fbpx
Wikipedia

Plasma cell

April 12, 2024

Not to be confused with blood plasma.

Plasma cells, also called plasma B cells or effector B cells, are white blood cells that originate in the lymphoid organs as B cells[1][2] and secrete large quantities of proteins called antibodies in response to being presented specific substances called antigens. These antibodies are transported from the plasma cells by the blood plasma and the lymphatic system to the site of the target antigen (foreign substance), where they initiate its neutralization or destruction. B cells differentiate into plasma cells that produce antibody molecules closely modeled after the receptors of the precursor B cell.[3]

Plasma cell
Micrograph of malignant plasma cells (plasmacytoma), many displaying characteristic "clockface nuclei", also seen in normal plasma cells. H&E stain.
Micrograph of a plasma cell with distinct clear perinuclear region of the cytoplasm, which contains large numbers of Golgi bodies.
Details
SystemLymphatic system
Identifiers
Latinplasmocytus
MeSHD010950
THH2.00.03.0.01006
FMA70574
Anatomical terms of microanatomy
[edit on Wikidata]

Structure edit

 
Plasma cells with Dutcher and Russell bodies (H&E stain, 100×, oil)

Plasma cells are large lymphocytes with abundant cytoplasm and a characteristic appearance on light microscopy. They have basophilic cytoplasm and an eccentric nucleus with heterochromatin in a characteristic cartwheel or clock face arrangement. Their cytoplasm also contains a pale zone that on electron microscopy contains an extensive Golgi apparatus and centrioles . Abundant rough endoplasmic reticulum combined with a well-developed Golgi apparatus makes plasma cells well-suited for secreting immunoglobulins.[4] Other organelles in a plasma cell include ribosomes, lysosomes, mitochondria, and the plasma membrane.[citation needed]

Surface antigens edit

Terminally differentiated plasma cells express relatively few surface antigens, and do not express common pan-B cell markers, such as CD19 and CD20. Instead, plasma cells are identified through flow cytometry by their additional expression of CD138, CD78, and the Interleukin-6 receptor. In humans, CD27 is a good marker for plasma cells; naïve B cells are CD27−, memory B-cells are CD27+ and plasma cells are CD27++.[5]

The surface antigen CD138 (syndecan-1) is expressed at high levels.[6]

Another important surface antigen is CD319 (SLAMF7). This antigen is expressed at high levels on normal human plasma cells. It is also expressed on malignant plasma cells in multiple myeloma. Compared with CD138, which disappears rapidly ex vivo, the expression of CD319 is considerably more stable.[7]

Development edit

After leaving the bone marrow, the B cell acts as an antigen-presenting cell (APC) and internalizes offending antigens, which are taken up by the B cell through receptor-mediated endocytosis and processed. Pieces of the antigen (which are now known as antigenic peptides) are loaded onto MHC II molecules, and presented on its extracellular surface to CD4+ T cells (sometimes called T helper cells). These T cells bind to the MHC II-antigen molecule and cause activation of the B cell. This is a type of safeguard to the system, similar to a two-factor authentication method. First, the B cells must encounter a foreign antigen and are then required to be activated by T helper cells before they differentiate into specific cells.[8]

Upon stimulation by a T cell, which usually occurs in germinal centers of secondary lymphoid organs such as the spleen and lymph nodes, the activated B cell begins to differentiate into more specialized cells. Germinal center B cells may differentiate into memory B cells or plasma cells. Most of these B cells will become plasmablasts (or "immature plasma cells"), and eventually plasma cells, and begin producing large volumes of antibodies. Some B cells will undergo a process known as affinity maturation.[9] This process favors, by selection for the ability to bind antigen with higher affinity, the activation and growth of B cell clones able to secrete antibodies of higher affinity for the antigen.[10]

Immature plasma cells edit

 
Plasmablast, Wright stain.

The most immature blood cell that is considered of plasma cell lineage is the plasmablast.[11] Plasmablasts secrete more antibodies than B cells, but less than plasma cells.[12] They divide rapidly and are still capable of internalizing antigens and presenting them to T cells.[12] A cell may stay in this state for several days, and then either die or irrevocably differentiate into a mature, fully differentiated plasma cell.[12] Differentiation of mature B cells into plasma cells is dependent upon the transcription factors Blimp-1/PRDM1, BCL6, and IRF4.[10]

Function edit

Unlike their precursors, plasma cells cannot switch antibody classes, cannot act as antigen-presenting cells because they no longer display MHC-II, and do not take up antigen because they no longer display significant quantities of immunoglobulin on the cell surface.[12] However, continued exposure to antigen through those low levels of immunoglobulin is important, as it partly determines the cell's lifespan.[12]

