Theo Thepen scite author profile

Sllnllnal~Class II major histocompatibility complex (Ia)-bearing dendritic cells (DC) from airway epithelium and lung parenchyma express low-moderate antigen presenting cell (APC) activity when freshly isolated. However, this function is markedly upregulated during overnight culture in a manner analogous to epidermal Langerhans cells. The in vitro "maturation" process is inhibited by coculture with pulmonary alveolar macrophages (PAM) across a semipermeable membrane, and the degree of inhibition achieved can be markedly increased by the presence of tumor necrosis factor or. In addition, PAM-mediated suppression of DC function is abrogated via inhibition of the nitric oxide synthetase pathway. Functional maturation of the DC is accompanied by increased expression of surface Ia, which is also inhibited in the presence of PAM. Prior elimination of PAM from DC donors via intratracheal administration of the cytotoxic drug dichloromethylene diphosphonate in liposomes, 24-72 h before lung DC preparation, achieves a comparable upregulation of APC activity, suggesting that (consistent with the in vitro data) the resident PAM population actively suppresses the APC function of lung DC in situ. In support of the feasibility of such a regulatory mechanism, electron microscopic examination of normal lung fixed by intravascular perfusion in the inflated state (which optimally preserves PAM in situ), revealed that the majority are preferentially localized in recesses at the alveolar septal junctions. In this position, the PAM are in intimate association with the alveolar epithelial surface, and are effectively separated by as little as 0.2/~m from underlying interstitial spaces which contain the peripheral lung DC population. A similar juxtaposition of airway intraepithelial DC is demonstrated with underlying submucosal tissue macrophages, where the separation between the two cell populations is effectively the width of the basal lamina. p revious studies from this laboratory initially drew attention to the role of dendritic cells (DC) 1 analogous to those described by Steinman and Nussenzweig (1), as the principal resident APC population in parenchymal lung tissue of rat (2). These observations were confirmed and extended by other investigators in a variety of species including human (3-9), and were further extended to the epithelium of the conducting airways where class II MHC antigen (Ia)-bearing DC were shown to form a tightly meshed network comparable to that of epidermal Langerhans cells (10-12).1 Abbreviations used in this paper: DC, dendritic cell; DPDP, dichloromethylene diphosphate; LNC, lymph node T cell; MMA, monomethylarginine; PAM, pulmonary alveolar macrophage; RLN, regional lymph node; VC, veil cell. 397The epithelial surfaces within the respiratory system occupied by these DC are continuously exposed to an array of pathogenic and nonpathogenic airborne antigens from the environment, and the maintenance of local homeostasis requires fine control of immunological processes, particularly those involving T cell act...

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Alveolar macrophage elimination in vivo is associated with an increase in pulmonary immune response in mice.

Thepen

1989

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A single intracheal dose of liposome-encapsuled dichloro-methylene-diphosphonate resulted in the elimination of alveolar macrophages (AM) from the lung, creating a model to study the in vivo role of AM in the pulmonary immune response. Using intratracheally administered trinitrophenyl-keyhole limpet hemocyanin (TNP-KLH), the kinetics of the response, the location and number of TNP-specific antibody-forming cells, and the different Ig classes of the antibodies produced were studied in AM-depleted animals. The results show that AM elimination has a dramatic effect on the pulmonary immune responses against TNP-KLH. An increase in APC in lung-associated lymph nodes and a prolongation of the response is found, as well as an introduction of APC in lung tissue. In both experimental groups, the majority of the TNP-specific antibodies produced was IgG, followed by IgA and IgE, while very few IgM antibodies could be detected. We conclude from these results that AM are likely to play a role in controlling the pulmonary immune response in a suppressive way, thereby limiting the possible damage caused by severe immune responses in lung tissue.

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Biphasic response against aeroallergen in atopic dermatitis showing a switch from an initial TH2 response to a TH1 response in situ: An immunocytochemical study

Thepen¹,

Langeveld-Wildschut²,

Bihari³

et al. 1996

Journal of Allergy and Clinical Immunology

381

239

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Depletion of alveolar macrophages by liposome-encapsulated dichloromethylene diphosphonate

Berg¹,

Lee²,

Thepen³

et al. 1993

Journal of Applied Physiology

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Alveolar macrophages (AM) play an important role in lung biology. In this study, we demonstrated that tracheal insufflation of liposome-encapsulated dichloromethylene diphosphonate (Cl2MDP-liposome) selectively depleted AMs in rats. Insufflation of a single dose of Cl2MDP-liposomes (80 microliters containing 1.34 mumol of Cl2MDP) but not liposomes containing phosphate-buffered saline resulted in > 70% depletion of AMs starting within 1 day and lasting for > 5 days after insufflation. There was a slight but significant intraalveolar inflammatory response. Insufflation of Cl2MDP also resulted in depletion of AMs; however, it caused cytoplasmic edema of alveolar epithelial cells as well. Depletion of AMs by Cl2MDP-liposomes markedly reduced the endotoxin-induced neutrophil (polymorphonuclear lymphocyte) recruitment and the release of tumor necrosis factor into the alveolar space, suggesting that endotoxin-induced neutrophil recruitment and tumor necrosis factor release were dependent on AMs. This AM-depleted animal model will be useful for studying the in vivo functions of AMs and their role in various physiological and pathological conditions.

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Theo Thepen

A role for Th1 and Th2 cells in the immunopathogenesis of atopic dermatitis

Downregulation of the antigen presenting cell function(s) of pulmonary dendritic cells in vivo by resident alveolar macrophages.

Alveolar macrophage elimination in vivo is associated with an increase in pulmonary immune response in mice.

Biphasic response against aeroallergen in atopic dermatitis showing a switch from an initial TH2 response to a TH1 response in situ: An immunocytochemical study

Depletion of alveolar macrophages by liposome-encapsulated dichloromethylene diphosphonate

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