Langerhans cell

Not to be confused with the cells of the islets of Langerhans, found in the pancreas, or Langhans giant cell.
Section of skin showing large numbers of dendritic cells (Langerhans cells) in the epidermis. (M. ulcerans infection, S100 immunoperoxidase stain.)
The representation of Langerhans cells in the Cell Ontology. A portion of the Cell Ontology is shown with ovals corresponding to cell types defined in the ontology and arrows corresponding to relations between those cell types. Langerhans cell is represented by a yellow oval; blue arrows correspond to is_a relations, and orange arrows correspond to develops_from relations. Only a subset of Langerhans cell parent types are included in the figure.[1]

Langerhans cells are dendritic cells (antigen-presenting immune cells) of the skin and mucosa, and contain organelles called Birbeck granules. They are present in all layers of the epidermis except the stratum corneum, which protects against infections, and are most prominent in the stratum spinosum.[2] They also occur in the papillary dermis, particularly around blood vessels,[2] as well as in the mucosa of the mouth, foreskin, and vagina.[3] They can be found in other tissues, such as lymph nodes, particularly in association with the condition Langerhans cell histiocytosis (LCH).

Function

In skin infections, the local Langerhans cells take up and process microbial antigens to become fully functional antigen-presenting cells.

Generally, dendritic cells in tissue are active in the capture, uptake and processing of antigens. Once dendritic cells arrive in secondary lymphoid tissue, however, they lose these properties while gaining the capacity to interact with naive T-cells.

Langerhans cells derive from the cellular differentiation of monocytes with the marker "Gr-1" (also known as "Ly-6G"). This differentiation requires stimulation by colony stimulating factor (CSF)-1.[4] They are similar in morphology and function to macrophages.

Langerin is a protein found in Langerhans cells,[5] and other types of dendritic cells.[6]

Clinical significance

LCH

In the rare disease Langerhans cell histiocytosis (LCH), an excess of cells similar to these cells are produced. However LCH cells stain positive to CD14 which is a monocyte marker and shows a different, hematopoietic origin for the disorder.[7] LCH can cause damage to skin, bone and other organs.

HIV

Langerhans cells may be initial cellular targets in the sexual transmission of HIV,[8] and may be a target, reservoir, and vector of dissemination.[9]

Langerhans cells have been observed in foreskin, vaginal, and oral mucosa of humans; the lower concentrations in oral mucosa suggest that it is not a likely source of HIV infection relative to foreskin and vaginal mucosa.[3]

On March 4, 2007 the online Nature Medicine magazine published the research letter "Langerin is a natural barrier to HIV-1 transmission by Langerhans cells."[10] One of the authors of the study, Teunis Geijtenbeek, said that "Langerin is able to scavenge viruses from the surrounding environment, thereby preventing infection" and "since generally all tissues on the outside of our bodies have Langerhans cells, we think that the human body is equipped with an antiviral defense mechanism, destroying incoming viruses."[11]

HPV

High-risk human papillomaviruses (HPV) are sexually transmitted viruses causally associated with several cancers including cervical, vaginal, anal, and head and neck cancers that cause significant morbidity and mortality worldwide.[12][13][14][15] Over half of all cervical cancer cases are associated with HPV16, the most common of the cancer-causing high-risk genotypes.[16] During its natural life cycle, HPV16 infects the basal cells of the epithelium and interacts with Langerhans cells within the epithelial layer,[17] which are responsible for initiating immune responses against epithelial invading pathogens.[18] However, HPV does not activate Langerhans cells in vitro, and this may represent a key mechanism by which HPV evades immune detection in vivo.[19][20][21][22] Specifically, HPV16 entry into Langerhans cells via the annexin A2/S100A10 heterotetramer results in suppressive signaling and lack of Langerhans cell-mediated immune responses.[23] This Langerhans cell-targeted immune escape mechanism seems to be conserved among different HPV genotypes enabling these viruses to remain undetected in the absence of other inflammatory events.[24]

It was demonstrated that Langerhans cells in HPV-induced cervical lesions were spherical, lacked dendrites, and secreted the suppressive cytokine IL-10 in vivo.[25] The authors further demonstrated that the number of IL-10 secreting immunosuppressive Langerhans cells, and the amount of IL-10 produced in lesions, corresponded with the severity of histopathology and HPV viral load, providing evidence of an active immunosuppressive mechanism employed by HPV that targets Langerhans cells in vivo.

