In immunology, reactive lymphocytes, variant lymphocytes, atypical lymphocytes, Downey cells or Türk cells are cytotoxic (CD8+) lymphocytes that become large as a result of antigen stimulation. Typically, they can be more than 30 μm in diameter with varying size and shape.

Reactive lymphocyte surrounded by red blood cells

Discovery

Reactive lymphocytes were originally described by W. Türk in 1907 in the peripheral blood of patients with infectious mononucleosis. Later in 1923 the features of the reactive lymphocytes were characterized in greater detail by Hal Downey and C.A. McKinlay, who also discovered the association with EBV and CMV.[1][2]

Morphology

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Downey and McKinlay first described the atypical lymphocytes seen in cases of infectious mononucleosis. They further categorized the atypical lymphocytes of different etiologies under three subtypes:[3]

  1. Type I as highly differentiated "leukocytoid lymphocyte", round-to-lobulated nucleus, mature clumped chromatin with or without nucleoli and with varying degree of basophilia in the cytoplasm.
  2. Type II as larger cells with round-to-lobulated nucleus, chromatin resembling that of plasma cells, moderate amount of cytoplasm with mild basophilia.
  3. Type III cells are large cells with a round to slightly indented nucleus, chromatin mostly immature with diffuse sieve-like arrangements and nucleoli.

Downey type II cell is the most common type of reactive lymphocyte. In general, those cells may vary in morphologic detail as well as surface marker characteristics since this is the result of a polyclonal immune response to antigenic stimulation. All three types of Downey cells were observed along with some other variants such as larger cells with deeply convoluted nucleus, cells with crystalline rods and granules in the cytoplasm, flame cells, Mott cells, and some intermediate forms.[4]

The common features of reactive lymphocytes:[5]

  • large than normal size, sometimes with a diameter of more than 30 microns;
  • nucleus can be round, elliptic, indented, cleft, or folded;
  • the cytoplasm is often abundant and can be basophilic – most often, the cytoplasm is gray, pale blue, or deep blue in color;
  • vacuoles and/or azurophilic granules are also sometimes present;
  • histochemistry shows increased concentrations of acid phosphatase, phosphorylase, and non-specific esterase;
  • prominent clusters and rosettes of free ribosome;
  • presence of small vacuoles near the edge of the cytoplasm as well as invaginations in the cell surface.

Molecular markers

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Atypical lymphocyte population often express features of activated CD8+ T cells, such as CD29, CD38, HLA-DR, CD45RO and CD95. Expression of CD25 was on the other hand decreased.[6]

Expressed molecular markers may vary depending on many factors. For example, CD57 expression seems to be significantly decreased only in patients with EBV infections.[6]

Function

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The atypical lymphocytes have been best studied from blood of patients with infectious mononucleosis. Early studies suspect that atypical lymphocytes could have both T or B cells features; now it is more suggested that reactive lymphocytes are activated T-lymphocytes produced in response to infected B-lymphocytes.[7][5]

Reactive lymphocytes have been found to accumulate in areas of inflammation like the liver and pharynx of individuals with infectious mononucleosis and skin window preparations. In infectious mononucleosis, the atypical lymphocytes are one component of a normal immune system that helps to control potentially fatal Epstein-Barr virus-induced B-cell lymphoma in human.

Causes

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Reactive lymphocytes are usually associated with viral illnesses, but they can also be present as a result of drug reactions (such as phenytoin), immunizations, radiation, and hormonal causes (such as stress and Addison's disease), as well as some autoimmune disorders (such as rheumatoid arthritis).[7]

Some pathogen-related causes include:[6]

Association with COVID-19

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The presence of Downey cells were observed in many COVID-19 cases, together with the atypical plasmacytoid lymphocytes (which could be one of the less usual atypical lymphocyte types).[9][10]

Some observations even suggest that the presence of particular reactive lymphocytes in some of the infected patients could be an indicator of a better prognosis of the disease.[11]