The lifespan, class of antibodies produced, and the location that the plasma cell moves to also depends on signals, such as cytokines, received from the T cell during differentiation.[13] Differentiation through a T cell-independent antigen stimulation (stimulation of a B cell that does not require the involvement of a T cell) can happen anywhere in the body[9] and results in short-lived cells that secrete IgM antibodies.[13] The T cell-dependent processes are subdivided into primary and secondary responses: a primary response (meaning that the T cell is present at the time of initial contact by the B cell with the antigen) produces short-lived cells that remain in the extramedullary regions of lymph nodes; a secondary response produces longer-lived cells that produce IgG and IgA, and frequently travel to the bone marrow.[13] For example, plasma cells will likely secrete IgG3 antibodies if they matured in the presence of the cytokine interferon-gamma. Since B cell maturation also involves somatic hypermutation (a process completed before differentiation into a plasma cell), these antibodies frequently have a very high affinity for their antigen.

Plasma cells can only produce a single kind of antibody in a single class of immunoglobulin. In other words, every B cell is specific to a single antigen, but each cell can produce several thousand matching antibodies per second.[14] This prolific production of antibodies is an integral part of the humoral immune response.

Long-lived plasma cells edit

Main article: Long-lived plasma cell

The current findings suggest that after the process of affinity maturation in germinal centers, plasma cells develop into one of two types of cells: short-lived plasma cells (SLPC) or long-lived plasma cells (LLPC). LLPC mainly reside in the bone marrow for a long period of time and secrete antibodies, thus providing long-term protection. LLPC can maintain antibody production for decades or even for the lifetime of an individual,[15][16] and, unlike B cells, LLPC do not need antigen restimulation to generate antibodies. Human LLPC population can be identified as CD19 CD38hi CD138+ cells.[17]

The long-term survival of LLPC are dependent on a specific environment in the bone marrow, the plasma cell survival niche.[18] Removal of an LLPC from its survival niche results in its rapid death. A survival niche can only support limited number of LLPC, thus the niche’s environment must protect its LLPC cells but be able to accept new arrivals.[19][20] The plasma cell survival niche is defined by a combination of cellular and molecular factors and though it has yet to be properly defined, molecules such as IL-5, IL-6, TNF-α, stromal cell-derived factor-1α and signalling via CD44 have been shown to play a role in the survival of LLPC.[21] LLPC can also be found, to a lesser degree, in gut-associated lymphoid tissue (GALT), where they produce IgA antibodies and contribute to mucosal immunity. Recent findings suggest that plasma cells in the gut do not necessarily need to be generated de novo from active B cells but there are also long-lived PC, suggesting the existence of a similar survival niche.[22] Tissue specific niches that allow for the survival of LLPC have been also described in nasal-associated lymphoid tissues (NALT), human tonsillar lymphoid tissues and human mucosa or mucosa-associated lymphoid tissues (MALT).[23][24][25][26]

Originally it was thought that the continuous production of antibodies is a result of constant replenishment of short-lived plasma cells by memory B cell re-stimulation. Recent findings, however, show that some PC are truly long-lived. The absence of antigens and the depletion of B cells does not appear to have an effect on the production of high-affinity antibodies by the LLPC. Prolonged depletion of B cells (with anti-CD20 monoclonal antibody treatment that affects B cells but not PC) also did not affect antibody titres.[27][28][29] LLPC secrete high levels of IgG independently of B cells. LLPC in bone marrow are the main source of circulating IgG in humans.[30] Even though IgA production is traditionally associated with mucosal sites, some plasma cells in bone marrow also produce IgA.[31] LLPC in bone marrow have been observed producing IgM.[32]

Clinical significance edit

Plasmacytoma, multiple myeloma, Waldenström macroglobulinemia, heavy chain disease, and plasma cell leukemia are cancers of the plasma cells.[33] Multiple myeloma is frequently identified because malignant plasma cells continue producing an antibody, which can be detected as a paraprotein. Monoclonal gammopathy of undetermined significance (MGUS) is a plasma cell dyscrasia characterized by the secretion of a myeloma protein into the blood and may lead to multiple myeloma.[34]

Common variable immunodeficiency is thought to be due to a problem in the differentiation from lymphocytes to plasma cells. The result is a low serum antibody level and risk of infections.

Primary amyloidosis (AL) is caused by the deposition of excess immunoglobulin light chains which are secreted from plasma cells.

