Abstract
Alpha 1-Microglobulin (alpha 1-m), or protein HC, a low molecular weight plasma protein with immunoregulatory properties, was isolated from rat serum by affinity chromatography using Sepharose-coupled monoclonal anti-alpha 1-m antibodies. High molecular weight forms of alpha 1-m were then separated from the low molecular weight alpha 1-m by gel chromatography of the eluted proteins. The apparent Mr (28,000), the charge heterogeneity, the N-linked carbohydrate, and yellow-brown chromophore suggest that the low molecular weight alpha 1-m is the serum counterpart to urinary alpha 1-m, which was purified previously. A high molecular weight complex of alpha 1-m was also isolated by the gel chromatography. It was homogeneous as judged by nondenaturing polyacrylamide gel electrophoresis. The molecule was bound by antibodies against human alpha 2-macroglobulin, and experiments with antisera against the three alpha-macroglobulin variants in rat serum, alpha 1-macroglobulin, alpha 2-macroglobulin, and alpha 1-inhibitor-3 (alpha 1I3) suggested that alpha 1I3 was the complex-partner of alpha 1-m. An antiserum raised against high molecular weight alpha 1-m was then used to isolate the complex-partner of alpha 1-m from rat serum with affinity chromatography, and this molecule was positively identified as alpha 1I3 by its physicochemical properties. Gel chromatography of the alpha 1I3.alpha 1-m complex suggested a molecule with an Mr of 266,000. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, however, it migrated as three major molecular species with apparent molecular weights of 224,000, 205,000, and 194,000 and several minor species of both higher and lower molecular weights, suggesting a complex subunit structure. alpha 1-m and alpha 1I3 could be detected in all three major species by Western blotting, and NH2-terminal amino acid sequencing suggested a molar ratio of 1:1 of alpha 1-m and alpha 1I3 in all three species. alpha 1I3.alpha 1-m was colorless, did not show light absorbance beyond 300 nm which is typical of low molecular weight alpha 1-m and was electrophoretically homogeneous, suggesting that it lacks the chromophore. Finally, the serum concentrations of the alpha 1I3.alpha 1-m complex and free alpha 1-m were determined as 0.16 and 0.010 g/liter, respectively. Thus, alpha 1I3.alpha 1-m constitutes 1-3% of the total alpha 1I3 in rat serum (w/w) and approximately 60% of the total alpha 1-m.
Highlights
To separate high molecular weight and low molecular weight forms of al-m, the proteins eluted from the anti-al-m Sepharose column were concentrated and subjected to gel chromatography on a column packed with Sephadex G-200
The presence in rat serum of such a high molecular weight form of crlm has been known for several years [12, 13], and its isolation was initiated with the assumption that it represented a homologue of human serum IgA-al-m, which has been described previously and structurally defined [9, 28]
The isolation and characterization of the rat serum al-m-complex showed that it was similar in size and concentration to the human counterpart
Summary
0. Box 94, University Hospital, S-221 00 Lund, Sweden of Lund, S-221 00 Lund, Sweden and cY1-Microglobulin (al-m), or protein HC, a low molecular weight plasma protein with immunoregulatory properties, was isolated from rat serum by affinity chromatography using Sepharose-coupled monoclonal anti-al-m antibodies. An antiserum raised against high molecular weight al-m was used to isolate the complex-partner of al-m from rat serum with affinity chromatography, and this molecule was positively identified as Gel chromatography of the alIs*al-m complex suggested a molecule with an M, of 266,000. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, it migrated as three major molecular species with apparent molecular weights of 224,000,205,000, and 194,000 and several minor species of both higher and lower molecular weights, suggesting a complex subunit structure. Terminal amino acid sequencing suggested a molar ratio of 1:l of al-m and a& in all three species. cuJa*alm was colorless, did not show light absorbance beyond
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