Biology:Lamina propria

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Short description: Thin connective layer forming part of the mucous membranes
Lamina propria
Oral mucosa.png
The lamina propria, a thin layer of connective tissue, is part of the mucosa. Here is an example of the mucosa of the mouth.
Details
Part ofMucosa
Identifiers
Latinlamina propria mucosæ
Anatomical terminology

The lamina propria is a thin layer of connective tissue that forms part of the moist linings known as mucous membranes or mucosae, which line various tubes in the body, such as the respiratory tract, the gastrointestinal tract, and the urogenital tract.

The lamina propria is a thin layer of loose (areolar) connective tissue, which lies beneath the epithelium, and together with the epithelium and basement membrane constitutes the mucosa. As its Latin name indicates, it is a characteristic component of the mucosa, or the mucosa's "own special layer." Thus, the term mucosa or mucous membrane refers to the combination of the epithelium and the lamina propria.[1]

The connective tissue of the lamina propria is loose and rich in cells. The cells of the lamina propria are variable and can include fibroblasts, lymphocytes, plasma cells, macrophages, eosinophilic leukocytes, and mast cells.[2] It provides support and nutrition to the epithelium, as well as the means to bind to the underlying tissue. Irregularities in the connective tissue surface, such as papillae found in the tongue, increase the area of contact of the lamina propria and the epithelium.[3]

Structure

The lamina propria is a loose connective tissue, hence it is not as fibrous as the underlying connective tissue of the submucosa.[4][self-published source?] The connective tissue and architecture of the lamina propria is very compressible and elastic, this can be seen in organs that require expansion such as the bladder.[5] The collagen in the lamina propria of elastic organs has been shown to play a major role in mechanical function. In the bladder the collagen composition of its lamina propria allows for structure, tensile strength, and compliance, through complex coiling.[6] It has been suggested that myofibroblasts also reside in the lamina propria of several organs. These cells have characteristics of both smooth muscle and fibroblasts.[7]

The lamina propria may also be rich in vascular networks, lymphatic vessels, elastic fibers, and smooth muscle fascicles from the muscularis mucosae. Afferent and efferent nerve endings can be found in the lamina propria as well.[6] Immune cells as well as lymphoid tissue, including lymphoid nodules and capillaries, may be present. Smooth muscle fibers may be in the lamina propria, such as in the intestinal villi. It is practically void of fat cells.[4] Lymphatics penetrate the mucosa and lie below the basement membrane of the epithelium, from there they drain the lamina propria.[8] The fast rate of cell death and regeneration of the epithelium leaves behind many apoptotic cell bodies. These have been found to go into the lamina propria, most of which are inside its macrophages.[9]

Function

Role in the immune system

Because the epithelium is often under external stress and is somewhat delicate, the lamina propria hosts many immune cells.[4] In the intestinal tract the immune system must have tolerance to the normal intestinal flora, yet respond to pathogenic microorganisms. Imbalance of this causes inflammation diseases such as inflammatory bowel disease.[10] The lamina propria’s richness in macrophages and lymphoid cells makes it a key place for immune responses to occur. It forms part of the barrier that protects internal tissues from external pathogenic microorganisms, especially from the gastrointestinal tract.[11]

Clinical significance

Progression of epithelial cancer often relies on deep and regional lymph node invasion.[12] The lamina propria, being one of the barriers to the submucosa, is an area where epithelial cancer invasion is of significance since lymphatic invasion is an independent predictor of lymph node metastasis, especially in gastric cancer.[13] As soon as the tumors breach the basement membrane and reach the lamina propria, they are exposed to lymphatics which may increase the rate of metastasis and cancer progression. Deeper invasion into the submucosa will increase the exposure to lymphatics.[8]

Long-standing inflammation is a risk factor for the development of cancer. The lamina propria macrophages when under much stress release pro-inflammatory signals that may lead to increased probability of developing cancer. An example of this is the over activation of the IL-6/STAT3 pathway, which has been linked to colitis-associated cancer.[14]

