitive mechanisms that cause these cells to respond to stretch. Stretching GI muscles can affect the resting potentials of ICC and affect the frequency of pacemaker activity. Carbachol increases ICC activity through ANO1 activation.[8][9]

ICC are also critical in the propagation of electrical slow waves. ICC form a network through which slow wave activity can propagate. If this network is broken, then 2 regions of muscle will function independently.[medical citation needed]

Pathology

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ICCs are thought to be the cells from which gastrointestinal stromal tumours (GISTs) arise.[11] Also, abnormalities in the ICC network is one cause of chronic intestinal pseudo-obstruction.[12]

Eponym

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The interstitial cells of Cajal are named after Santiago Ramón y Cajal,[13] a Spanish pathologist and Nobel laureate.

See also

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References

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  1. ^ "Duodenum Dr.Jastrows EM-Atlas". Archived from the original on 3 March 2016. Retrieved 27 February 2011.
  2. ^ Song, NN; Xu, WX (25 October 2016). "[Physiological and pathophysiological meanings of gastrointestinal smooth muscle motor unit SIP syncytium]". Sheng li xue bao: [Acta Physiologica Sinica]. 68 (5): 621–627. PMID 27778026.
  3. ^ Thomsen, L.; Robinson, T. L.; Lee, J. C.; Farraway, L. A.; Hughes, M. J.; Andrews, D. W.; Huizinga, J. D. (1 July 1998). "Interstitial cells of Cajal generate a rhythmic pacemaker current". Nature Medicine. 4 (7): 848–851. doi:10.1038/nm0798-848. ISSN 1078-8956. PMID 9662380. S2CID 23987930.
  4. ^ Hennig GW, Spencer NJ, Jokela-Willis S, Bayguinov PO, Lee HT, Ritchie LA, Ward SM, Smith TK, Sanders KM (May 2010). "ICC-MY coordinate smooth muscle electrical and mechanical activity in the murine small intestine". Neurogastroenterol. Motil. 22 (5): e138–51. doi:10.1111/j.1365-2982.2009.01448.x. PMC 2856807. PMID 20059699.
  5. ^ Sanders K, Koh S, Ward S (2006). "Interstitial cells of cajal as pacemakers in the gastrointestinal tract". Annu Rev Physiol. 68: 307–343. doi:10.1146/annurev.physiol.68.040504.094718. PMID 16460275.
  6. ^ Kursad Turksen (2006). Embryonic Stem Cell Protocols: Differentiation models. Humana Press. pp. 263–. ISBN 978-1-58829-784-6. Retrieved 14 April 2010.
  7. ^ Kito Y (2011). "The functional role of intramuscular interstitial cells of Cajal in the stomach". J Smooth Muscle Res. 47 (2): 47–53. doi:10.1540/jsmr.47.47. PMID 21757854.
  8. ^ a b c Sanders KM, Zhu MH, Britton F, Koh SD, Ward SM (February 2012). "Anoctamins and gastrointestinal smooth muscle excitability". Exp. Physiol. 97 (2): 200–206. doi:10.1113/expphysiol.2011.058248. PMC 3272164. PMID 22002868.
  9. ^ a b Zhu MH, Sung IK, Zheng H, Sung TS, Britton FC, O'Driscoll K, Koh SD, Sanders KM (September 2011). "Muscarinic activation of Ca2+-activated Cl- current in interstitial cells of Cajal". J. Physiol. 589 (Pt 18): 4565–82. doi:10.1113/jphysiol.2011.211094. PMC 3208225. PMID 21768263.
  10. ^ Pocock, Richards, Richards, Human Physiology 4/ed, Oxford University Press, 2012. ISBN 978-0-19-957493-3. p.581
  11. ^ Miettinen M, Lasota J (2006). "Gastrointestinal stromal tumors: review on morphology, molecular pathology, prognosis, and differential diagnosis". Arch Pathol Lab Med. 130 (10): 1466–78. doi:10.5858/2006-130-1466-GSTROM. ISSN 1543-2165. PMID 17090188.
  12. ^ De Giorgio R, Sarnelli G, Corinaldesi R, Stanghellini V (2004). "Advances in our understanding of the pathology of chronic intestinal pseudo-obstruction". Gut. 53 (11): 1549–1552. doi:10.1136/gut.2004.043968. PMC 1774265. PMID 15479666. Full Text
  13. ^ Sanders K, Ward S (2006). "Interstitial cells of Cajal: a new perspective on smooth muscle function". J Physiol. 576 (Pt 3): 721–726. doi:10.1113/jphysiol.2006.115279. PMC 1890422. PMID 16873406.
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