Cysteine dioxygenase (CDO, EC 1.13.11.20) catalyzes the oxidation of cysteine to cysteine sulfinic acid, which is the first major step in cysteine catabolism in mammalian tissues. Rat liver CDO was cloned and expressed in Escherichia coli as a 26.8-kDa N-terminal fusion protein bearing a polyhistidine tag. Purification by immobilized metal affinity chromatography yielded homogeneous protein, which was catalytically active even in the absence of the secondary protein-A, which has been reported to be essential for activity in partially purified native preparations. As compared with those existing purification protocols for native CDO, the milder conditions used in the isolation of the recombinant CDO allowed a more controlled study of the properties and activity of CDO, clarifying conflicting findings in the literature. Apo-protein was inactive in catalysis and was only activated by iron. Metal analysis of purified recombinant protein indicated that only 10% of the protein contained iron and that the iron was loosely bound to the protein. Kinetic studies showed that the recombinant enzyme displayed a K m value of 2.5 ؎ 0.4 mM at pH 7.5 and 37°C. The enzyme was shown to be specific for L-cysteine oxidation, whereas homocysteine inhibited CDO activity.
Glycerol-3-phosphate acyltransferase (GPAT) catalyzes the acylation of sn-glycerol 3-phosphate to form 1-acyl-sn-glycerol 3-phosphate, a committed step in triacylglycerol and phospholipid biosynthesis. We have previously reported the cDNA cloning and transcriptional regulation of the murine mitochondrial GPAT (mGPAT). We now report the cloning of the 5'-flanking region of the murine mitochondrial GPAT. The transcription start site was identified by primer extension and RNase protection assays. A TATA box-like motif (TTATTAT) was located between -34 and -29 and a reverse CCAAT box (ATTGG) was located between -78 and -74, relative to the transcription start site. To begin studying mechanisms underlying transcriptional regulation of the mGPAT gene, chimeric luciferase (LUC) plasmids containing serial deletions, from -1447 to -38, of the 5'-flanking region of the murine mGPAT gene were prepared and transfected into 3T3-L1 cells. The fusion construct -1447 GPAT.LUC showed high promoter activity and deletions to -1353, -747, -322, and -86 did not markedly change the promoter activity. With all constructs, luciferase activity was 2-fold higher when plasmids were transfected into 3T3-L1 adipocytes. However, deletion of sequences between -86 and -55 resulted in a 9-fold decrease in LUC activity in both preadipocytes and adipocytes. Deletion of sequences between -55 and -38 did not alter promoter activity. DNase I footprint analysis revealed a protected region between -95 and -65 which included the putative CTF/NF1 binding site. Electrophoretic mobility shift assays demonstrated a single protein-DNA complex formation. Oligonucleotides synthesized according to the CTF/NF1 consensus sequence or the adenovirus NF-1 site showed a different and more complex pattern of protein-DNA interaction and were not able to compete away the mGPAT promoter-protein complex, indicating that a distinct protein was bound to -86/-55, a region important for the basal promoter activity in 3T3-L1 cells. Luciferase activity was increased 2.8- and 8-fold when adipocytes stably transfected with -322 GPAT.LUC were treated with 5 and 25 mM glucose, respectively, in the presence of 10 nM insulin. These results indicate that carbohydrate-responsive sequences are located within -322 base pairs of the mGPAT promoter.
In a series of experiments, rats were subjected to end-to-side portacaval shunts using either suture or nonsuture surgical procedures. Rats were maintained on cereal-based or purified diets in pellet form. All rats recovered preoperative body weights within the experimental periods; however, recovery of preoperative body weight was influenced by surgical technique and diet composition. Portacaval shunted rats fed a cereal-based diet required a longer period of time (14 days) to reattain preoperative body weights when compared to portacaval shunted rats fed a purified diet (7 days). Once preoperative body weight was recovered, growth rates of portacaval shunted rats were parallel to those of sham-operated controls. Rats with a suture-portacaval shunt appeared most sensitive to the feeding of a cereal-based diet. All portacaval shunted rats and sham controls fed a purified diet regained preoperative body weights within 7 days after surgery. Sham controls fed either a cereal-based or purified diet recovered preoperative body weights within an average of 4 days. Suture-portacaval shunted rats consuming a pellet form cereal-based diet showed a low feed efficiency which could be reversed by feeding a pellet form purified diet. Rats subjected to a nonsuture glue-portacaval shunt and fed a cereal-based diet showed 50% lower feed efficiencies than did glue-portacaval shunted rats fed a purified diet. Portacaval shunted rats decreased their consumption of cereal-based diets but not of purified diets postoperatively.(ABSTRACT TRUNCATED AT 250 WORDS)
The partitioning of cysteine metabolism between sulfate and taurine biosynthetic pathways may be regulated in part by the activity of cysteine sulfinic acid decarboxylase (CSAD). CSAD activity is repressed by high-protein feeding, and we have previously reported that changes in CSAD activity are correlated with changes in CSAD protein. We conducted experiments to determine the relative expression of CSAD mRNA in rats fed 18 or 60% casein diets. In rats fed a 60% casein diet for 1 wk, hepatic CSAD activity and CSAD protein were 16 and 36%, respectively, of the values measured in rats fed the 18% casein diet. CSAD mRNA abundance in rats fed the 60% casein diet was 14% of the CSAD mRNA abundance in rats fed an 18% casein diet. The time course of the change in CSAD activity and mRNA abundance was examined in rats fed 18 or 60% casein diets for 48 h. Within 6 h of switching rats to a 60% casein diet, CSAD activity was decreased by 20% and after 48 h, activity was decreased 47% compared to activity measured at baseline. CSAD mRNA abundance was decreased 54% within 12 h of feeding rats a high-protein diet and remained depressed at 48 h. In a parallel group of rats fed the 18% casein diet, CSAD activity and CSAD mRNA were not significantly different from baseline values at 48 h. The decreased expression of CSAD mRNA in rats fed a high-protein diet is consistent with decreases in both CSAD enzyme activity and CSAD protein. Our results suggest dietary protein may regulate CSAD at the level of mRNA.
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