Your search keyword '"Pearce, R"' showing total 12 results

1. Non-proteoglycan forms of biglycan increase with age in human articular cartilage

Author

Roughley, P J, primary, White, R J, additional, Magny, M C, additional, Liu, J, additional, Pearce, R H, additional, and Mort, J S, additional

Published

1993

2. The heterogeneity of the non-aggregating proteoglycans of the human intervertebral disc

Author

DiFabio, J L, Pearce, R H, Caterson, B, and Hughes, H

Abstract

Non-aggregating proteoglycans of differing average hydrodynamic volumes were prepared from nuclei pulposi and anuli fibrosi of three human lumbar spines and characterized by biochemical and immunochemical analyses. The hexose-to-hexuronate and protein-to-hexuronate ratios increased with decreasing hydrodynamic volume. Analysis by composite agarose/polyacrylamide-gel electrophoresis has demonstrated two aggregating subpopulations [McDevitt, Jahnke & Green (1982) Trans. Annu. Meet. Orthop. Res. Soc. 7, 50]. In the present study, electrophoresis of the non-aggregating pools has shown three additional subpopulations, here named bands III, IV and V. The two smallest proteoglycan pools from each tissue contained two and three components respectively. These components were isolated by preparative electrophoresis and analysed. Band III was a proteoglycan richer in keratan sulphate than in chondroitin sulphate; band IV was a proteoglycan richer in chondroitin sulphate than in keratan sulphate; band V contained only chondroitin sulphate. Unsaturated disaccharides prepared from the chondroitin sulphate of all bands were predominantly 6-sulphated, with only 5-15% 4-sulphated. The molecular masses of the chondroitin sulphate and keratan sulphate did not differ between the bands. The amino acid composition of band III differed from that of band IV. Thus three distinct subpopulations of non-aggregating proteoglycan were demonstrated in the human intervertebral disc.

Published

1987

3. Properties and prenatal ontogeny of β-d-mannosidase in selected goat tissues

Author

Pearce, R D, Callahan, J W, Little, P B, Armstrong, D T, Kiehm, D, and Clarke, J T R

Abstract

beta-D-Mannosidase activity in selected normal adult, neonatal and foetal goat tissues and in tissues from animals affected with caprine beta-mannosidosis was examined with the use of 4-methylumbelliferyl beta-D-mannopyranoside as substrate. The enzyme in normal adult thyroid, kidney and brain exhibited a sharp unimodal pH optimum at pH 5.0, whereas the enzyme in both normal adult and mutant liver exhibited broad pH ranges of activity (pH 4.5-8.0). No residual enzyme was detectable in mutant kidney or brain; in contrast, residual activity in mutant liver was 52% of that in a neonatal control. Concanavalin A-Sepharose 4B (Con A-Sepharose) fractionation of normal adult liver beta-D-mannosidase resolved the enzyme into an unbound (non-lysosomal) from (52%) with a broad pH range of activity (pH 4.5-8.0) and a bound (lysosomal) form (48%) with a sharp pH optimum of 5.5. The enzyme in mutant liver consisted entirely of the unbound (non-lysosomal) form. Beta-D-Mannosidase activity in normal adult thyroid, kidney and brain was resolved by chromatofocusing into two major isoenzymes, with pI 5.5 and 5.9, and traces of a minor isoenzyme, with pI 5.0. In normal adult liver the enzyme was also resolved into three isoenzymes with similar pI values; however, that with pI 5.0 predominated. The predominant form of the enzyme in 60-day-foetal liver was bound by Con A, exhibited a unimodal pH optimum (5.0) and was resolved into two isoenzymes, with pI 5.4 and 5.8; only traces of an isoenzyme with pI 5.0 were detectable. Total hepatic beta-D-mannosidase activity increased progressively towards adult values during the last 90 days of gestation as a result of increasing non-lysosomal isoenzyme activity (pI 5.0). Lysosomal beta-D-mannosidase was shown to occur in all normal goat tissues studied as multiple isoenzymes, which are genetically and developmentally distinct from the non-lysosomal isoenzyme occurring predominantly, if not exclusively, in liver.

