Vascular Damage, Thromboinflammation, Plasmablast Activation, T-Cell Dysregulation and Pathological Histiocytic Response in Pulmonary Draining Lymph Nodes of COVID-19.

Jasmin D Haslbauer, Carl Zinner, Anna K Stalder, Jan Schneeberger, Thomas Menter, Stefano Bassetti, Kirsten D Mertz, Philip Went, Matthias S Matter, Alexandar Tzankov
Author Information
  1. Jasmin D Haslbauer: Pathology, Institute of Medical Genetics and Pathology, University Hospital Basel, University of Basel, Basel, Switzerland.
  2. Carl Zinner: Department of Biomedicine, University of Basel, Basel, Switzerland.
  3. Anna K Stalder: Pathology, Institute of Medical Genetics and Pathology, University Hospital Basel, University of Basel, Basel, Switzerland.
  4. Jan Schneeberger: Pathology, Institute of Medical Genetics and Pathology, University Hospital Basel, University of Basel, Basel, Switzerland.
  5. Thomas Menter: Pathology, Institute of Medical Genetics and Pathology, University Hospital Basel, University of Basel, Basel, Switzerland.
  6. Stefano Bassetti: Department of Internal Medicine, University Hospital Basel, University of Basel, Basel, Switzerland.
  7. Kirsten D Mertz: Pathology, Cantonal Hospital Baselland, Liestal, Switzerland.
  8. Philip Went: Pathology, Cantonal Hospital Graub��nden, Chur, Switzerland.
  9. Matthias S Matter: Pathology, Institute of Medical Genetics and Pathology, University Hospital Basel, University of Basel, Basel, Switzerland.
  10. Alexandar Tzankov: Pathology, Institute of Medical Genetics and Pathology, University Hospital Basel, University of Basel, Basel, Switzerland.

Abstract

Although initial immunophenotypical studies on peripheral blood and bronchoalveolar lavage samples have provided a glimpse into the immunopathology of COVID-19, analyses of pulmonary draining lymph nodes are currently scarce. 22 lethal COVID-19 cases and 28 controls were enrolled in this study. Pulmonary draining lymph nodes (mediastinal, tracheal, peribronchial) were collected at autopsy. Control lymph nodes were selected from a range of histomorphological sequelae [unremarkable histology, infectious mononucleosis, follicular hyperplasia, non-SARS related HLH, extrafollicular plasmablast activation, non-SARS related diffuse alveolar damage (DAD), pneumonia]. Samples were mounted on a tissue microarray and underwent immunohistochemical staining for a selection of immunological markers and hybridization for Epstein Barr Virus (EBV) and SARS-CoV-2. Gene expression profiling was performed using the HTG EdgeSeq Immune Response Panel. Characteristic patterns of a dysregulated immune response were detected in COVID-19: 1. An accumulation of extrafollicular plasmablasts with a relative paucity or depletion of germinal centers. 2. Evidence of T-cell dysregulation demonstrated by immunohistochemical paucity of FOXP3+, Tbet+ and LEF1+ positive T-cells and a downregulation of key genes responsible for T-cell crosstalk, maturation and migration as well as a reactivation of herpes viruses in 6 COVID-19 lymph nodes (EBV, HSV). 3. Macrophage activation by a M2-polarized, CD163+ phenotype and increased incidence of hemophagocytic activity. 4. Microvascular dysfunction, evidenced by an upregulation of hemostatic (CD36, PROCR, VWF) and proangiogenic (FLT1, TEK) genes and an increase of fibrin microthrombi and CD105+ microvessels. Taken together, these findings imply widespread dysregulation of both innate and adoptive pathways with concordant microvascular dysfunction in severe COVID-19.