See also edit

References edit

  1. ^ Guyton and Hall Textbook of Medical Physiology 14th edition: unit 6, chapter 35.
  2. ^ "Plasma Cell - an overview | ScienceDirect Topics".
  3. ^ "Plasma cell - biology". britannica.com.
  4. ^ "Plasma Cell - LabCE.com, Laboratory Continuing Education". www.labce.com. Retrieved 2 June 2018.
  5. ^ Bona C, Bonilla FA, Soohoo M (1996). "5". Textbook of Immunology (2 ed.). CRC Press. p. 102. ISBN 978-3-7186-0596-5.
  6. ^ Rawstron AC (May 2006). "Immunophenotyping of plasma cells". Current Protocols in Cytometry. Chapter. Chapter 6: Unit6.23. doi:10.1002/0471142956.cy0623s36. ISBN 0-471-14295-6. PMID 18770841. S2CID 19511070.
  7. ^ Frigyesi I, Adolfsson J, Ali M, Christophersen MK, Johnsson E, Turesson I, et al. (February 2014). "Robust isolation of malignant plasma cells in multiple myeloma". Blood. 123 (9): 1336–40. doi:10.1182/blood-2013-09-529800. PMID 24385542.
  8. ^ Hoffbrand, A. V. (2011). "Chapter 9 White Cells: Lymphocytes". Essential haematology. P. A. H. Moss, J. E. Pettit (6th ed.). Malden, Mass.: Wiley-Blackwell. ISBN 978-1-118-29397-3. OCLC 768731797.
  9. ^ a b Neuberger MS, Honjo T, Alt FW (2004). Molecular biology of B cells. Amsterdam: Elsevier. pp. 189–191. ISBN 0-12-053641-2.
  10. ^ a b Merino Tejero, Elena; Lashgari, Danial; García-Valiente, Rodrigo; Gao, Xuefeng; Crauste, Fabien; Robert, Philippe A.; Meyer-Hermann, Michael; Martínez, María Rodríguez; van Ham, S. Marieke; Guikema, Jeroen E. J.; Hoefsloot, Huub; van Kampen, Antoine H. C. (2020). "Multiscale Modeling of Germinal Center Recapitulates the Temporal Transition From Memory B Cells to Plasma Cells Differentiation as Regulated by Antigen Affinity-Based Tfh Cell Help". Frontiers in Immunology. 11: 620716. doi:10.3389/fimmu.2020.620716. ISSN 1664-3224. PMC 7892951. PMID 33613551.
  11. ^ Glader B, Greer JG, Foerster J, Rodgers GC, Paraskevas F (2008). Wintrobe's Clinical Hematology, 2-Vol. Set. Hagerstwon, MD: Lippincott Williams & Wilkins. p. 347. ISBN 978-0-7817-6507-7.
  12. ^ a b c d e Walport M, Murphy K, Janeway C, Travers PJ (2008). Janeway's immunobiology. New York: Garland Science. pp. 387–388. ISBN 978-0-8153-4123-9.
  13. ^ a b c Caligaris-Cappio F, Ferrarini M (1997). Human B Cell Populations (Chemical Immunology). Vol. 67. S. Karger AG (Switzerland). pp. 103–104. ISBN 3-8055-6460-0.
  14. ^ Kierszenbaum AL (2002). Histology and cell biology: an introduction to pathology. St. Louis: Mosby. p. 275. ISBN 0-323-01639-1.
  15. ^ Slifka MK, Matloubian M, Ahmed R (March 1995). "Bone marrow is a major site of long-term antibody production after acute viral infection". Journal of Virology. 69 (3): 1895–902. doi:10.1128/jvi.69.3.1895-1902.1995. PMC 188803. PMID 7853531.
  16. ^ Radbruch, Andreas; Muehlinghaus, Gwendolin; Luger, Elke O.; Inamine, Ayako; Smith, Kenneth G. C.; Dörner, Thomas; Hiepe, Falk (October 2006). "Competence and competition: the challenge of becoming a long-lived plasma cell". Nature Reviews Immunology. 6 (10): 741–750. doi:10.1038/nri1886. ISSN 1474-1733. PMID 16977339. S2CID 23664563.
  17. ^ Halliley JL, Tipton CM, Liesveld J, Rosenberg AF, Darce J, Gregoretti IV, et al. (July 2015). "Long-Lived Plasma Cells Are Contained within the CD19(-)CD38(hi)CD138(+) Subset in Human Bone Marrow". Immunity. 43 (1): 132–45. doi:10.1016/j.immuni.2015.06.016. PMC 4680845. PMID 26187412.
  18. ^ Manz RA, Radbruch A (April 2002). "Plasma cells for a lifetime?". European Journal of Immunology. 32 (4): 923–7. doi:10.1002/1521-4141(200204)32:4<923::aid-immu923>3.0.co;2-1. PMID 11920557.
  19. ^ Nguyen, Doan C.; Joyner, Chester J.; Sanz, Iñaki; Lee, F. Eun-Hyung (2019-09-11). "Factors Affecting Early Antibody Secreting Cell Maturation Into Long-Lived Plasma Cells". Frontiers in Immunology. 10: 2138. doi:10.3389/fimmu.2019.02138. ISSN 1664-3224. PMC 6749102. PMID 31572364.
  20. ^ Tangye, Stuart G. (December 2011). "Staying alive: regulation of plasma cell survival". Trends in Immunology. 32 (12): 595–602. doi:10.1016/j.it.2011.09.001. PMID 22001488.
