SUMMARYThe characterization of a salivary factor cross-reacting with IL-1 receptor antagonist (IL-1Ra) is described. The apparent molecular weights of two species were 23 kD, consistent with the secreted peptide (sIL-1Ra), and 20 kD, consistent with the intracellular peptide (icIL-1Ra). It had an inhibitory activity on IL-1-stimulated fibroblasts, which is characteristic of IL-1Ra. Its source was the oral mucosa and not the salivary glands. Saliva from patients with SS contained significantly less IL-1Ra than saliva from controls. The decrease was marked in patients with early dental loss but whose xerostomia was still partial. In SS, the salivary IL-1/IL-1Ra imbalance may promote inflammatory lesions in the mouth and impede mucosal cell differentiation.
A highly sensitive method based on bioluminescence is described for the assay of enolase which can measure as little as 0.4 X 10(-6) IU of activity. This corresponds to an amount of enzyme present in 1-2 microliters of normal human cerebrospinal fluid and is therefore easily applicable to clinical samples of CSF which can only be obtained in very small amounts. The reproducibility of the method is very high within a broad range of enzyme concentrations and the assay is linear from 0.4 X 10(-6) IU up to at least 50 X 10(-6) IU of enzyme. This would permit application of the method to biological samples containing low as well as high enolase activities and especially for monitoring changes in enolase concentrations in the CSF and in the serum, as a function of pathological lesions in the central nervous system and other tissues.
ABSTRACT:The presence of a sperm-specific enolase isoform (ENO-S) in human ejaculated spermatozoa was previously demonstrated. The objective of this study was to characterize this ENO-S in spermatozoa at different steps of maturation. Sperm ENO-S was characterized in testicular, epididymal, and ejaculated spermatozoa to determine whether any change occurred in the isoform patterns of this enzyme during epididymal maturation. In testicular sperm, ENO-S was present under 2 main bands named S1 and S3. In epididymal sperm, S1 and S3 bands and a prominent additional S2 band, with the same electrophoretic properties as the S isoform of ejaculated sperm, were visualized. In the testicular extracts obtained from testes in which no spermatozoa were visualized by histologic analysis, none of the 3 ENO-S bands was found. ENO-S exists as different isoforms (electrophoretic variants) in the different stages of sperm maturation. Passage through the epididymis seems to play a major role in the maturational process of this sperm-specific enolase.
The authors report a double-blind study of 57 full-term newborn infants prospectively subjected to clinical, electroencephalographical, blood and cerebrospinal fluid, and developmental examinations. Four enzymatic activities were measured in blood and CSF: aminotransferase (ASAT), creatine kinase (CK), lactate dehydrogenase (LD) and hydroxybutyrate dehydrogenase (HBD). Close relationships of enzymatic levels with psychomotor outcome are reported. In blood, ASAT and CL seemed to be the most important determinations, allowing threshold-values to be suggested. In CSF, LD and HBD were the determinations the most closely related to psychomotor events at age one. This method seems to be of theoretical as well as practical importance in evaluating neonatal brain injury.
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