Human alveolar macrophages induce functional inactivation in antigen-specific CD4 T cells

BACKGROUND

Alveolar macrophages (AMCs) are the most abundant phagocytic cells in the lung, but they present antigen poorly to T cells.

OBJECTIVES

The objectives of our studies were to more clearly define the mechanisms by which AMCs present antigen to T cells and to determine whether AMCs actively inhibit T-cell activation.

METHODS

We studied purified human CD4 T cells and compared the capacity of allogeneic AMCs and peripheral blood monocytes to induce T-cell proliferation and cytokine production.

RESULTS

We previously demonstrated that human AMCs fail to upregulate expression of B7-1 and B7-2 on stimulation with IFN-gamma. We now demonstrate that AMCs actively induce T-cell unresponsiveness (functional inactivation) in an antigen-specific manner and reduce the capacity of CD4 T cells to respond on secondary stimulation. The induction of unresponsiveness was reversed by the addition of CD28 costimulation or IL-2. However, interruption of Fas/Fas ligand interactions or of B7/CTLA-4 interactions did not prevent unresponsiveness, indicating that neither CTLA-4 triggering nor Fas-induced apoptosis was involved in the induction of T-cell unresponsiveness.

CONCLUSIONS

These studies indicate that AMCs actively tolerize CD4 T cells in an antigen-specific fashion. We propose that AMCs mediate a form of immune privilege in the lungs that effectively limits immune responses in the pulmonary compartment but has little effect on systemic immunity.

Mechanisms preventing allergen-induced airways hyperreactivity: role of tolerance and immune deviation

BACKGROUND

Aeroallergens continuously enter the respiratory tract of atopic individuals and provoke the development of asthma characterized by airway hyperreactivity (AHR) and inflammation. By contrast, nonatopic individuals are exposed to the same aeroallergens, but airway inflammation does not develop. However, the mechanisms that prevent allergen-induced respiratory diseases in nonatopic subjects are poorly characterized.

OBJECTIVE

In this study we compared the role of allergen-specific T-cell tolerance and immune deviation in conferring protection against the development of allergen-induced AHR.

METHODS

We exposed mice to intranasal ovalbumin (OVA) to induce T-cell tolerance and examined its effects on the subsequent development of AHR and inflammation.

RESULTS

We demonstrated that exposure of mice to intranasal OVA resulted in peripheral CD4(+) T-cell unresponsiveness that very efficiently prevented not only the development of AHR but also greatly inhibited airway inflammation and OVA-specific IgE production. The induction of peripheral T-cell tolerance and protection against AHR were not dependent on the presence of IFN-gamma or IL-4. The development of AHR was also prevented by an OVA-specific T(H)1-biased immune response induced by inhalation of OVA in the presence of IL-12. However, the OVA-specific T(H)1 response was associated with a significant degree of pulmonary inflammation.

CONCLUSION

These results indicate that both allergen-specific T-cell tolerance and T(H)1-biased immune deviation prevent the development of AHR, but T(H)1 responses are associated with significantly greater inflammation in the lung than is associated with T-cell unresponsiveness. Therefore CD4(+) T-cell unresponsiveness critically regulates immune responses to aeroallergens and protects against the development of allergic disease and asthma.

Differential responses of human mononuclear phagocytes to mycobacterial lipoarabinomannans: role of CD14 and the mannose receptor

CD14 is a signaling receptor for both gram-negative bacterial lipopolysaccharide (LPS) and mycobacterial lipoarabinomannan (LAM) that lacks terminal mannosyl units (AraLAM). In contrast, terminally mannosylated LAM (ManLAM) binds the macrophage mannose receptor (MMRc), although the ability of the MMRc to serve as a signaling receptor has not been previously reported. We compared the abilities of AraLAM and ManLAM to induce distinct responses in two monocytic cell populations, freshly isolated human peripheral blood monocytes (PBM) and monocyte-derived macrophages (MDM). The responses examined were chemotaxis and transient changes in free cytosolic calcium ([Ca2+]in). We found that AraLAM but not ManLAM was chemotactic for both PBM and MDM. Migration of these cells in vitro to AraLAM was specifically blocked by an anti-CD14 monoclonal antibody, suggesting that CD14 mediates the chemotactic response to AraLAM. Subsequently, we found that AraLAM induced a transient rise in [Ca2+]in levels within a subpopulation of PBM but not MDM. This response was blocked by anti-CD14 antibodies. In contrast, ManLAM induced a transient rise in [Ca2+]in levels within a subpopulation of MDM but not PBM. This response was blocked by either anti-CD14 or anti-MMRc antibodies. These data suggest that the MMRc can serve as a signaling receptor and that coligation of both CD14 and the MMRc is required to elicit a specific response. Thus, one response to LAM (chemotaxis) can be elicited solely by engaging CD14, whereas a different response (changes in [Ca2+]in levels) depends on both the differentiation state of the cells and concomitant engagement of CD14 and the MMRc.