Keywords

References

  1. N Engl J Med. 2019 Jan 24;380(4):335-346 [PMID: 30625070]
  2. Clin Chim Acta. 2020 Jul;506:145-148 [PMID: 32178975]
  3. Nat Med. 2021 Jan;27(1):28-33 [PMID: 33442016]
  4. J Pathol Clin Res. 2021 Jul;7(4):326-337 [PMID: 33837673]
  5. Int J Mol Sci. 2020 Jul 31;21(15): [PMID: 32752088]
  6. Front Immunol. 2020 Dec 03;11:611004 [PMID: 33343585]
  7. Eur J Pharmacol. 2020 Oct 15;885:173494 [PMID: 32828741]
  8. Cell Mol Immunol. 2021 May;18(5):1305-1307 [PMID: 33742186]
  9. Rapid Commun Mass Spectrom. 2010 Nov 30;24(22):3237-47 [PMID: 20972997]
  10. Nat Commun. 2021 Mar 30;12(1):1961 [PMID: 33785765]
  11. Cell Res. 2015 Oct;25(10):1121-36 [PMID: 26358190]
  12. Cell Rep. 2018 Nov 27;25(9):2379-2389.e3 [PMID: 30485807]
  13. Front Immunol. 2020 Oct 08;11:589380 [PMID: 33178221]
  14. Cells. 2019 Jun 20;8(6): [PMID: 31226822]
  15. Am J Physiol Cell Physiol. 2007 Mar;292(3):C996-1012 [PMID: 16987999]
  16. PLoS Pathog. 2017 Sep 21;13(9):e1006512 [PMID: 28934357]
  17. Nat Med. 2021 May;27(5):904-916 [PMID: 33879890]
  18. Nat Med. 2020 Jun;26(6):842-844 [PMID: 32398875]
  19. Nat Microbiol. 2020 Oct;5(10):1185-1191 [PMID: 32908214]
  20. Brain. 2003 Dec;126(Pt 12):2738-49 [PMID: 14506071]
  21. Front Immunol. 2020 Sep 23;11:560381 [PMID: 33072099]
  22. N Engl J Med. 2020 Jul 9;383(2):120-128 [PMID: 32437596]
  23. Dis Markers. 2021 Jul 30;2021:5566826 [PMID: 34367376]
  24. Cell Rep Med. 2021 Jun 15;2(6):100291 [PMID: 33977279]
  25. Front Physiol. 2021 Jul 22;12:688946 [PMID: 34366882]
  26. J Thromb Haemost. 2020 Jul;18(7):1747-1751 [PMID: 32302448]
  27. Science. 2020 Oct 23;370(6515): [PMID: 32972995]
  28. J Immunol. 2021 Jun 15;206(12):2785-2790 [PMID: 34049971]
  29. Ophthalmic Res. 2021;64(5):785-792 [PMID: 33472206]
  30. Histopathology. 2020 Aug;77(2):198-209 [PMID: 32364264]
  31. Pulm Ther. 2020 Dec;6(2):169-176 [PMID: 32405877]
  32. Cell. 2020 Oct 1;183(1):143-157.e13 [PMID: 32877699]
  33. Immunity. 2020 Dec 15;53(6):1296-1314.e9 [PMID: 33296687]
  34. Swiss Med Wkly. 2021 Jan 15;151:w20420 [PMID: 33516166]
  35. Clin Transl Immunology. 2020 Jul 26;9(7):e1159 [PMID: 32728438]
  36. Platelets. 2020 May 18;31(4):490-496 [PMID: 32297540]
  37. Kidney Int. 2013 May;83(5):865-77 [PMID: 23344471]
  38. Free Radic Biol Med. 2021 Feb 1;163:153-162 [PMID: 33347987]
  39. Ann Rheum Dis. 2020 Aug;79(8):999-1006 [PMID: 32527868]
  40. Am J Clin Pathol. 2020 Sep 8;154(4):466-474 [PMID: 32681166]
  41. Ann Intern Med. 2020 Aug 18;173(4):268-277 [PMID: 32374815]
  42. Science. 2020 Oct 23;370(6515): [PMID: 32972996]
  43. Science. 2020 Sep 4;369(6508): [PMID: 32669297]
  44. Intensive Care Med. 2020 Jun;46(6):1089-1098 [PMID: 32367170]
  45. Semin Immunopathol. 2017 Jul;39(5):529-539 [PMID: 28466096]
  46. J Hematol Oncol. 2020 Sep 4;13(1):120 [PMID: 32887634]
  47. Front Immunol. 2021 May 07;12:676932 [PMID: 34025675]
  48. Biochem Biophys Res Commun. 1997 Jan 3;230(1):110-4 [PMID: 9020023]
  49. J Exp Med. 1977 Jul 1;146(1):201-17 [PMID: 406347]
  50. EClinicalMedicine. 2020 Jun 25;24:100434 [PMID: 32766543]
  51. Science. 2021 Feb 5;371(6529): [PMID: 33408181]
  52. Nat Med. 2020 Jul;26(7):1070-1076 [PMID: 32514174]
  53. Nat Rev Immunol. 2020 Jun;20(6):339-341 [PMID: 32317716]
  54. Nat Commun. 2020 Oct 8;11(1):5086 [PMID: 33033248]
  55. Acta Biomed. 2020 Sep 07;91(3):e2020008 [PMID: 32921706]
  56. Front Immunol. 2020 May 01;11:827 [PMID: 32425950]
  57. Autoimmun Rev. 2020 Jun;19(6):102537 [PMID: 32251717]
  58. EClinicalMedicine. 2020 Nov;28:100590 [PMID: 33173853]
  59. Sci Immunol. 2020 Jul 15;5(49): [PMID: 32669287]
  60. J Clin Med. 2021 Jun 24;10(13): [PMID: 34202613]
  61. Pathologe. 2021 Nov;42(Suppl 1):89-97 [PMID: 33950285]
  62. Proc Natl Acad Sci U S A. 2019 Jul 23;116(30):15194-15199 [PMID: 31296560]
  63. J Am Coll Cardiol. 2020 Jun 16;75(23):2950-2973 [PMID: 32311448]
  64. Transl Res. 2020 Jun;220:1-13 [PMID: 32299776]
  65. J Leukoc Biol. 2006 Jun;79(6):1295-305 [PMID: 16551680]
  66. Eur J Immunol. 2020 Sep;50(9):1283-1294 [PMID: 32910469]
  67. Front Immunol. 2019 Feb 01;10:119 [PMID: 30774631]
  68. Histopathology. 2005 Jul;47(1):90-100 [PMID: 15982328]
  69. Int J Biochem Cell Biol. 2006;38(8):1417-28 [PMID: 16546436]
  70. Am J Respir Crit Care Med. 2000 Mar;161(3 Pt 1):718-22 [PMID: 10712313]
  71. Signal Transduct Target Ther. 2020 Aug 14;5(1):156 [PMID: 32796814]
  72. Lancet. 2020 Mar 28;395(10229):1033-1034 [PMID: 32192578]
  73. Antioxid Redox Signal. 2013 Jun 10;18(17):2352-63 [PMID: 22900885]
  74. Rheumatology (Oxford). 1999 Dec;38(12):1249-54 [PMID: 10587554]
  75. Crit Care. 2020 Aug 28;24(1):530 [PMID: 32859241]
  76. J Exp Med. 2012 Sep 24;209(10):1825-40 [PMID: 22966002]
  77. Nat Rev Immunol. 2021 Jan;21(1):49-64 [PMID: 33214719]

MeSH Term

Adult
Aged
Aged, 80 and over
COVID-19
Cohort Studies
Female
Humans
Lung
Lymph Nodes
Macrophage Activation
Male
Middle Aged
SARS-CoV-2
T-Lymphocytes
Thromboinflammation