Published

1987

4. Demonstration of link protein in proteoglycan aggregates from human intervertebral disc

Author

Tengblad, A, Pearce, R H, and Grimmer, B J

Abstract

Proteoglycan aggregates free of non-aggregating proteoglycan have been prepared from the annuli fibrosi and nuclei pulposi of intervertebral discs of three human lumbar spines by extraction with 4M-guanidinium chloride, associative density gradient centrifugation, and chromatography on Sepharose CL-2B. The aggregate (A1-2B.V0) was subjected to dissociative density-gradient ultracentrifugation. Three proteins of Mr 38 900, 44 200 and 50 100 found in the fraction of low buoyant density (A1-2B.V0-D4) reacted with antibodies to link protein from newborn human articular cartilage. After reduction with mercaptoethanol, two proteins of Mr 43 000 and two of Mr 20 000 and 14 000 were seen. The A1-2B.V0-D4 fraction, labelled with 125I, coeluted with both hyaluronate and a hyaluronate oligosaccharide (HA14) on a Sepharose CL-2B column. HA10 and HA14 reduced the viscosity of A1 fractions; HA4, HA6 and HA8 did not. HA14 decreased the viscosity of disc proteoglycans less than it did that of bovine cartilage proteoglycans. Thus, although a link protein was present in human intervertebral disc, it stabilized proteoglycan aggregates less well than did the link protein from bovine nasal cartilage.

Published

1984

5. The isolation of minimally degraded hyaluronate from rat skin

Author

Mathieson, J M and Pearce, R H

Abstract

Hyaluronate was isolated quantitatively from fresh rat skin by homogenization in an Edebo [J. Biochem. Microbiol. Technol. Eng. 2, (1960) 453-479] press, extraction with buffered saline, selective elution from DEAE-cellulose, and gel chromatography on Sephadex G-200. Traces of a protein contaminant remained.

Published

1977

6. The chemical constitution of the proteoglycan of human intervertebral disc

Author

Pearce, R H and Grimmer, B J

Abstract

Proteoglycan was prepared from three pools of normal human intervertebral discs by extraction with buffered 4M-guanidinium chloride followed by CsCl-density-gradient ultracentrifugation. Chromatography on agarose (Bio-Gel A-150m) and on DEAE-cellulose suggested a single polydisperse proteoglycan species. The intrinsic viscosities of three preparations were 166, 122 and 168 ml/g. After degradation with 0.5M-KOH containing 0.02M-NaBH4, the glycosaminoglycans were recovered quantitatively and their Ca2+ salts separated into a hexuronate-rich fraction (fraction 1), which was precipitated in 0-45% (v/v) ethanol, and a hexose-rich fraction (fraction2), which was precipitated in 45-70% (v/v) ethanol. Qualitative and quantitative analyses of the glycosaminoglycans revealed fraction 1 to be chondroitin sulphate, and fraction 2 to be keratan sulphate; the latter was contaminated with protein and possibly a small amount of another glycosaminoglycan. For both glycosaminoglycans, plots of log(mol.wt.) against weight fell close to a normal distribution. The mode for chondroitin sulphate was close to 20000; that for keratan sulphate, 10000. A threefold range of molecular weight included the central 16-84% [+/- 1 S.D. of log(mol.wt.)] of the weight of both fractions.

Published

1976

7. The exclusion of human serum albumin by human dermal collagenous fibres and within human dermis.

Author

Bert, J L, Mathieson, J M, and Pearce, R H

Abstract

Preparations of dermal collagenous fibres and slices of human dermis have been equilibrated with 125I-labelled monomeric human serum albumin. The space inaccessible to the albumin in the fibres and in the dermis was determined by subtraction of the accessible space, calculated from the radioactivity of the specimen, from its total fluid. For a fibre preparation examined in detail, the fluid exclusion was independent of the concentration of either albumin or collagen. Binding of albumin to the fibres was not demonstrable. Three fibre preparations excluded albumin from 3.75 +/- 0.96, 3.55 +/- 0.67, and 2.05 +/- 0.39 g of fluid/g of collagen (+/-S.D.). Slices from three specimens of dermis excluded albumin from 1.45 +/- 0.08 g of fluid/g of insoluble solids or 1.57 +/- 0.11 g of fluid/g of collagen (+/-S.D.). Thus the exclusion of albumin by dermis was much less than expected from its content of collagenous fibres. On the basis of these data and the published composition of dermis, the concentration of albumin in the accessible interstitial space was estimated to be close to that in the plasma.

Published

1982

8. Characterization of collagenous meshworks by volume exclusion of dextrans

Author

Bert, J L, Pearce, R H, Mathieson, J M, and Warner, S J

Abstract

The volumes from which 3H-labelled dextrans are excluded by dermal collagenous fibres were calculated by dilution of dextran probes. Five dextrans, of average Stokes' radii 1.72, 2.53, 3.92, 4.54 and 14.24nm, were investigated at concentrations between 0.1 and 3% (w/w). The excluded volume was dependent on dextran concentration only for the two smaller probes. The largest dextran was shown not to bind to the fibres. A plot of the square root of excluded volume against Stokes' radius was linear for the four smallest dextrans, corresponding to the predictions of Ogston's [(1958) Trans. Faraday Soc. 54, 1754–1757] rod-and-sphere model of fibrous exclusion, and suggesting that dextrans of Stokes' radius between 1.72 and 4.54 nm were excluded by a cylindrical solid fibre of radius 2.90 +/- 0.72 nm. Larger molecules were excluded by a structure of much greater size, since the volume exclusion for the largest dextran was only slightly greater than that of the dextran less than one-third its radius. The excluded volume of 3H2O fell slightly below the line describing the dextran data, indicating that water had access to most of the volume not occupied by the collagenous fibres.