See also

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References

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  1. ^ Cabot, Richard C.; Scully, Robert E.; Mark, Eugene J.; McNeely, William F.; McNeely, Betty U.; Rosenfield, Cathy G.; Kaplan, Mark A. (June 1994). "Case records of the Massachusetts General Hospital. Weekly clinicopathological exercises. Case 24-1994. A two-year-old boy with thrombocytopenia, leukocytosis, and hepatosplenomegaly". N. Engl. J. Med. 330 (24): 1739–46. doi:10.1056/NEJM199406163302408. PMID 8190136.
  2. ^ Downey, Hal; McKinlay, C.A. (1 July 1923). "Acute Lymphadenosis Compared with Acute Lymphatic Leukemia". Archives of Internal Medicine. 32 (1): 82–112. doi:10.1001/archinte.1923.00110190085006. ISSN 0003-9926.
  3. ^ Downey, Hal (1923-07-01). "Acute Lymphadenosis Compared with Acute Lymphatic Leukemia". Archives of Internal Medicine. 32 (1): 82. doi:10.1001/archinte.1923.00110190085006. ISSN 0003-9926.
  4. ^ Acharya, Shreyam; Ningombam, Aparna; Sarkar, Abhirup; Kumar, Kundan (2022). "Diverse atypical lymphocytes in the peripheral blood smear of dengue patients: Crystalline rods, mott cells, and downey cells". Journal of Applied Hematology. 13 (3): 163. doi:10.4103/joah.joah_33_21. ISSN 1658-5127. S2CID 252315586.
  5. ^ a b Kalele, Ketki P (2016). "Atypical Lymphocytes and Cellular Cannibalism: A Phenomenon, First of its Kind to be Discovered in Chronic Periapical Lesions". Journal of Clinical and Diagnostic Research. 10 (4): ZC01-4. doi:10.7860/JCDR/2016/16902.7519. PMC 4866235. PMID 27190937.
  6. ^ a b c Hudnall, S. David; Patel, Jyoti; Schwab, Hanna; Martinez, Jose (22 August 2003). "Comparative immunophenotypic features of EBV-positive and EBV-negative atypical lymphocytosis". Cytometry. 55B (1): 22–28. doi:10.1002/cyto.b.10043. ISSN 0196-4763. PMID 12949956. S2CID 10321688.
  7. ^ a b Shiftan, Thomas A.; Mendelsohn, John (1 January 1978). "The circulating "atypical" lymphocyte". Human Pathology. 9 (1): 51–61. doi:10.1016/S0046-8177(78)80007-0. PMID 631844.
  8. ^ Peters CJ, Khan AS (2002). "Hantavirus pulmonary syndrome: the new American hemorrhagic fever". Clin Infect Dis. 34 (9): 1224–31. doi:10.1086/339864. PMID 11941549.
  9. ^ Chong, Vanessa C. L.; Lim, Kian Guan Eric; Fan, Bingwen Eugene; Chan, Stephrene S. W.; Ong, Kiat H.; Kuperan, Ponnudurai (5 May 2020). "Reactive lymphocytes in patients with COVID-19". British Journal of Haematology. 189 (5): 844. doi:10.1111/bjh.16690. ISSN 0007-1048. PMC 7262365. PMID 32297330.
  10. ^ El Jamal, Siraj M.; Salib, Christian; Stock, Aryeh; Uriarte-Haparnas, Norlita I.; Glicksberg, Benjamin S.; Teruya-Feldstein, Julie; Dembitzer, Francine R.; Nadkarni, Girish N.; Firpo-Betancourt, Adolfo (10 June 2020). "Atypical lymphocyte morphology in SARS-CoV-2 infection". Pathology - Research and Practice. 216 (9): 153063. doi:10.1016/j.prp.2020.153063. PMC 7284261. PMID 32825937.
  11. ^ Rodellar, José; Barrera, Kevin; Alférez, Santiago; Boldú, Laura; Laguna, Javier; Molina, Angel; Merino, Anna (2022-05-23). "A Deep Learning Approach for the Morphological Recognition of Reactive Lymphocytes in Patients with COVID-19 Infection". Bioengineering. 9 (5): 229. doi:10.3390/bioengineering9050229. ISSN 2306-5354. PMC 9137554. PMID 35621507.
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  NODES
Association 3
INTERN 3
Note 1