The effect of zwitterionic detergents on the extraction and functional properties of cartilage proteoglycans

Structure of the Rhodobacter sphaeroides light-harvesting 1 beta subunit in detergent micelles

The light harvesting 1 antenna (LH1) complex from Rhodobacter sphaeroides funnels excitation energy to the photosynthetic reaction center. Our ultimate goal is to build up the structure of LH1 from structures of its individual subunits, much as the antenna can self-assemble from its components in membrane-mimicking detergent micelles. The beta subunit adopts a nativelike conformation in Zwittergent 3:12 micelles as demonstrated by its ability to take the first step of assembly, binding BChl a. Multidimensional NMR spectroscopy shows that the beta subunit folds as a helix((L12-S25))-hinge((G26-W28))-helix((L29-W44)) structure with the helical regions for the 10 lowest-energy structures having backbone rmsds of 0.26 and 0.24 A, respectively. Mn(2+) relaxation data and the protein-detergent NOE pattern show the C-terminal helix embedded in the micelle and the N-terminal helix lying along the detergent micelle surface with a 60 degrees angle between their long axes. (15)N relaxation data for residues L12-W44 are typical of a well-ordered protein with a correlation time of 8.25 +/- 2.1 ns. The presence of the hinge region placing the N-terminal helix along the membrane surface may be the structural feature responsible for the functional differences observed between the LH1 and LH2 beta subunits.

Basement membrane zone type XV collagen is a disulfide-bonded chondroitin sulfate proteoglycan in human tissues and cultured cells

Type XV collagen has a widespread distribution in human tissues, but a nearly restricted localization in basement membrane zones. The alpha1(XV) chain contains a highly interrupted collagenous region of 577 residues, and noncollagenous amino- and carboxyl-terminal domains of 530 and 256 residues, respectively. Cysteines are present in each domain and consensus sequences for O-linked glycosaminoglycans are situated in the amino terminus and in two large, noncollagenous interruptions. We now report that type XV collagen is a chondroitin sulfate proteoglycan in human tissues and cultured cells, and that the alpha chains are covalently linked by interchain disulfide bonds only between the two cysteines in the collagenous region. Western blotting of tissue extracts revealed a diffuse smear with a mean size >/=400 kDa, which after chondroitinase digestion resolved into a 250-kDa band in umbilical cord, and 250- and 225-kDa bands in placenta, lung, colon, and skeletal muscle. The latter two bands were also directly visualized by alcian blue/silver staining of a purified placenta extract. In a human rhabdomyosarcoma cell line, almost all of the newly synthesized type XV collagen was secreted into the medium and upon chondroitinase digestion just the 250-kDa alpha chain was generated. Chondroitinase plus collagenase digestion of tissue and medium proteins followed by Western blotting using domain-specific antibodies revealed a 135-kDa amino-terminal fragment containing glycosaminoglycan chains and a 27-kDa fragment representing the intact carboxyl terminus. However, a truncated carboxyl peptide of approximately 8-kDa was also evident in tissue extracts containing the 225-kDa form. Our data suggest that the 225-kDa form arises from differential carboxyl cleavage of the 250-kDa form, and could explain the approximately 19-kDa endostatin-related fragments (John, H., Preissner, K. T., Forssmann, W.-G., and Ständker, L. (1999) Biochemistry 38, 10217-10224), which may be liberated from the alpha1(XV) chain.

The effect of oxygen tension on proteoglycan synthesis and aggregation in mammalian growth plate chondrocytes

Growth plate chondrocytes isolated from the proliferative and hypertrophic zones of bovine costochondral junctions were grown in vitro in the presence of various oxygen tensions ranging from 3 to 60%. Using [35S] sulfate as an index of glycosaminoglycan synthesis, incorporation was found to be maximal at 21% O2. In contrast, proteoglycan aggregation under the same conditions was found to be maximal at 3% O2. There were no consistent differences in response between cells from the different morphologic zones even though they are exposed to different oxygen tensions in situ. These results show that proteoglycan synthesis and aggregation in growth plate chondrocytes in vitro are differentially affected by the ambient oxygen environment.

Isolation and characterization of proteoglycans from different tissues

Two chromatographic procedures for the isolation and purification of proteoglycans (PG) and their related glycosaminoglycan (GAG) peptides are described. PG from human aorta were isolated from tissue extract by sequential ion-exchange, size-exclusion and hydroxyapatite chromatography. Final purification of samples was achieved by chromatography on Mono Q. Homogeneity of samples was demonstrated by Western blot analysis of biotin-labelled compounds prior to and after enzymatic digestion and dual-wavelength detection in size-exclusion chromatography. The purity of samples obtained by the procedure described was sufficient for protein sequence analysis. GAG preparations of bovine trachea cartilage were purified by the sequential use of strong anion-exchange supports. Molecular weight distribution and sensitivity to treatment with glycan-specific enzymes was shown by size-exclusion chromatography.

Nonspecific interaction of proteoglycans with chromatography media and surfaces: effect of this interaction on the isolation efficiencies

Nonspecific adsorption of proteoglycans to chromatography media and surfaces is demonstrated. This adsorption is highly dependent on the nature of the chromatography media and the precise buffer conditions. For a given buffer the amount of adsorption decreases as the pH of the buffer is increased. It is also highly dependent on buffer concentration and increases as the buffer concentration is increased. The effect of salts such as LiCl, NaCl, KCl, and MgCl2 was generally small and complex so that the presence of the salt both increased and decreased the amount of adsorption depending on the buffer conditions. In contrast, the effect due to the presence of guanidine hydrochloride (Gdn-HCl) was relatively large and complex. At low Gdn-HCl concentrations there generally was a large increase in the amount of adsorption, reaching a maximum at approximately 0.5 M Gdn-HCl and decreasing with further increases in Gdn-HCl concentration. Detergents such as 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (Chaps) and sodium dodecylsulfate generally reduced the amount of nonspecific adsorption, although in the presence of both the detergent and Gdn-HCl, the effect due to Gdn-HCl predominated. In commonly used buffers such as 0.5 M sodium acetate (NaOAc), pH 7.0 (buffer F), and 4 M Gdn-HCl in 0.05 M NaOAc, pH 5.8 (buffer D), adsorption to surfaces and chromatography media such as Sepharose CL-2B, cellulose, and controlled pore glass (CPG) is highly significant and it is particularly large for cellulose and CPG.(ABSTRACT TRUNCATED AT 250 WORDS)