Authors: Walsh, G. M.¹; Al-Rabia, M.¹; Blaylock, M. G.¹; Sexton, D. W.¹; Duncan, C. J.A.¹; Lawrie, A.¹

Source: Current Drug Targets - Inflammation & Allergy, Volume 4, Number 4, August 2005 , pp. 481-486(6)

Publisher: Bentham Science Publishers

Abstract:

The inappropriate accumulation of eosinophils and the subsequent release of their potent pro-inflammatory mediator arsenal are thought to be important contributors to the pathogenesis of asthma and other allergic diseases. It is also becoming apparent that eosinophils may play a role in the orchestrations of immune responses in the asthmatic lung. There is therefore much interest in the development of strategies to limit or prevent eosinophil-induced toxicity. The mechanisms by which eosinophils accumulate in the peribronchial tissues of the lung are complex and include enhanced differentiation and release from the bone marrow, selective adhesion and transendothelial migration, directed movement in response to specific chemotactic mediators and finally prolonged survival as a consequence of delayed apoptosis. Thus it can be appreciated that there are many points at which the toxicity of eosinophils can be limited or even prevented. Important areas for potential advances in glucocorticoid (GC) development include efforts to dissociate their anti-inflammatory effects from unwanted side effects. Other areas include the development of humanised monoclonal antibodies against IL-4, IL-13 and IL-5 together with the inhibition of adhesion pathways and/or chemokines responsible for eosinophil accumulation in the asthmatic lung. Several avenues of research are currently underway in an attempt to define mechanisms by which proinflammatory cells such as eosinophils can be safely removed from the asthmatic lung through apoptosis induction and their subsequent ingestion by phagocytes. This review will discuss both the potential and shortcomings of these diverse approaches to limit eosinophil toxicity in the asthmatic lung.

Keywords: asthma; airways; fibroblasts; t-helper (th) cells; allergic disease; glucocorticoids; adhesion molecules; chemokines; eotaxin; apoptosis

Document Type: Review article

Affiliations: 1: School of Medicine, Institute of Medical Sciences, University of Aberdeen, Foresterhill, Aberdeen AB25 2ZD, UK.

Share this item with others: These icons link to social bookmarking sites where readers can share and discover new web pages.

• Website © 2009 Ingenta. Article copyright remains with the publisher, society or author(s) as specified within the article.
• Terms and Conditions
• Privacy Policy
• Information for advertisers

Click here for Page Help

Browse

Search

Electronic content Journal or book title

 

• Search History
  • Ti: NANOSTRUCT... (tka)
    (4,192 hits)
  • Ti: CONSTRAINT... (tka)
    (13 hits)
  • Ti: Polysilses... (tka)
    (26 hits)
  • Ti: Caffeoylqu... (tka)
    (29 hits)
  • Ti: META-ANALY... (tka)
    (6,209 hits)
  • Ti: ANEURYSM (tka)
    (4,094 hits)
  • Current search history
  • Saved searches
  • Search alerts

Shopping cart

Tools

• Print
• Article access options
• Subscribe
  • Activate Personal Subscription
• Export
  • EndNote
  • BibT_EX
• Linking
  • IngentaConnect
  • OpenURL
• Alerting Options
  • Receive New Issue Alert
  • Latest TOC RSS Feed
  • Recent Issues RSS Feed
• Bookmark
  • Marked List
  • Add to Marked List
  • Social Bookmarking Links

Sign in

Text size: A | A | A | A