Recognition of specific parts of microorganism is mediated by CRD in presence of calcium. Affinity of interaction between microbes and collectins depends on the degree of collectin oligomerization and also on the density of ligands on the surface of the microbe.
Collectins can bind to the surface of microorganisms and between carbohydrate ligands. Due to these properties, the interaction can result in aggregation.
Opsonization and activation of phagocytosis
Collectins can act as opsonins. There is a specific interaction between collectins and receptors on phagocytic cells which can lead to increased clearance of microorganisms. MBL can bind to microorganisms and this interaction can lead to opsonization through complement activation, or it can opsonize the microorganism directly. SP-A and SP-D can also interact with microorganisms and phagocytic cells to enhance phagocytosis of the microorganism.
SP-A and SP-D can damp induction of inflammation by LPS or endotoxin. It can be caused by removing the LPS or by binding the LPS to CD14 receptor on macrophages that can block the inflammatory response. SP-A can also bind to TLR2. This interaction causes decrease of TNF-α production by alveolar macrophages stimulated with peptidoglycan. SP-A and SP-D can modulate cytokine production. They modulate the production of oxygen and nitrogen reactive species which are very important for phagocytic cells. SP-A and SP-D has s function as chemoattractants for alveolar neutrophils and monocytes. MBL can recognize peptidoglykan via N-acetylglucosamine. This interaction leads to inhibition of ligand-induced inflammatory by macrophage chemokine production.
SP-A and SP-D can suppress activated T-lymphocytes and IL-2 production. SP-D increases bacterial antigen presentation by dendritic cellswhereas SP-A blocs differentation of the immature dendritic cells.
Collectins SP-A and SP-D have anti-allergic effects: they inhibit IgE binding to allergens, decrease histamine release from basophils, and inhibit T-lymphocyte production in the late phase of the inflammation.
Apoptosis
Collectins SP-A and SP-D enhance clearance of apoptotic cells by macrophages.
Complement activation
Collectins are linked with activation of lectin pathway of complement activation. At the beginning, there is a binding of collectin to PAMPs or DAMPs. Collectin MBL is involved in activation of the lectin complement pathway. There are three serine proteases, MASP-1, 2 and 3, which participate in activation of the lectin pathway. MASP-2 has a cleavage activity and it is essential for forming lectin C3 and C5 convertases and for activation of the complement.
