Abstract
Three isoforms of secretoglobin (SCGB) 3A2, namely type A, B, and C, are endogenously produced through alternative splicing. SCGB3A2 type A, the correctly spliced major type, begins to be expressed from embryonic day 11.5 in mice and shows various physiological activities such as promoting lung maturation and bronchial branching, anti-inflammatory effects, and ameliorating induced pulmonary fibrosis. To investigate the potential of SCGB3A2 peptides as a therapeutic to treat respiratory diseases, in this study, serially overlapping nine peptides were synthesized to cover the entire type C isoform, and five and one peptides covering the C-terminal region of type A and B, respectively. To evaluate their biological activities, each peptide was subjected to cell proliferation and apoptosis analyses in vitro using mouse lung fibroblast-derived MLg cells, bronchial branching rate using ex vivo mouse fetal lung organ cultures, and in vivo allergic airway inflammation mouse model. Among type A and C peptides, those corresponding to the C-terminal region of the SCGB3A2 sequence exhibited its unique biological activities of promoting cell proliferation and bronchial branching, and/or inhibiting apoptosis. The type B peptide did not show any proliferative effect while inhibited apoptosis. In a mouse model of allergic airway inflammation, lung inflammation was improved by the administration of most of the C-terminal region-derived type A and type C peptides. The results suggest that the bioactivity resides towards the C-terminal region of SCGB3A2 sequence, and the peptides covering this region could be used as a therapeutic in treating lung inflammation.