  21. ^ Cassese G, Arce S, Hauser AE, Lehnert K, Moewes B, Mostarac M, et al. (August 2003). "Plasma cell survival is mediated by synergistic effects of cytokines and adhesion-dependent signals". Journal of Immunology. 171 (4): 1684–90. doi:10.4049/jimmunol.171.4.1684. PMID 12902466.
  22. ^ Lemke A, Kraft M, Roth K, Riedel R, Lammerding D, Hauser AE (January 2016). "Long-lived plasma cells are generated in mucosal immune responses and contribute to the bone marrow plasma cell pool in mice". Mucosal Immunology. 9 (1): 83–97. doi:10.1038/mi.2015.38. PMID 25943272.
  23. ^ Liang, Bin; Hyland, Lisa; Hou, Sam (June 2001). "Nasal-Associated Lymphoid Tissue Is a Site of Long-Term Virus-Specific Antibody Production following Respiratory Virus Infection of Mice". Journal of Virology. 75 (11): 5416–5420. doi:10.1128/JVI.75.11.5416-5420.2001. ISSN 0022-538X. PMC 114951. PMID 11333927.
  24. ^ van Laar, Jacob M.; Melchers, Marc; Teng, Y. K. Onno; van der Zouwen, Boris; Mohammadi, Rozbeh; Fischer, Randy; Margolis, Leonid; Fitzgerald, Wendy; Grivel, Jean-Charles; Breedveld, Ferdinand C.; Lipsky, Peter E. (September 2007). "Sustained Secretion of Immunoglobulin by Long-Lived Human Tonsil Plasma Cells". The American Journal of Pathology. 171 (3): 917–927. doi:10.2353/ajpath.2007.070005. PMC 1959503. PMID 17690187.
  25. ^ Huard, Bertrand; McKee, Thomas; Bosshard, Carine; Durual, Stéphane; Matthes, Thomas; Myit, Samir; Donze, Olivier; Frossard, Christophe; Chizzolini, Carlo; Favre, Christiane; Zubler, Rudolf (2008-07-01). "APRIL secreted by neutrophils binds to heparan sulfate proteoglycans to create plasma cell niches in human mucosa". Journal of Clinical Investigation. 118 (8): 2887–2895. doi:10.1172/JCI33760. ISSN 0021-9738. PMC 2447926. PMID 18618015.
  26. ^ Lemke, A; Kraft, M; Roth, K; Riedel, R; Lammerding, D; Hauser, A E (January 2016). "Long-lived plasma cells are generated in mucosal immune responses and contribute to the bone marrow plasma cell pool in mice". Mucosal Immunology. 9 (1): 83–97. doi:10.1038/mi.2015.38. ISSN 1933-0219. PMID 25943272.
  27. ^ Slifka MK, Antia R, Whitmire JK, Ahmed R (March 1998). "Humoral immunity due to long-lived plasma cells". Immunity. 8 (3): 363–72. doi:10.1016/S1074-7613(00)80541-5. PMID 9529153.
  28. ^ DiLillo DJ, Hamaguchi Y, Ueda Y, Yang K, Uchida J, Haas KM, et al. (January 2008). "Maintenance of long-lived plasma cells and serological memory despite mature and memory B cell depletion during CD20 immunotherapy in mice". Journal of Immunology. 180 (1): 361–71. doi:10.4049/jimmunol.180.1.361. PMID 18097037.
  29. ^ Ahuja A, Anderson SM, Khalil A, Shlomchik MJ (March 2008). "Maintenance of the plasma cell pool is independent of memory B cells". Proceedings of the National Academy of Sciences of the United States of America. 105 (12): 4802–7. Bibcode:2008PNAS..105.4802A. doi:10.1073/pnas.0800555105. PMC 2290811. PMID 18339801.
  30. ^ Longmire RL, McMillan R, Yelenosky R, Armstrong S, Lang JE, Craddock CG (October 1973). "In vitro splenic IgG synthesis in Hodgkin's disease". The New England Journal of Medicine. 289 (15): 763–7. doi:10.1056/nejm197310112891501. PMID 4542304.
  31. ^ Mei HE, Yoshida T, Sime W, Hiepe F, Thiele K, Manz RA, et al. (March 2009). "Blood-borne human plasma cells in steady state are derived from mucosal immune responses". Blood. 113 (11): 2461–9. doi:10.1182/blood-2008-04-153544. PMID 18987362.
  32. ^ Bohannon C, Powers R, Satyabhama L, Cui A, Tipton C, Michaeli M, et al. (June 2016). "Long-lived antigen-induced IgM plasma cells demonstrate somatic mutations and contribute to long-term protection". Nature Communications. 7 (1): 11826. Bibcode:2016NatCo...711826B. doi:10.1038/ncomms11826. PMC 4899631. PMID 27270306.
  33. ^ at Dorland's Medical Dictionary
  34. ^ Agarwal, Amit; Ghobrial, Irene M. (2013-03-01). "Monoclonal gammopathy of undetermined significance and smoldering multiple myeloma: a review of the current understanding of epidemiology, biology, risk stratification, and management of myeloma precursor disease". Clinical Cancer Research. 19 (5): 985–994. doi:10.1158/1078-0432.CCR-12-2922. ISSN 1557-3265. PMC 3593941. PMID 23224402.

