8 research outputs found
Correlation between biochemical composition and magnetic resonance appearance of articular cartilage
AbstractObjective: The objective of this study was to find a correlation between magnetic resonance (MR) appearance and biochemical composition of the normal articular cartilage by comparing the laminar aspects with the distribution of the two principal matrix components: proteoglycans and collagen.Design: T2-weighted MR microimages of porcine cartilage-bone plugs, excised from both the habitually loaded and habitually unloaded regions of the proximal end of the humerus, were obtained using a spin-echo sequence. Proteoglycans (PGs) were monitored by histology and by measuring the uronate and the sulfur content of the tissue; a histological method and the chemical determination of hydroxyproline were used for the evaluation of the collagen content.Results: The âloadedâ cartilage exhibited the expected MR laminar appearance whereas the âunloadedâ tissue appeared to be more homogeneous. The PG content in the âloadedâ cartilage, was found to be 2.4 times higher than in the habitually unloaded tissue, exhibiting an increasing trend from the articular surface to the bone. In the âunloadedâ cartilage the uronate distribution was more uniform with a higher concentration in the intermediate zone. The mean collagen content of both cartilage regions was found to be about 39% of the tissue dry weight. Histology and hydroxyproline distribution pattern showed that collagen was particularly concentrated at the surface and in a central zone of the âloadedâ cartilage whereas in the âunloadedâ tissue collagen was evident only at the surface. In accordance with the collagen distribution, transverse relaxation (T2) times in âloadedâ cartilage showed a minimum value at the articular surface and another minimum in a central region. On the contrary, the average T2value of the âunloadedâ tissue was high at the surface and decreased rapidly in the deeper zones.Conclusion: These results demonstrate that the MR appearance of articular cartilage correlates with the collagen content, but not with that of PGs, of the different zones. Other matrix components might, however, influence the MR appearance by contributing to the macromolecular organization of the tissue
Specific sequence-directed anti-bilitranslocase antibodies as a tool to detect potentially bilirubin-binding proteins in different tissues of the rat
AbstractThe hypothesis that the uneven distribution of bilirubin in the organism, which occurs in hyperbilirubinemia, could reflect an uneven distribution of bilirubin-binding proteins was tested by searching for peptides containing the bilirubin-binding motif identified in bilitranslocase (Battiston et al., 1998). In the rat, positive proteins bands were found to be present only in the liver, gastric mucosa and central nervous system. The electrophoretic mobilities of the positive compounds in the liver and stomach were identical to that of purified bilitranslocase (38 kDa). In the brain, on the contrary, two peptides were found with molecular masses of 79 and 34 kDa, respectively. Their distribution pattern in the central nervous system was different for each of them
Enzymatic and immunochemical evaluation of phospholipid hydroperoxide glutathione peroxidase (PHGPx) in testes and epididymal spermatozoa of rats of different ages
Selenium (Se) and selenoproteins such as glutathione peroxidases are necessary for the proper development and fertilizing capacity of sperm cells. Phospholipid hydroperoxide glutathione peroxidase (PHGPx, E.C. 1.11.1.12) is a monomeric seleno-enzyme present in different mammalian tissues in soluble and bound form. Its function, like the other glutathione peroxidases, was originally viewed as a protective role against hydroperoxides, but direct and indirect evidence indicates that it has additional regulatory roles. PHGPx is present in testis cells and sperm cells, and its appearance is hormone regulated. We present here biochemical data, which clearly indicate that the enzyme specific activity in rat is age-dependent during the life-span monitored (from 36 to 365 days), with a maximum at 3 months of age in the testis germ cells and at 6 months of age in the isolated epididymal sperm cells. Western blotting and immunocytochemical analysis by means of anti-PHGPx antibodies show the different distribution and the strong binding of PHGPx in the testes and sperm cell subcellular compartments (nucleus, acrosome, mitochondria and residual bodies) of rats of different age. The presence of the protein exhibits in the testis cells a pattern different from that of the catalytic activity, with a maximum at 6 months of age. The subcellular distribution of PHGPx is qualitatively, but not quantitatively, unchanged during ageing. These different behaviours are compared and discussed