The hypolipidemic effect exerted by beta,beta'-tetramethyl-hexadecanedioic acid (Medica 16) is accounted for by enhanced catabolism of plasma triglyceride-rich lipoproteins due to a decrease in plasma apolipoprotein C-III (Frenkel, B., Mayorek, N., Hertz, R., and Bar-Tana, J. (1988) J. Biol. Chem. 263, 8491-8497; Frenkel, B., Bishara-Shieban, J., and Bar-Tana, J. (1994) Biochem. J. 298, 409-414). Decrease in apolipoprotein C-III exerted by peroxisome proliferators/hypolipidemic amphipathic carboxylates (e.g. Medica 16, fibrate drugs) is shown here to result from suppression of apolipoprotein C-III gene expression. Transcriptional suppression of apolipoprotein C-III is due to transcriptional suppression of hepatic nuclear factor (HNF)-4 as well as displacement of HNF-4 from the apolipoprotein C-III promoter. HNF-4 displacement exerted by peroxisome proliferators/hypolipidemic amphipathic carboxylates is mediated by the peroxisome proliferators activated receptor (PPAR). Transcriptional suppression of HNF-4-enhanced genes (e.g. apolipoprotein C-III) along with transcriptional activation of peroxisomal and other genes by hypolipidemic drugs may account for their broad spectrum pharmacological effect.
Carp interstitial nephritis and gill necrosis virus (CNGV) is an unclassified large DNA virus that morphologically resembles members of the Herpesviridae but contains a large (ca. ϳ280-kbp) linear double-stranded DNA. This virus has also been named koi herpesvirus, koi herpes-like virus, and cyprinid herpesvirus 3. CNGV is the cause of a lethal disease that afflicts common carp and koi. By using immunohistochemistry, molecular analysis, and electron microscopy we previously demonstrated that this virus is present mainly in the intestine and kidney of infected fish. Based on these observations, we postulated that viruses and/or viral components may appear in droppings of infected carp. Here we report that (i) by using PCR we demonstrated that fish droppings contain viral DNA, (ii) fish droppings contain viral antigens which are useful for CNGV diagnosis, and (iii) fish droppings contain active virus which can infect cultured common carp brain cells and induce the disease in naïve fish following inoculation. Thus, our findings show that CNGV can be identified by using droppings without taking biopsies or killing fish and that infectious CNGV is present in the stools of sick fish. The possibility that fish droppings preserve viable CNGV during the nonpermissive seasons is discussed.
Short term treatment of rats with beta,beta'-tetramethylhexadecanedioic acid (MEDICA 16) results in a pronounced decrease in plasma very-low-density-lipoprotein (VLDL) cholesterol and VLDL triacylglycerol, previously ascribed to a decrease in liver VLDL production [Bar-Tana, Rose-Kahn, Frenkel, Shafer and Fainaru (1988) J. Lipid Res. 29, 431-441]. The hypolipidaemic effect of MEDICA 16 was further analysed here by monitoring plasma VLDL clearance and its hepatic uptake. VLDL triacylglycerol and VLDL apolipoprotein (apo) B fractional clearance rates were increased 7-8-fold in MEDICA 16-treated rats. The increase in the fractional clearance rate of plasma VLDL was essentially eliminated by functional hepatectomy. It was accounted for by activation of plasma VLDL uptake by the liver being completed during the first 4 min after the injection of the VLDL label and before commencement of uptake in non-treated animals. The hypolipidaemic effect of MEDICA 16 was accompanied by a 3.5-fold decrease in plasma apoC-III, but plasma apoC-III clearance remained unaffected by MEDICA 16. MEDICA 16-induced premature hepatic uptake of plasma VLDL due to suppression of apoC-III production may thus account for enhancement of plasma VLDL clearance in treated animals.
Background: We describe an ELISA-based method that can be used to identify and quantitate proteins in biological samples. In this method, peptides in solution, derived from proteolytic digests of the sample, compete with substrate-attached synthetic peptides for antibodies, also in solution, generated against the chosen peptides. The peptides used for the ELISA are chosen on the basis of their being (i) products of the proteolytic (e.g. tryptic) digestion of the protein to be identified and (ii) unique to the target protein, as far as one can know from the published sequences.
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