External links edit

  • Histology image: 21001loa – Histology Learning System at Boston University

April 12, 2024
plasma, cell, confused, with, blood, plasma, also, called, plasma, cells, effector, cells, white, blood, cells, that, originate, lymphoid, organs, cells, secrete, large, quantities, proteins, called, antibodies, response, being, presented, specific, substances. Not to be confused with blood plasma Plasma cells also called plasma B cells or effector B cells are white blood cells that originate in the lymphoid organs as B cells 1 2 and secrete large quantities of proteins called antibodies in response to being presented specific substances called antigens These antibodies are transported from the plasma cells by the blood plasma and the lymphatic system to the site of the target antigen foreign substance where they initiate its neutralization or destruction B cells differentiate into plasma cells that produce antibody molecules closely modeled after the receptors of the precursor B cell 3 Plasma cellMicrograph of malignant plasma cells plasmacytoma many displaying characteristic clockface nuclei also seen in normal plasma cells H amp E stain Micrograph of a plasma cell with distinct clear perinuclear region of the cytoplasm which contains large numbers of Golgi bodies DetailsSystemLymphatic systemIdentifiersLatinplasmocytusMeSHD010950THH2 00 03 0 01006FMA70574Anatomical terms of microanatomy edit on Wikidata Contents 1 Structure 1 1 Surface antigens 2 Development 2 1 Immature plasma cells 3 Function 3 1 Long lived plasma cells 4 Clinical significance 5 See also 6 References 7 External linksStructure edit nbsp Plasma cells with Dutcher and Russell bodies H amp E stain 100 oil Plasma cells are large lymphocytes with abundant cytoplasm and a characteristic appearance on light microscopy They have basophilic cytoplasm and an eccentric nucleus with heterochromatin in a characteristic cartwheel or clock face arrangement Their cytoplasm also contains a pale zone that on electron microscopy contains an extensive Golgi apparatus and centrioles Abundant rough endoplasmic reticulum combined with a well developed Golgi apparatus makes plasma cells well suited for secreting immunoglobulins 4 Other organelles in a plasma cell include ribosomes lysosomes mitochondria and the plasma membrane citation needed Surface antigens edit Terminally differentiated plasma cells express relatively few surface antigens and do not express common pan B cell markers such as CD19 and CD20 Instead plasma cells are identified through flow cytometry by their additional expression of CD138 CD78 and the Interleukin 6 receptor In humans CD27 is a good marker for plasma cells naive B cells are CD27 memory B cells are CD27 and plasma cells are CD27 5 The surface antigen CD138 syndecan 1 is expressed at high levels 6 Another important surface antigen is CD319 SLAMF7 This antigen is expressed at high levels on normal human plasma cells It is also expressed on malignant plasma cells in multiple myeloma Compared with CD138 which disappears rapidly ex vivo the expression of CD319 is considerably more stable 7 Development editAfter leaving the bone marrow the B cell acts as an antigen presenting cell APC and internalizes offending antigens which are taken up by the B cell through receptor mediated endocytosis and processed Pieces of the antigen which are now known as antigenic peptides are loaded onto MHC II molecules and presented on its extracellular surface to CD4 T cells sometimes called T helper cells These T cells bind to the MHC II antigen molecule and cause activation of the B cell This is a type of safeguard to the system similar to a two factor authentication method First the B cells must encounter a foreign antigen and are then required to be activated by T helper cells before they differentiate into specific cells 8 Upon stimulation by a T cell which usually occurs in germinal centers of secondary lymphoid organs such as the spleen and lymph nodes the activated B cell begins to differentiate into more specialized cells Germinal center B cells may differentiate into memory B cells or plasma cells Most of these B cells will become plasmablasts or immature plasma cells and eventually plasma cells and begin producing large volumes of antibodies Some B cells will undergo a process known as affinity maturation 9 This process favors by selection for the ability to bind antigen with higher affinity the activation and growth of B cell clones able to secrete antibodies of higher affinity for the antigen 10 