History

The Langerhans cell is named after Paul Langerhans, a German physician and anatomist, who discovered the cells at the age of 21 while he was a medical student.[26] Because of their dendritic nature, he mistakenly identified the cells as part of the nervous system.[27]

See also

References

  1. Masci, Anna; Arighi, Cecilia N; Diehl, Alexander D; Lieberman, Anne E; Mungall, Chris; Scheuermann, Richard H; Smith, Barry; Cowell, Lindsay G (2009). "An improved ontological representation of dendritic cells as a paradigm for all cell types". BMC Bioinformatics. 10: 70. doi:10.1186/1471-2105-10-70. PMC 2662812Freely accessible. PMID 19243617.
  2. 1 2 Young, Barbara; Heath, John W. (2000). Wheater's Functional Histology (4th ed.). Churchill Livingstone. p. 162. ISBN 0-443-05612-9.
  3. 1 2 Hussain, LA; Lehner, T (1995). "Comparative investigation of Langerhans' cells and potential receptors for HIV in oral, genitourinary and rectal epithelia". Immunology. 85 (3): 475–84. PMC 1383923Freely accessible. PMID 7558138.
  4. Ginhoux, Florent; Tacke, Frank; Angeli, Veronique; Bogunovic, Milena; Loubeau, Martine; Dai, Xu-Ming; Stanley, E Richard; Randolph, Gwendalyn J; Merad, Miriam (2006). "Langerhans cells arise from monocytes in vivo". Nature Immunology. 7 (3): 265–73. doi:10.1038/ni1307. PMID 16444257.
  5. Valladeau, Jenny; Dezutter-Dambuyant, Colette; Saeland, Sem (2003). "Langerin/CD207 Sheds Light on Formation of Birbeck Granules and Their Possible Function in Langerhans Cells". Immunologic Research. 28 (2): 93–107. doi:10.1385/IR:28:2:93. PMID 14610287.
  6. Poulin, Lionel Franz; Henri, Sandrine; de Bovis, Béatrice; Devilard, Elisabeth; Kissenpfennig, Adrien; Malissen, Bernard (2007). "The dermis contains langerin+ dendritic cells that develop and function independently of epidermal Langerhans cells". Journal of Experimental Medicine. 204 (13): 3119–31. doi:10.1084/jem.20071724. PMC 2150992Freely accessible. PMID 18086861.
  7. http://medicine.yale.edu/urology/programs/info.aspx?id=CDR600550
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  9. Dezutter-Dambuyant, C; Charbonnier, AS; Schmitt, D (December 1995). "Cellules dendritiques épithéliales et infection par HIV-1 in vivo et in vitro" [Epithelial dendritic cells and HIV-1 infection in vivo and in vitro]. Pathologie Biologie (in French). 43 (10): 882–8. PMID 8786894.
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  19. Fausch, Steven C.; Da Silva, Diane M.; Rudolf, Michael P.; Kast, W. Martin (2002-09-15). "Human papillomavirus virus-like particles do not activate Langerhans cells: a possible immune escape mechanism used by human papillomaviruses". Journal of Immunology (Baltimore, Md.: 1950). 169 (6): 3242–3249. doi:10.4049/jimmunol.169.6.3242. ISSN 0022-1767. PMID 12218143.
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  27. Online Mendelian Inheritance in Man (OMIM) Langerhans cell histiocytosis -604856
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