See also

References

  1. Burkitt, H. George; Young, Barbara; Heath, John W., eds (1993). Wheater's Functional Histology (3rd ed.). Churchill Livingstone. ISBN 978-0-443-04691-9. https://archive.org/details/wheatersfunction00hgeo. [page needed]
  2. Slomianka, Lutz (2009). "Blue Histology-Gastrointestinal Tract". The University of Western Australia. http://www.lab.anhb.uwa.edu.au/mb140/CorePages/GIT/git.htm. 
  3. Mescher, Anthony (2009). Junqueira's Basic Histology: Text & Atlas (12th ed.). McGraw Hill Professional. ISBN 978-0-07-171475-4. [page needed]
  4. 4.0 4.1 4.2 King, David (2009). "Study Guide: Histology of the Gastrointestinal System". http://www.siumed.edu/~dking2/erg/giguide.htm. 
  5. Chang, S. L.; Chung, J. S.; Yeung, M. K.; Howard, P. S.; MacArak, E. J. (1999). "Roles of the Lamina Propria and the Detrusor in Tension Transfer during Bladder Filling". Scandinavian Journal of Urology and Nephrology 33 (201): 38–45. doi:10.1080/003655999750042132. PMID 10573775. 
  6. 6.0 6.1 Andersson, Karl-Erik; McCloskey, Karen D. (2014). "Lamina propria: The functional center of the bladder?". Neurourology and Urodynamics 33 (1): 9–16. doi:10.1002/nau.22465. PMID 23847015. 
  7. Wiseman, O.J.; Fowler, C.J.; Landon, D.N. (2003). "The role of the human bladder lamina propria myofibroblast". BJU International 91 (1): 89–93. doi:10.1046/j.1464-410X.2003.03802.x. PMID 12614258. 
  8. 8.0 8.1 Rice, Thomas W; Zuccaro, Gregory; Adelstein, David J; Rybicki, Lisa A; Blackstone, Eugene H; Goldblum, John R (1998). "Esophageal Carcinoma: Depth of Tumor Invasion is Predictive of Regional Lymph Node Status". The Annals of Thoracic Surgery 65 (3): 787–92. doi:10.1016/S0003-4975(97)01387-8. PMID 9527214. 
  9. Hall, Peter A.; Coates, Philip J.; Ansari, Bijan; Hopwood, David (1994). "Regulation of cell number in the mammalian gastrointestinal tract: The importance of apoptosis". Journal of Cell Science 107 (12): 3569–77. doi:10.1242/jcs.107.12.3569. PMID 7706406. http://jcs.biologists.org/cgi/pmidlookup?view=long&pmid=7706406. 
  10. Varol, Chen; Vallon-Eberhard, Alexandra; Elinav, Eran; Aychek, Tegest; Shapira, Yami; Luche, Hervé; Fehling, Hans Jörg; Hardt, Wolf-Dietrich et al. (2009). "Intestinal Lamina Propria Dendritic Cell Subsets Have Different Origin and Functions". Immunity 31 (3): 502–12. doi:10.1016/j.immuni.2009.06.025. PMID 19733097. 
  11. Bischoff, Stephan C; Barbara, Giovanni; Buurman, Wim; Ockhuizen, Theo; Schulzke, Jörg-Dieter; Serino, Matteo; Tilg, Herbert; Watson, Alastair et al. (2014-11-18). "Intestinal permeability – a new target for disease prevention and therapy". BMC Gastroenterology 14: 189. doi:10.1186/s12876-014-0189-7. ISSN 1471-230X. PMID 25407511. 
  12. Lee, Ji Yong; Joo, Hee Jae; Cho, Dae Sung; Kim, Sun Il; Ahn, Hyun Soo; Kim, Se Joong (2012). "Prognostic Significance of Substaging according to the Depth of Lamina Propria Invasion in Primary T1 Transitional Cell Carcinoma of the Bladder". Korean Journal of Urology 53 (5): 317–23. doi:10.4111/kju.2012.53.5.317. PMID 22670190. 
  13. Yonemura, Yutaka; Endou, Yoshio; Tabachi, Kayoko; Kawamura, Taiichi; Yun, Hyo-Yung; Kameya, Toru; Hayashi, Isamu; Bandou, Etsurou et al. (2006). "Evaluation of lymphatic invasion in primary gastric cancer by a new monoclonal antibody, D2-40". Human Pathology 37 (9): 1193–9. doi:10.1016/j.humpath.2006.04.014. PMID 16938525. 
  14. Matsumoto, Satoshi; Hara, Taeko; Mitsuyama, Keiichi; Yamamoto, Mayuko; Tsuruta, Osamu; Sata, Michio; Scheller, Jürgen; Rose-John, Stefan et al. (2009). "Essential Roles of IL-6 Trans-Signaling in Colonic Epithelial Cells, Induced by the IL-6/Soluble-IL-6 Receptor Derived from Lamina Propria Macrophages, on the Development of Colitis-Associated Premalignant Cancer in a Murine Model". The Journal of Immunology 184 (3): 1543–51. doi:10.4049/jimmunol.0801217. PMID 20042582. 

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