TIM-1 induces T cell activation and inhibits the development of peripheral tolerance.

We have examined the function of TIM-1, encoded by a gene identified as an 'atopy susceptibility gene' (Havcr1*), and demonstrate here that TIM-1 is a molecule that costimulates T cell activation. TIM-1 was expressed on CD4(+) T cells after activation and its expression was sustained preferentially in T helper type 2 (T(H)2) but not T(H)1 cells. In vitro stimulation of CD4(+) T cells with a TIM-1-specific monoclonal antibody and T cell receptor ligation enhanced T cell proliferation; in T(H)2 cells, such costimulation greatly enhanced synthesis of interleukin 4 but not interferon-gamma. In vivo, the use of antibody to TIM-1 plus antigen substantially increased production of both interleukin 4 and interferon-gamma in unpolarized T cells, prevented the development of respiratory tolerance, and increased pulmonary inflammation. Our studies suggest that immunotherapies that regulate TIM-1 function may downmodulate allergic inflammatory diseases.

TIM-1, a novel allergy and asthma susceptibility gene.

Atopic diseases, including asthma, allergic rhinitis, and atopic dermatitis, are caused by environmental factors in genetically predisposed individuals. Although the prevalence of these diseases has risen dramatically over the past two decades, it has been difficult to identify the underlying causes of these diseases due to the complex interplay between the genetic and environmental factors involved. Using a congenic mouse model of asthma, we simplified this complex trait and identified the novel T cell immunoglobulin domain, mucin-like domain (TIM) gene family, that encodes transmembrane proteins expressed by CD4 T cells. Recent studies demonstrate that the TIM family, particularly TIM-1, plays a critical role in immune responses that regulate the development of atopic diseases. In humans, certain polymorphic variants of TIM-1 are strongly associated with protection against atopy, and this association occurs only in individuals who have had past infection with hepatitis A virus (HAV). Since TIM-1 functions as the cellular receptor for HAV, activation of T cells through TIM-1 by HAV or by its natural ligand may affect T cell differentiation and the development of Th2-driven allergic inflammatory responses. Epidemiologically, HAV infection is associated with a reduced risk of developing atopy, and because the incidence of HAV infection has been significantly reduced in industrialized countries over the past 30 years, the discovery of a genetic interaction between HAV and TIM-1 provides the first molecular genetic evidence for the hygiene hypothesis.

Clinical efficacy of microencapsulated timothy grass pollen extract in grass-allergic individuals.

BACKGROUND: Conventional allergen immunotherapy is clinically effective in reducing the symptoms of allergic rhinitis and asthma. It differs from other pharmacotherapies in that it can induce long-term clinical remission of these diseases. However, it requires years of treatment and is associated with serious allergic reactions. OBJECTIVE: To evaluate the safety, clinical efficacy, and immunologic mechanisms of immunotherapy with an oral, microencapsulated form of timothy grass allergen. METHODS: In this double-blind, placebo-controlled study, 24 patients aged 19 to 55 years with grass pollen allergy were randomized to receive either microencapsulated timothy grass pollen extract or placebo once a day for 10 weeks. The dose of study drug was doubled weekly. Safety was evaluated through weekly visits, daily symptom diaries, and routine laboratory tests. Efficacy was evaluated by comparing medication use and symptoms scores during peak grass pollen season before and after treatment. Allergen-specific T-cell responses, cytokine production, and IgG, IgE, and skin reactivity were measured to evaluate immunologic mechanisms. RESULTS: Eleven of 12 patients in the active treatment group had a decrease in the combined medication and symptom score, but only 4 of 10 patients in the placebo group had a decrease in scores. The proliferative response to timothy grass was reduced by at least 30% in 9 of the 12 grass-treated patients, but only 3 of 11 placebo patients had a proliferative response reduction. Timothy grass-induced interleukin-5 messenger RNA was reduced in the active group, but not in the placebo group. There were no significant changes in either group in IgG, IgE, and skin reactivity. CONCLUSIONS: Oral immunotherapy with microencapsulated allergen induces a form of immunologic tolerance to the allergen and is a safe, efficient, and effective method of allergen immunotherapy.

Asthma: an epidemic of dysregulated immunity.

The remarkable increase in asthma prevalence that has occurred over the last two decades is thought to be caused by changes in the environment due to improved hygiene and fewer childhood infections. However, the specific infections that limit T helper type 2 (T(H)2)-biased inflammation and asthma are not fully known. Infectious organisms, including commensal bacteria in the gastrointestinal tract and hepatitis A virus, may normally induce the development of regulatory T (T(R)) cells and protective immunity that limit airway inflammation and promote tolerance to respiratory allergens. In the absence of such infections, T(H)2 cells--which are developmentally related to T(R) cells--develop instead and coordinate the development of asthmatic inflammation.