Increased production of IFN-γ and cysteinyl leukotrienes in virus-induced wheezing

173

152

Biologically relevant activation of human mast cells through Fc receptors is believed to occur primarily through the high-affinity IgE receptor FcεRI. However, the demonstration in animal models that allergic reactions do not necessarily require Ag-specific IgE, nor the presence of a functional IgE receptor, and the clinical occurrence of some allergic reactions in situations where Ag-specific IgE appears to be lacking, led us to examine the hypothesis that human mast cells might express the high-affinity IgG receptor FcγRI and in turn be activated through aggregation of this receptor. We thus first determined by RT-PCR that resting human mast cells exhibit minimal message for FcγRI. We next found that IFN-γ up-regulated the expression of FcγRI. This was confirmed by flow cytometry, where FcγRI expression on human mast cells was increased from ∼2 to 44% by IFN-γ exposure. FcεRI, FcγRII, and FcγRIII expression was not affected. Scatchard plots were consisted with these data where the average binding sites for monomeric IgG1 (Ka = 4–5 × 108 M−1) increased from ∼2,400 to 12,100–17,300 per cell. Aggregation of FcγRI on human mast cells, and only after IFN-γ exposure, led to significant degranulation as evidenced by histamine release (24.5 ± 4.4%): and up-regulation of mRNA expression for specific cytokines including TNF-α, GM-CSF, IL-3 and IL-13. These findings thus suggest another mechanism by which human mast cells may be recruited into the inflammatory processes associated with some immunologic and infectious diseases.

Section: Discussionmentioning

confidence: 83%

Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Expression of a Functional High-Affinity IgG Receptor, FcγRI, on Human Mast Cells: Up-Regulation by IFN-γ

Okayama

Kirshenbaum

Metcalfe

2000

173

152

“…5). Thus, IFN-␥ production associated with specific disease states including bacterial or viral infections (39,40) and autoimmune disease (41) provides a novel means by which the mast cells may be recruited into inflammation associated with both immunologic and infectious diseases.…”

Section: Discussionmentioning

confidence: 99%

A Comparison of Mediators Released or Generated by IFN-γ-Treated Human Mast Cells Following Aggregation of FcγRI or FcεRI

Okayama

Hagaman

Metcalfe

2001

The high affinity receptor for IgG (FcγRI, CD64) is expressed on human mast cells, where it is up-regulated by IFN-γ and, thus, may allow mast cells to be recruited through IgG-dependent mechanisms in IFN-γ-rich tissue inflammation. However, the mediators produced by human mast cells after aggregation of FcγRI are incompletely described, and it is unknown whether these mediators are distinct from those produced after activation of human mast cells via FcεRI. Thus, we investigated the release of histamine and arachidonic acid metabolites and examined the chemokine and cytokine mRNA profiles of IFN-γ-treated cultured human mast cells after FcγRI or FcεRI aggregation. Aggregation of FcγRI resulted in histamine release and PGD2 and LTC4 generation. These responses were qualitatively indistinguishable from responses stimulated via FcεRI. Aggregation of FcεRI or FcγRI led to an induction or accumulation of 22 cytokine and chemokine mRNAs. Among them, seven cytokines (TNF-α, IL-1β, IL-5, IL-6, IL-13, IL-1R antagonist, and GM-CSF) were significantly up-regulated via aggregation of FcγRI compared with FcεRI. TNF-α mRNA data were confirmed by quantitative RT-PCR and ELISA. Furthermore, we confirmed histamine and TNF-α data using IFN-γ-treated purified human lung mast cells. Thus, aggregation of FcγRI on mast cells led to up-regulation and/or release of three important classes of mediators: biogenic amines, lipid mediators, and cytokines. Some cytokines, such as TNF-α, were released and generated to a greater degree after FcγRI aggregation, suggesting that selected biologic responses of mast cells may be preferentially generated through FcγRI in an IFN-γ-rich environment.

“…This suggests that a particular disease phenotype may be associated with RSV responses in the lung. Recent evidence has indicated that cytokines produced during an allergic or infectious response dictate how the pulmonary response will proceed (4,10). If the individual responds to a viral infection with a battery of Th1-type cytokines, including IL-12 and IFN, a cellular immune response is promoted, and the virus is quickly disposed of (11)(12)(13)(14)(15).…”

Section: Il-13-induced Airway Hyperreactivity During Respiratory Syncmentioning

confidence: 99%

IL-13-Induced Airway Hyperreactivity During Respiratory Syncytial Virus Infection Is STAT6 Dependent

Tekkanat

Maassab

Cho

et al. 2001

130

109

Airway damage and hyperreactivity induced during respiratory syncytial virus (RSV) infection can have a prolonged effect in infants and young children. These infections can alter the long-term function of the lung and may lead to severe asthma-like responses. In these studies, the role of IL-13 in inducing and maintaining a prolonged airway hyperreactivity response was examined using a mouse model of primary RSV infection. Using this model, there was evidence of significant airway epithelial cell damage and sloughing, along with mucus production. The airway hyperreactivity response was significantly increased by 8 days postinfection, peaked during days 10–12, and began to resolve by day 14. When the local production of Th1- and Th2-associated cytokines was examined, there was a significant increase, primarily in IL-13, as the viral response progressed. Treatment of RSV-infected mice with anti-IL-13 substantially inhibited airway hyperreactivity. Anti-IL-4 treatment had no effect on the RSV-induced responses. Interestingly, when IL-13 was neutralized, an early increase in IL-12 production was observed within the lungs, as was a significantly lower level of viral Ags, suggesting that IL-13 may be regulating an important antiviral pathway. The examination of RSV-induced airway hyperreactivity in STAT6−/− mice demonstrated a significant attenuation of the response, similar to the anti-IL-13 treatment. In addition, STAT6−/− mice had a significant alteration of mucus-producing cells in the airway. Altogether, these studies suggest that a primary factor leading to chronic RSV-induced airway dysfunction may be the inappropriate production of IL-13.