Immature plasma cells edit nbsp Plasmablast Wright stain The most immature blood cell that is considered of plasma cell lineage is the plasmablast 11 Plasmablasts secrete more antibodies than B cells but less than plasma cells 12 They divide rapidly and are still capable of internalizing antigens and presenting them to T cells 12 A cell may stay in this state for several days and then either die or irrevocably differentiate into a mature fully differentiated plasma cell 12 Differentiation of mature B cells into plasma cells is dependent upon the transcription factors Blimp 1 PRDM1 BCL6 and IRF4 10 Function editUnlike their precursors plasma cells cannot switch antibody classes cannot act as antigen presenting cells because they no longer display MHC II and do not take up antigen because they no longer display significant quantities of immunoglobulin on the cell surface 12 However continued exposure to antigen through those low levels of immunoglobulin is important as it partly determines the cell s lifespan 12 The lifespan class of antibodies produced and the location that the plasma cell moves to also depends on signals such as cytokines received from the T cell during differentiation 13 Differentiation through a T cell independent antigen stimulation stimulation of a B cell that does not require the involvement of a T cell can happen anywhere in the body 9 and results in short lived cells that secrete IgM antibodies 13 The T cell dependent processes are subdivided into primary and secondary responses a primary response meaning that the T cell is present at the time of initial contact by the B cell with the antigen produces short lived cells that remain in the extramedullary regions of lymph nodes a secondary response produces longer lived cells that produce IgG and IgA and frequently travel to the bone marrow 13 For example plasma cells will likely secrete IgG3 antibodies if they matured in the presence of the cytokine interferon gamma Since B cell maturation also involves somatic hypermutation a process completed before differentiation into a plasma cell these antibodies frequently have a very high affinity for their antigen Plasma cells can only produce a single kind of antibody in a single class of immunoglobulin In other words every B cell is specific to a single antigen but each cell can produce several thousand matching antibodies per second 14 This prolific production of antibodies is an integral part of the humoral immune response Long lived plasma cells edit Main article Long lived plasma cell The current findings suggest that after the process of affinity maturation in germinal centers plasma cells develop into one of two types of cells short lived plasma cells SLPC or long lived plasma cells LLPC LLPC mainly reside in the bone marrow for a long period of time and secrete antibodies thus providing long term protection LLPC can maintain antibody production for decades or even for the lifetime of an individual 15 16 and unlike B cells LLPC do not need antigen restimulation to generate antibodies Human LLPC population can be identified as CD19 CD38hi CD138 cells 17 The long term survival of LLPC are dependent on a specific environment in the bone marrow the plasma cell survival niche 18 Removal of an LLPC from its survival niche results in its rapid death A survival niche can only support limited number of LLPC thus the niche s environment must protect its LLPC cells but be able to accept new arrivals 19 20 The plasma cell survival niche is defined by a combination of cellular and molecular factors and though it has yet to be properly defined molecules such as IL 5 IL 6 TNF a stromal cell derived factor 1a and signalling via CD44 have been shown to play a role in the survival of LLPC 21 LLPC can also be found to a lesser degree in gut associated lymphoid tissue GALT where they produce IgA antibodies and contribute to mucosal immunity Recent findings suggest that plasma cells in the gut do not necessarily need to be generated de novo from active B cells but there are also long lived PC suggesting the existence of a similar survival niche 22 Tissue specific niches that allow for the survival of LLPC have been also described in nasal associated lymphoid tissues NALT human tonsillar lymphoid tissues and human mucosa or mucosa associated lymphoid tissues MALT 23 24 25 26 Originally it was thought that the continuous production of antibodies is a result of constant replenishment of short lived plasma cells by memory B cell re stimulation Recent findings however show that some