Abstract
Exposure to allergens and infections contribute to early immune development. However, knowledge of the role of cellular metabolic, physiologic, and endocrinologic factors in controlling immune development and asthma is limited. Immune cells, including macrophages, dendritic cells, and T lymphocytes, express receptors for atrial natriuretic peptide (ANP) both in the fetal and neonatal lymphoid organs. ANP has garnered much attention for its cardiovascular effects, but its apparently significant role in the physiology and immunity of the lung has been underappreciated. Studies indicate that ANP also plays a significant role in shaping the early immune responses to environmental antigens. The C-terminal prohormone natriuretic peptide ANP (or NP 99-126), which possesses bronchodilatory properties, is involved in polarizing dendritic cells to produce a T H2 response. Also, de novo overexpression of another pro-ANP peptide, NP 73-102, provides persistent bronchoprotection and induces significant anti-inflammatory activities in the lung epithelial cells. Thus natriuretic peptides appear to play a pivotal role in the genesis and control of asthma, and they might provide an important target to modulate allergen-induced immune responses in allergic patients.
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