The hyporesponsive state of lung-derived mononuclear leukocytes has been, in part, attributed to the effects of the lipid rather than the protein components of pulmonary surfactant. In the present study, however, the results suggest that purified preparations of pulmonary surfactant-associated protein A (SP-A) suppress both phytohemagglutinin (PHA, 1 microgram/ml)- and anti-CD-3 (1 to 10 ng/ml) activated proliferation of human peripheral blood and tonsillar mononuclear cells in a dose-dependent manner at concentrations as low as 50 pM (6.25 micrograms/ml) when added at the initiation of cultures. Addition of SP-A to PHA-stimulated peripheral blood mononuclear cells (PBMC) as late as 24 to 36 h after PHA was also capable of suppressing [3H]thymidine incorporation measured at 72 h. In contrast, concanavalin A (Con A; 2 micrograms/ml)-stimulated PBMC proliferation was slightly augmented by the addition of SP-A. Analysis of the supernatants of PHA-stimulated cultures treated with SP-A revealed that accompanying the inhibition of proliferation was a corresponding decline in measurable interleukin-2 (IL-2) concentrations, from 154 pg/ml for the PHA-treated cells to 57.8, 28.4, 5.2, and less than 2 pg/ml of IL-2 when SP-A was added at 6.25, 12.5, 25, and 50 micrograms/ml, respectively. We suggest that the action of SP-A on PHA-stimulated human PBMC may involve the blocking of a costimulatory signal crucial for in vitro T-cell activation.
The role of surfactant-associated protein (SP) A in the mediation of pulmonary responses to bacterial lipopolysaccharide (LPS) was assessed in vivo with SP-A gene-targeted [SP-deficient; SP-A(-/-)] and wild-type [SP-A(+/+)] mice. Concentrations of tumor necrosis factor (TNF)-alpha, macrophage inflammatory protein-2, and nitric oxide were determined in recovered bronchoalveolar lavage fluid after intratracheal administration of LPS. SP-A(-/-) mice produced significantly more TNF-alpha and nitric oxide than SP-A(+/+) mice after LPS treatment. Intratracheal administration of human SP-A (1 mg/kg) to SP-A(-/-) mice restored regulation of TNF-alpha, macrophage inflammatory protein-2, and nitric oxide production to that of SP-A(+/+) mice. Other markers of lung injury including bronchoalveolar fluid protein, phospholipid content, and neutrophil numbers were not influenced by SP-A. Data from experiments designed to test possible mechanisms of SP-A-mediated suppression suggest that neither binding of LPS by SP-A nor enhanced LPS clearance are the primary means of inhibition. Our data and others suggest that SP-A acts directly on immune cells to suppress LPS-induced inflammation. These results demonstrate that endogenous or exogenous SP-A inhibits pulmonary LPS-induced cytokine and nitric oxide production in vivo.
Investigation of possible mechanisms to describe the hyporesponsiveness of pulmonary leukocytes has led to the study of pulmonary surfactant and its constituents as immune suppressive agents. Pulmonary surfactant is a phospholipid-protein mixture that reduces surface tension in the lung and prevents collapse of the alveoli. The most abundant protein in this mixture is a hydrophilic molecule termed surfactant-associated protein A (SP-A). Previously, we showed that bovine (b) SP-A can inhibit human T lymphocyte proliferation and interleukin-2 production in vitro. Results presented in this investigation showed that different sources of human SP-A and bSP-A as well as recombinant rat SP-A inhibited human T lymphocyte proliferation in a dose-dependent manner. A structurally similar collagenous protein, C1q, did not block the in vitro inhibitory action of SP-A. The addition of large concentrations of mannan to SP-A-treated cultures also did not disrupt inhibition, suggesting that the effect is not mediated by the carbohydrate recognition domain of SP-A. Use of recombinant mutant SP-As revealed that a 36-amino acid Arg-Gly-Asp (RGD) motif-containing span of the collagen-like domain was responsible for the inhibition of T cell proliferation. A polyclonal antiserum directed against an SP-A receptor (SP-R210) completely blocked the inhibition of T cell proliferation by SP-A. These results emphasize a potential role for SP-A in dampening lymphocyte responses to exogenous stimuli. The data also provide further support for the concept that SP-A maintains a balance between the clearance of inhaled pathogens and protection against collateral immune-mediated damage.
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