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  • Title: Interactions of pulmonary surfactant protein SP-A with monolayers of dipalmitoylphosphatidylcholine and cholesterol: roles of SP-A domains.
    Author: Yu SH, McCormack FX, Voelker DR, Possmayer F.
    Journal: J Lipid Res; 1999 May; 40(5):920-9. PubMed ID: 10224161.
    Abstract:
    Pulmonary surfactant protein A (SP-A) is an oligomeric glycoprotein that binds dipalmitoylphosphatidylcholine (DPPC). Interactions of rat SP-A and recombinant SP-As with pure and binary monolayers of DPPC and cholesterol were studied using a rhomboid surface balance at 37 degrees C. A marked inflection at equilibrium surface tension (23 mN/m) in surface tension-area isotherm of a pure DPPC film was abolished by rat SP-A. The inflection was decreased and shifted to 18 mN/m with wild-type recombinant SP-A (SP-Ahyp). Both rat SP-A and SP-Ahyp decreased surface area reduction required for pure DPPC films to reach near zero surface tension from 30 to 25%. SP-Ahyp, E195Q,R197D, mutated in carbohydrate recognition domain (CRD) known to be essential for SP-A-vesicle interactions, conveyed a detrimental effect on DPPC surface activity. SP-ADeltaG8-P80, with deletion of collagen-like domain, had little effect. Both SP-Ahyp, C6S (Ser substitution for Cys6) and SP-Ahyp,DeltaN1-A7 (N-terminal segment deletion) which appear mainly as monomers on non-reducing SDS-PAGE analysis, increased required surface area reduction for minimal surface tension. All SP-As reduced collapse surface tension of a pure cholesterol film from 27 to 23 mN/m in the presence of Ca2+. When mixed films were formed by successive spreading of DPPC/SP-A/cholesterol, rat SP-A, SP-Ahyp, or SP-ADeltaG8-P80 blocked the interaction of cholesterol with DPPC; SP-Ahyp,E195Q,R197D could not impede the interaction; SP-Ahyp,C6S or SP-Ahyp,DeltaN1-A7 only partially blocked the interaction, and cholesterol appeared to stabilize SP-Ahyp,C6S-DPPC association. These results demonstrate the importance of CRD and N-terminal dependent oligomerization in SP-A-phospholipid associations. The findings further indicate that SP-A-cholesterol interactions differ from SP-A-DPPC interactions and may be nonspecific.
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