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Zhang, L. et al.

Neither SP-A nor NH2-terminal domains of SP-A can substitute for SP-D in regulation of alveolar homeostasis.

Surfactant proteins (SP)-A and -D are members of the collectin family of host defense proteins that share four distinct structural domains: NH(2)-terminal oligomerization, collagenous, neck, and carbohydrate recognition ( CRD). To determine the specificity of the functions of these domains, the SFTPC promoter was used to express 1) full-length rat (r) Sftpa; 2) NH(2)-rSftpa/d, consisting of NH(2)-terminal and collagenous domains of SP-A with neck domain and CRD of SP-D; and 3) rSftpd/a, consisting of NH(2)-terminal and collagenous domains of SP-D with neck domain and CRD of SP-A, in Sftpd(-/-) mice. Increased expression of SP-A in Sftpd(-/-) mice did not correct the increased pulmonary saturated phosphatidylcholine levels, emphysema, or foamy alveolar macrophage and lymphocyte infiltrations characteristic of Sftpd(-/-) mice, indicating that the decreased SP-A level noted in Sftpd(-/-) mice does not account for the observed pulmonary abnormalities. The chimeric protein NH(2)-rSftpa/d was expressed and detected in the airways of transgenic mice, migrating as an SP-A-like oligomer that associated with large aggregate surfactant in a manner similar to that of SP-A rather than SP-D. NH(2)-rSftpa/d did not correct emphysema, foamy macrophage and lymphocyte infiltration, or the increased lipid accumulations characteristic of Sftpd(-/-) mice. Thus oligomerization and surfactant lipid association of SP-D requires its NH(2)-terminal and collagenous domains, which are needed for SP-D-dependent regulation of surfactant homeostasis in vivo. Attempts to express rSftpd/a fusion protein in vivo were unsuccessful. Mmp9(-/-)/Sftpd(-/-) and Mmp12(-/-)/Sftpd(-/-) mice developed air space enlargement similar to Sftpd(-/-) mice, supporting the concept that the increased expression of each metalloproteinase seen in Sftpd(-/-) lungs is not the major cause of emphysema.[1]

References

Neither SP-A nor NH2-terminal domains of SP-A can substitute for SP-D in regulation of alveolar homeostasis. Zhang, L., Ikegami, M., Korfhagen, T.R., McCormack, F.X., Yoshida, M., Senior, R.M., Shipley, J.M., Shapiro, S.D., Whitsett, J.A. Am. J. Physiol. Lung Cell Mol. Physiol. (2006) [Pubmed]

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