PC are truly long lived The absence of antigens and the depletion of B cells does not appear to have an effect on the production of high affinity antibodies by the LLPC Prolonged depletion of B cells with anti CD20 monoclonal antibody treatment that affects B cells but not PC also did not affect antibody titres 27 28 29 LLPC secrete high levels of IgG independently of B cells LLPC in bone marrow are the main source of circulating IgG in humans 30 Even though IgA production is traditionally associated with mucosal sites some plasma cells in bone marrow also produce IgA 31 LLPC in bone marrow have been observed producing IgM 32 Clinical significance editPlasmacytoma multiple myeloma Waldenstrom macroglobulinemia heavy chain disease and plasma cell leukemia are cancers of the plasma cells 33 Multiple myeloma is frequently identified because malignant plasma cells continue producing an antibody which can be detected as a paraprotein Monoclonal gammopathy of undetermined significance MGUS is a plasma cell dyscrasia characterized by the secretion of a myeloma protein into the blood and may lead to multiple myeloma 34 Common variable immunodeficiency is thought to be due to a problem in the differentiation from lymphocytes to plasma cells The result is a low serum antibody level and risk of infections Primary amyloidosis AL is caused by the deposition of excess immunoglobulin light chains which are secreted from plasma cells See also editLeukocyte Plasma cell dyscrasia List of distinct cell types in the adult human bodyReferences edit Guyton and Hall Textbook of Medical Physiology 14th edition unit 6 chapter 35 Plasma Cell an overview ScienceDirect Topics Plasma cell biology britannica com Plasma Cell LabCE com Laboratory Continuing Education www labce com Retrieved 2 June 2018 Bona C Bonilla FA Soohoo M 1996 5 Textbook of Immunology 2 ed CRC Press p 102 ISBN 978 3 7186 0596 5 Rawstron AC May 2006 Immunophenotyping of plasma cells Current Protocols in Cytometry Chapter Chapter 6 Unit6 23 doi 10 1002 0471142956 cy0623s36 ISBN 0 471 14295 6 PMID 18770841 S2CID 19511070 Frigyesi I Adolfsson J Ali M Christophersen MK Johnsson E Turesson I et al February 2014 Robust isolation of malignant plasma cells in multiple myeloma Blood 123 9 1336 40 doi 10 1182 blood 2013 09 529800 PMID 24385542 Hoffbrand A V 2011 Chapter 9 White Cells Lymphocytes Essential haematology P A H Moss J E Pettit 6th ed Malden Mass Wiley Blackwell ISBN 978 1 118 29397 3 OCLC 768731797 a b Neuberger MS Honjo T Alt FW 2004 Molecular biology of B cells Amsterdam Elsevier pp 189 191 ISBN 0 12 053641 2 a b Merino Tejero Elena Lashgari Danial Garcia Valiente Rodrigo Gao Xuefeng Crauste Fabien Robert Philippe A Meyer Hermann Michael Martinez Maria Rodriguez van Ham S Marieke Guikema Jeroen E J Hoefsloot Huub van Kampen Antoine H C 2020 Multiscale Modeling of Germinal Center Recapitulates the Temporal Transition From Memory B Cells to Plasma Cells Differentiation as Regulated by Antigen Affinity Based Tfh Cell Help Frontiers in Immunology 11 620716 doi 10 3389 fimmu 2020 620716 ISSN 1664 3224 PMC 7892951 PMID 33613551 Glader B Greer JG Foerster J Rodgers GC Paraskevas F 2008 Wintrobe s Clinical Hematology 2 Vol Set Hagerstwon MD Lippincott Williams amp Wilkins p 347 ISBN 978 0 7817 6507 7 a b c d e Walport M Murphy K Janeway C Travers PJ 2008 Janeway s immunobiology New York Garland Science pp 387 388 ISBN 978 0 8153 4123 9 a b c Caligaris Cappio F Ferrarini M 1997 Human B Cell Populations Chemical Immunology Vol 67 S Karger AG Switzerland pp 103 104 ISBN 3 8055 6460 0 Kierszenbaum AL 2002 Histology and cell biology an introduction to pathology St Louis Mosby p 275 ISBN 0 323 01639 1 Slifka MK Matloubian M Ahmed R March 1995 Bone marrow is a major site of long term antibody production after acute viral infection Journal of Virology 69 3 1895 902 doi 10 1128 jvi 69 3 1895 1902 1995 PMC 188803 PMID 7853531 Radbruch Andreas Muehlinghaus Gwendolin Luger Elke O Inamine Ayako Smith Kenneth G C Dorner Thomas Hiepe Falk October 2006 Competence and competition the challenge of becoming a long lived plasma cell Nature Reviews Immunology 6 10 741 750 doi 10 1038 nri1886 ISSN 1474 1733 PMID 16977339 S2CID 23664563 Halliley JL Tipton CM Liesveld J Rosenberg AF Darce J Gregoretti IV et al July 2015 Long Lived Plasma Cells Are Contained within the CD19 CD38 hi CD138 Subset in Human Bone Marrow Immunity 43 1 132 45 doi 10 1016 j immuni 2015 06 016 PMC 4680845 PMID 26187412 Manz RA Radbruch A April 2002 Plasma cells for a lifetime European Journal