Published

1980

9. Exclusion of dextrans by meshworks of collagenous fibres

Author

Pearce, R H and Laurent, T C

Abstract

Insoluble collagen from human dermis was equilibrated in a physiological medium with mixtures of 3H2O and fluorescein-conjugated dextrans of different molecular weights. Dextrans of mol.wts. greater than 10(5) were excluded from a volume of 3.82+/-0.87 ml(S.D.) per g of collagen; dextrans of lower molecular weight occupied a larger volume. The apparent excluded volume was proportional to the weight of the collagen. Dansylated albumin behaved similarly to dextran; the polymeric collagen from rat skin exhibited a much larger excluded volume than the insoluble collagen. These results indicated that the volume available to the plasma proteins in human dermis was limited by insoluble collagen as well as by the glycosaminoglycans of the tissue.

Published

1977

10. The proteoglycans of the human intervertebral disc

Author

Emes, J H and Pearce, R H

Abstract

The methods of Hascall & Sajdera (1969) were used to compare the proteoglycans of human intervertebral disc with those of bovine nasal cartilage. In contrast with cartilage, most of the hexuronate of disc could be extracted at low shear with water or dilute salt solutions. Extracts of disc with 4M-guanidinium chloride were centrifugated in 0.4M-guanidinium chloride in a CsCl gradient. Analytical ultracentrifugation of the hexuronate-containing heavy component revealed two fractions. both more polydisperse than those of cartilage. Also the more rapidly sediminting component was a much smaller fraction of the total. After prior extraction with 0.4M-guanidinium chloride, 4M-guanidinium chloride extracts of disc were found, by ultracentrifugal analysis, to be enriched in components resembling the proteoglycan monomer and aggregating factors of cartilage.

Published

1975

11. The turbidimetric estimation of hyaluronate

Author

Pearce, R. H.

Published

1953

12. Properties and prenatal ontogeny of beta-D-mannosidase in selected goat tissues.

Author

Pearce RD, Callahan JW, Little PB, Armstrong DT, Kiehm D, and Clarke JT

Subjects

Animals, Animals, Newborn metabolism, Electrophoresis, Cellulose Acetate, Fetus enzymology, Goats embryology, Hydrogen-Ion Concentration, Isoelectric Focusing, Liver embryology, Liver enzymology, Tissue Distribution, beta-Mannosidase, Goats metabolism, Mannosidases metabolism

Abstract

beta-D-Mannosidase activity in selected normal adult, neonatal and foetal goat tissues and in tissues from animals affected with caprine beta-mannosidosis was examined with the use of 4-methylumbelliferyl beta-D-mannopyranoside as substrate. The enzyme in normal adult thyroid, kidney and brain exhibited a sharp unimodal pH optimum at pH 5.0, whereas the enzyme in both normal adult and mutant liver exhibited broad pH ranges of activity (pH 4.5-8.0). No residual enzyme was detectable in mutant kidney or brain; in contrast, residual activity in mutant liver was 52% of that in a neonatal control. Concanavalin A-Sepharose 4B (Con A-Sepharose) fractionation of normal adult liver beta-D-mannosidase resolved the enzyme into an unbound (non-lysosomal) from (52%) with a broad pH range of activity (pH 4.5-8.0) and a bound (lysosomal) form (48%) with a sharp pH optimum of 5.5. The enzyme in mutant liver consisted entirely of the unbound (non-lysosomal) form. Beta-D-Mannosidase activity in normal adult thyroid, kidney and brain was resolved by chromatofocusing into two major isoenzymes, with pI 5.5 and 5.9, and traces of a minor isoenzyme, with pI 5.0. In normal adult liver the enzyme was also resolved into three isoenzymes with similar pI values; however, that with pI 5.0 predominated. The predominant form of the enzyme in 60-day-foetal liver was bound by Con A, exhibited a unimodal pH optimum (5.0) and was resolved into two isoenzymes, with pI 5.4 and 5.8; only traces of an isoenzyme with pI 5.0 were detectable. Total hepatic beta-D-mannosidase activity increased progressively towards adult values during the last 90 days of gestation as a result of increasing non-lysosomal isoenzyme activity (pI 5.0). Lysosomal beta-D-mannosidase was shown to occur in all normal goat tissues studied as multiple isoenzymes, which are genetically and developmentally distinct from the non-lysosomal isoenzyme occurring predominantly, if not exclusively, in liver.

Published

1987