Eosinophils, their progenitors and T helper cells in allergic airway inflammation
Abstract
Introduction: Asthma is a heterogeneous chronic lung disease associated with pronounced inflammatory
changes in the airways. Eosinophilic inflammation is the trait that is best linked to symptoms and
treatment responses in allergic asthma. In addition to eosinophils, T helper (Th) cells of different subsets;
Th1, Th2, Th17 and T regulatory (Treg) cells, play an essential role in orchestrating allergic inflammation.
Recent studies suggest that they can even affect each other´s development and function. Although the role
of eosinophils and Th cells has been studied extensively, the balance of different Th cells during
eosinophilic inflammation and the corresponding local lung eosinophilopoiesis has still not been
elucidated.
Aim: The aim of the present thesis was to evaluate eosinophilic inflammation and the corresponding T
helper cells response during allergic airway inflammation.
Methods: A classical OVA-induced allergic airway inflammation model on two commonly used mouse
strains, C57BL/6 and BALB/c, was used initially to evaluate the lung eosinophilia and the corresponding
Th1/Th2 balance after allergen exposure. Next, the balance of the different Th cells and the role of IL-33
in the lung during in situ lung eosinophilopoiesis were evaluated using the above OVA model in C57BL/6
mice. Finally, evaluation of circulating mature and progenitor eosinophils and their expression of traffick
related molecules were assessed in patients with stable asthma.
Results: Allergen exposure induced a different distribution of eosinophils in the lung between the two
mouse strains, with no difference in eosinophil production or Th1/Th2 balance. In C57BL/6 mice, allergen
exposure led to a local expansion of all Th cells, with a dominant of Th2 cells. These Th cells showed a
different local cell distribution, probably due to the different local inflammatory milieu. Allergen exposure
induced lung IL-33 expression. IL-33 receptor, ST2, was expressed in all eosinophil progenitors,
decreased in immature eosinophils and not expressed in mature eosinophils. ST2 was also expressed in
about 60% of Th2 cells. Local blockage of IL-33 during allergen exposure impaired the number of
progenitor and immature eosinophils, but not mature eosinophils or Th2 cells. Evaluation of the
underlying mechanisms revealed that IL-33 enhances proliferation of lung eosinophil progenitors, protects
them from induced apoptosis, and cooperates with eotaxin-1 and -2 to induce their migration. Expression
of ST2 was confirmed in circulating human Th2 cells and eosinophils, both mature and progenitor,
arguing for their capacity to migrate. Indeed, the last study showed that patients with stable asthma and
high, but normal, blood eosinophilia had increased sputum eosinophils and increased circulating
eosinophil progenitors compared to the healthy controls. Both mature and progenitor eosinophils
expressed selectin PSGL-1 and integrins VLA-4 and Mac-1, although with different patterns. Mature
eosinophils showed increased expression of CCR3. However, CCR3+ eosinophil progenitors were more
activated (increased expression of CD69 and CD25) compared to CCR3+ mature eosinophils.
Conclusions: This thesis shows that allergic inflammation promotes a different local lung inflammatory
milieu, resulting in both eosinophils and T helper cells distributing differently. Th2 cells dominate among
other Th cells. Lung Th2 cells and lung eosinophils undergoing maturation express ST2, a receptor for a
novel cytokine IL-33, released locally during airway allergic inflammation. This suggests a common link
as IL-33 regulates lung in situ eosinophilopoiesis by affecting eosinophil progenitor proliferation,
apoptosis and migration. Indeed, patients with stable asthma showed an increased number of circulating
eosinophil progenitors expressing all molecules required for migration to the lung.
Parts of work
I. You Lu, Margareta Sjöstrand, Carina Malmhäll, Madeleine Rådinger, Jeurink Prescilla,
Jan Lötvall and Apostolos Bossios.
New Production of Eosinophils and the Corresponding Th1/Th2 Balance in the Lungs
after Allergen Exposure in BALB/c and C57BL/6 Mice.
Scand J Immunol. 2010; 71(3):176-85.
::DOI::10.1111/j.1365-3083.2009.02363.x II. You Lu, Carina Malmhäll, Margareta Sjöstrand, Madeleine Rådinger, Serena E O’Neil,
Jan Lötvall and Apostolos Bossios.
Expansion of CD4+CD25+ and CD25- T-Bet, GATA-3, Foxp3 and RORγt Cells in
Allergic Inflammation, Local Lung Distribution and Chemokine Gene Expression.
PLoS One. 2011; 6(5):e19889.
::doi::10.1371/journal.pone.0019889 III. You Lu, Margareta Sjöstrand, Madeleine Rådinger, Carina Malmhäll, Jan Lötvall and
Apostolos Bossios.
IL-33 regulates lung in situ eosinophilopoiesis by affecting their in situ proliferation,
survival and migration.
In manuscript. IV. You Lu, Carina Malmhäll, Margareta Sjöstrand, Madeleine Rådinger,
Bo Lundbäck, Jan Lötvall and Apostolos Bossios.
Expression of the major trafficking related molecules in circulating eosinophil
progenitors and mature eosinophils in asthma patients.
In manuscript.
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Medicine. Department of Internal Medicine
Disputation
torsdag den 15 december 2011, kl. 13.00,Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3
Date of defence
2011-12-15
you.lu@lungall.gu.se
Date
2011-11-25Author
Lu, You
Keywords
eosinophils
eosinophil progenitors
T helper cells
Th2 cells
IL-33
migration
Asthma
Publication type
Doctoral thesis
ISBN
978-91-628-8383-6
Language
eng