Mf. Beers et C. Lomax, SYNTHESIS AND PROCESSING OF HYDROPHOBIC SURFACTANT PROTEIN-C BY ISOLATED RAT TYPE-II, American journal of physiology. Lung cellular and molecular physiology, 13(6), 1995, pp. 744-753
Surfactant protein C (SP-C) is a 3.7-kDa hydrophobic peptide isolated
from organic extracts of pulmonary surfactant which is secreted by alv
eolar type II cells after synthesis and posttranslational processing o
f a 21-kDa proSP-C peptide (SP-C-21). Previously characterized epitope
-specific proSP-C antisera were used to study early proteolytic steps
of proSP-C processing by adult rat type II cells. Western blotting and
immunocytochemistry using anti-NPROSP-C (epitope = Met(10)-Glu(23)) e
ach demonstrated marked attenuation of proSP-C protein expression by c
ulture on plastic. Processing was therefore studied by metabolic label
ing of freshly isolated type II cells maintained in suspension in seru
m-free media. With the use of anti-NPROSP-C, immunoprecipitation of ce
ll lysates continuously labeled for 4 h with [S-35]methionine demonstr
ated radiolabeled bands of M(r) 21, 16, and 10-6,000 while anti-CTERMS
P-C (epitope = Ser(149)-Ser(166)) failed to detect S-35-bands of M(r)
< 16,000. Pulse-chase studies demonstrated synthesis of S-35-proSP-C-2
1 with a time-dependent appearance of 16-kDa and 10- to 6-kDa forms wh
ich was blocked by addition of brefeldin A. SP-C precursors were not d
etected in the media. Quantitative analysis of the major bands by dire
ct beta-counting indicated a precursor-product relationship between SP
-C-21 and SP-C-16. These results demonstrate the utility of freshly is
olated type II cells for characterization of SP-C synthetic pathways a
nd show that early proSP-C processing events include synthesis of a 21
-kDa primary translation product followed by extensive intracellular p
roteolysis of the proSP-C COOH-terminal in subcellular compartments of
type II cells which are distal to the trans-Golgi network.