Chemotactic activity of mycobacterial lipoarabinomannans for human blood T lymphocytes in vitro

A crucial early event in tuberculosis is the ingestion of Mycobacterium tuberculosis (Mtb) by alveolar macrophages. Chemotactic factors released by infected macrophages are likely to initiate a granulomatous response, a key feature of host resistance to tuberculosis. To date, the role of mycobacterial products in regulating the granulomatous response has not been clearly defined. Here we report that the mycobacterial cell wall glycophospholipid lipoarabinomannan (LAM) could specifically induce human peripheral blood T cell chemotaxis in vitro. Both terminally mannosylated LAM isolated from Mtb and LAM lacking the terminal mannosyl units isolated from an avirulent mycobacterium could induce T cell migration in the absence of serum. In contrast, terminally mannosylated LAM isolated from Mycobacterium bovis BCG failed to induce T cell chemotaxis. These observations represent the first report that LAM is capable of directly inducing biologic responses in human T cells. Flow cytometry analysis revealed that CD4+, CD8+, and CD45RO+ lymphocytes were present in the migrating cell populations at ratios similar to those found in nonmigrating cells. The chemotactic response was found to require new protein synthesis, and could be blocked by inhibitors of protein tyrosine kinases at concentrations that did not affect random migration. Acyl groups at the reducing terminus of LAM appear to be required for the chemotactic activity of this mycobacterial glycolipid. Lastly, culture supernatants from human alveolar macrophages infected in vitro with a virulent strain of Mtb could induce T cell migration. Much of the migratory activity present in these supernatants could be blocked using a mAb against LAM, suggesting that LAM is one of the chemotactic factors released by Mtb-infected alveolar macrophages.

Chemotactic activity of mycobacterial lipoarabinomannans for human blood T lymphocytes in vitro

A crucial early event in tuberculosis is the ingestion of Mycobacterium tuberculosis (Mtb) by alveolar macrophages. Chemotactic factors released by infected macrophages are likely to initiate a granulomatous response, a key feature of host resistance to tuberculosis. To date, the role of mycobacterial products in regulating the granulomatous response has not been clearly defined. Here we report that the mycobacterial cell wall glycophospholipid lipoarabinomannan (LAM) could specifically induce human peripheral blood T cell chemotaxis in vitro. Both terminally mannosylated LAM isolated from Mtb and LAM lacking the terminal mannosyl units isolated from an avirulent mycobacterium could induce T cell migration in the absence of serum. In contrast, terminally mannosylated LAM isolated from Mycobacterium bovis BCG failed to induce T cell chemotaxis. These observations represent the first report that LAM is capable of directly inducing biologic responses in human T cells. Flow cytometry analysis revealed that CD4+, CD8+, and CD45RO+ lymphocytes were present in the migrating cell populations at ratios similar to those found in nonmigrating cells. The chemotactic response was found to require new protein synthesis, and could be blocked by inhibitors of protein tyrosine kinases at concentrations that did not affect random migration. Acyl groups at the reducing terminus of LAM appear to be required for the chemotactic activity of this mycobacterial glycolipid. Lastly, culture supernatants from human alveolar macrophages infected in vitro with a virulent strain of Mtb could induce T cell migration. Much of the migratory activity present in these supernatants could be blocked using a mAb against LAM, suggesting that LAM is one of the chemotactic factors released by Mtb-infected alveolar macrophages.

Oligoclonal expansion and CD1 recognition by human intestinal intraepithelial lymphocytes

A human intestinal intraepithelial lymphocyte (IEL) T cell line was established from jejunum to characterize the structure and function of the alpha beta T cell antigen receptors (TCRs) expressed by this population. Single-sided polymerase chain reaction (PCR) amplification cloning and quantitative PCR amplification of the TCR chains from the cell line and from fresh IELs demonstrated that IELs were oligoclonal. The IEL T cell line exhibited CD1-specific cytotoxicity and a dominant IEL T cell clone was CD1c-specific. Thus, human jejunal intraepithelial lymphocytes are oligoclonal and recognize members of the CD1 gene family.

Reliability and relationship of various ages of onset criteria for major affective disorder

This paper presents data on six different clinical definitions (indices) of age of onset for major affective disorders. The inter-rater reliability for each index and the relationships among these indices are discussed. Age of onset for impairment with affective symptoms was found to be a reliable and useful index of early onset. It discriminated between unipolar depressed subjects and both bipolar I and bipolar II subjects.