Patricia Haag scite author profile

Patricia Haag

5Publications

58Citation Statements Received

216Citation Statements Given

How they've been cited

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117

210

Affiliations

Universitätsklinikum Erlangen

Publications

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Soluble ST2 regulation by rhinovirus and 25(OH)-vitamin D3 in the blood of asthmatic children

Haag

Sharma

Rauh

et al. 2018

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Paediatric asthma exacerbations are often caused by rhinovirus (RV). Moreover, 25(OH)-vitamin D3 (VitD3) deficiency during infancy was found associated with asthma. Here, we investigated the innate immune responses to RV and their possible modulation by 25(OH)-VitD3 serum levels in a preschool cohort of children with and without asthma. The innate lymphoid cell type 2 (ILC2)-associated marker, ST2, was found up-regulated in the blood cells of asthmatic children with low serum levels of 25(OH)-VitD3 in the absence of RV in their airways. Furthermore, in blood cells from control and asthmatic children with RV in their airways, soluble (s) ST2 (sST2) protein was found reduced. Asthmatic children with low 25(OH)-VitD3 in serum and with RV in vivo in their airways at the time of the analysis had the lowest sST2 protein levels in the peripheral blood compared to control children without RV and high levels of 25(OH)-VitD3. Amphiregulin (AREG), another ILC2-associated marker, was found induced in the control children with RV in their airways and low serum levels of 25(OH)-VitD3. In conclusion, the anti-inflammatory soluble form of ST2, also known as sST2, in serum correlated directly with interleukin (IL)-33 in the airways of asthmatic children. Furthermore, RV colonization in the airways and low serum levels of 25(OH)-VitD3 were found to be associated with down-regulation of sST2 in serum in paediatric asthma. These data indicate a counter-regulatory role of 25(OH)-VitD3 on RV-induced down-regulation of serum sST2 in paediatric asthma, which is relevant for the therapy of this disease.

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IL-33/ST2 immune responses to respiratory bacteria in pediatric asthma

Hentschke

Graser

Melichar

et al. 2017

Sci Rep

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Here we investigated the relationship between local bacterial colonization and anti-bacterial immune responses in pre-school asthmatic and control children within the EU-wide study PreDicta. In this cohort of pre-school asthmatic children, nasopharyngeal colonization with Gram-negative bacteria such as Haemophilus influenzae and Moraxella catarrhalis was found to be associated with the highest interferon beta (IFNβ) and IL-33 levels in the nasal pharyngeal fluids (NPF). IL33R-ST2 was found induced in the blood of asthmatic children with additional Gram + bacteria in the nasopharynx (Gr+/−). Furthermore, asthmatic children had more episodes of infection that required antibiotic therapy than the control group. Treatment with antibiotics associated with reduced ST2 in blood cells of both asthmatic and control children and reduced IL-33 levels in the airways of asthmatic children. In the absence of Staphylococcus (S.) aureus in NPF, antibiotic therapy associated with decreased IL-33 levels in the NPF and lower ST2 values in the blood of control children but not of asthmatic children. These data suggest that, in asthmatic children, Gram- bacteria, which persist after antibiotic therapy, contributes to IL-33 locally and associated with Gr + bacteria colonization in the airways, inhibited IFN-β and in the absence of Staphylococcus (S.) aureus, induced ST2 bearing cells in their blood.

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Respiratory infections regulated blood cells IFN‐β‐PD‐L1 pathway in pediatric asthma

Kölle

Haag

Vuorinen

et al. 2020

Immunity Inflam & Disease

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Background: Respiratory infections, in general, and rhinovirus infection specifically are the main reason for asthma exacerbation in children and programmed cell death protein 1 ligand (PD-L1) expression inhibits T cell responses. Objective: Could the interferon (IFN) type I expression in peripheral blood mononuclear cells (PBMCs) improve disease exacerbation in pediatric asthma? Results: Here we found increased level of PD-L1 messenger RNA (mRNA) in total blood cells isolated from preschool children with virus-induced asthma, with lower percentage of forced expiratory volume in 1 second and with high serum levels of the C-reactive-protein. Conclusions and Clinical Relevance: These data indicate that, in the presence of infection in the airways of preschool children, worse asthma is associated with induced PD-L1 mRNA expression in blood cells. Further, type I IFN, IFN-β, a cytokine that is involved in the clearance of infections, was found to be associated with a better lung function in asthmatic children. These data suggest that improving peripheral blood IFN type I expression in PBMCs in pediatric asthma could improve disease exacerbation due to suppressing PD-L1 expression in blood cells.

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Correction: Corrigendum: IL-33/ST2 immune responses to respiratory bacteria in pediatric asthma

Hentschke¹,

Graser²,

Melichar³

et al. 2017

Sci Rep

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Respiratory infections regulated blood cells IFN-beta-PD-L1 pathway in pediatric asthma

Koelle¹,

Haag²,

Vuorinen³

et al.

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Respiratory infections in general and rhinovirus (RV) infection specifically are the main reason for asthma exacerbation in children. Here we found increased level of Programmed cell death protein 1 ligand (PD-L1) mRNA in total blood cells isolated from pre-school children with virus-induced asthma, with lower FEV1% and with high serum levels of the C-Reactive-Protein (CRP). These data indicate that, in the presence of infection in the airways of preschool children, worse asthma is associated with induced PD-L1 mRNA expression. Further, the activation of regulatory elements that induce IFNβ, a cytokine that is involved in immunity of infections, was found to be associated with better lung function in asthmatic children. Finally, IFN-beta released by peripheral blood Mononuclear cells (PBMC) was found associated with an induced expression of PD-L1mRNA in control but no asthmatic children. These data suggest that improving peripheral blood IFN type I expression in PBMCs in pediatric asthma could improve disease exacerbation because suppressing PDL1 expression in blood cells.

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Patricia Haag

Soluble ST2 regulation by rhinovirus and 25(OH)-vitamin D3 in the blood of asthmatic children

IL-33/ST2 immune responses to respiratory bacteria in pediatric asthma

Respiratory infections regulated blood cells IFN‐β‐PD‐L1 pathway in pediatric asthma

Correction: Corrigendum: IL-33/ST2 immune responses to respiratory bacteria in pediatric asthma

Respiratory infections regulated blood cells IFN-beta-PD-L1 pathway in pediatric asthma

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