of Immunology 32 4 923 7 doi 10 1002 1521 4141 200204 32 4 lt 923 aid immu923 gt 3 0 co 2 1 PMID 11920557 Nguyen Doan C Joyner Chester J Sanz Inaki Lee F Eun Hyung 2019 09 11 Factors Affecting Early Antibody Secreting Cell Maturation Into Long Lived Plasma Cells Frontiers in Immunology 10 2138 doi 10 3389 fimmu 2019 02138 ISSN 1664 3224 PMC 6749102 PMID 31572364 Tangye Stuart G December 2011 Staying alive regulation of plasma cell survival Trends in Immunology 32 12 595 602 doi 10 1016 j it 2011 09 001 PMID 22001488 Cassese G Arce S Hauser AE Lehnert K Moewes B Mostarac M et al August 2003 Plasma cell survival is mediated by synergistic effects of cytokines and adhesion dependent signals Journal of Immunology 171 4 1684 90 doi 10 4049 jimmunol 171 4 1684 PMID 12902466 Lemke A Kraft M Roth K Riedel R Lammerding D Hauser AE January 2016 Long lived plasma cells are generated in mucosal immune responses and contribute to the bone marrow plasma cell pool in mice Mucosal Immunology 9 1 83 97 doi 10 1038 mi 2015 38 PMID 25943272 Liang Bin Hyland Lisa Hou Sam June 2001 Nasal Associated Lymphoid Tissue Is a Site of Long Term Virus Specific Antibody Production following Respiratory Virus Infection of Mice Journal of Virology 75 11 5416 5420 doi 10 1128 JVI 75 11 5416 5420 2001 ISSN 0022 538X PMC 114951 PMID 11333927 van Laar Jacob M Melchers Marc Teng Y K Onno van der Zouwen Boris Mohammadi Rozbeh Fischer Randy Margolis Leonid Fitzgerald Wendy Grivel Jean Charles Breedveld Ferdinand C Lipsky Peter E September 2007 Sustained Secretion of Immunoglobulin by Long Lived Human Tonsil Plasma Cells The American Journal of Pathology 171 3 917 927 doi 10 2353 ajpath 2007 070005 PMC 1959503 PMID 17690187 Huard Bertrand McKee Thomas Bosshard Carine Durual Stephane Matthes Thomas Myit Samir Donze Olivier Frossard Christophe Chizzolini Carlo Favre Christiane Zubler Rudolf 2008 07 01 APRIL secreted by neutrophils binds to heparan sulfate proteoglycans to create plasma cell niches in human mucosa Journal of Clinical Investigation 118 8 2887 2895 doi 10 1172 JCI33760 ISSN 0021 9738 PMC 2447926 PMID 18618015 Lemke A Kraft M Roth K Riedel R Lammerding D Hauser A E January 2016 Long lived plasma cells are generated in mucosal immune responses and contribute to the bone marrow plasma cell pool in mice Mucosal Immunology 9 1 83 97 doi 10 1038 mi 2015 38 ISSN 1933 0219 PMID 25943272 Slifka MK Antia R Whitmire JK Ahmed R March 1998 Humoral immunity due to long lived plasma cells Immunity 8 3 363 72 doi 10 1016 S1074 7613 00 80541 5 PMID 9529153 DiLillo DJ Hamaguchi Y Ueda Y Yang K Uchida J Haas KM et al January 2008 Maintenance of long lived plasma cells and serological memory despite mature and memory B cell depletion during CD20 immunotherapy in mice Journal of Immunology 180 1 361 71 doi 10 4049 jimmunol 180 1 361 PMID 18097037 Ahuja A Anderson SM Khalil A Shlomchik MJ March 2008 Maintenance of the plasma cell pool is independent of memory B cells Proceedings of the National Academy of Sciences of the United States of America 105 12 4802 7 Bibcode 2008PNAS 105 4802A doi 10 1073 pnas 0800555105 PMC 2290811 PMID 18339801 Longmire RL McMillan R Yelenosky R Armstrong S Lang JE Craddock CG October 1973 In vitro splenic IgG synthesis in Hodgkin s disease The New England Journal of Medicine 289 15 763 7 doi 10 1056 nejm197310112891501 PMID 4542304 Mei HE Yoshida T Sime W Hiepe F Thiele K Manz RA et al March 2009 Blood borne human plasma cells in steady state are derived from mucosal immune responses Blood 113 11 2461 9 doi 10 1182 blood 2008 04 153544 PMID 18987362 Bohannon C Powers R Satyabhama L Cui A Tipton C Michaeli M et al June 2016 Long lived antigen induced IgM plasma cells demonstrate somatic mutations and contribute to long term protection Nature Communications 7 1 11826 Bibcode 2016NatCo 711826B doi 10 1038 ncomms11826 PMC 4899631 PMID 27270306 Plasma cell at Dorland s Medical Dictionary Agarwal Amit Ghobrial Irene M 2013 03 01 Monoclonal gammopathy of undetermined significance and smoldering multiple myeloma a review of the current understanding of epidemiology biology risk stratification and management of myeloma precursor disease Clinical Cancer Research 19 5 985 994 doi 10 1158 1078 0432 CCR 12 2922 ISSN 1557 3265 PMC 3593941 PMID 23224402 External links editHistology image 21001loa Histology Learning System at Boston University Histology at wadsworth org Retrieved from https en wikipedia org w index php title Plasma cell amp oldid 1189974164, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.