dephosphocoenzyme-a and pantethine

Dephospho coenzyme A (depCoA) is the last intermediate for CoA biosynthesis, and it can be used as a transcription initiator to prepare CoA-linked RNA by in vitro transcription. However, commercially available depCoA is expensive. We hereby describe a simple and efficient enzymatic synthesis of depCoA in a single-step from commercially available and inexpensive oxidized pantethine (Ox-Pan) and ATP. A plasmid (pCoaDAa) was constructed to co-express and co-purify two enzymes pantothenate kinase (PanK/coaA) and phosphopantetheine adenylyltransferase (PPAT/coaD). Starting from Ox-Pan and ATP, two different synthetic routes of one-pot reaction catalyzed by PanK and PPAT, followed by a simple column purification step, afforded depCoA and its oxidized dimer (Ox-depCoA) with high yields and purity. The simplicity and low cost of our method should make depCoA easily accessible to a broad scientific community, and promote research on CoA-related areas in biology and biomedicine.

Topics: Adenosine Triphosphate; Amino Acid Sequence; Base Sequence; Chemistry Techniques, Synthetic; Cloning, Molecular; Coenzyme A; Escherichia coli; Nucleotidyltransferases; Oxidation-Reduction; Pantetheine; Phosphotransferases (Alcohol Group Acceptor); Plasmids

D-Pantethine is a compound in which two molecules of D-pantetheine bind through an S-S linkage. D-Pantethine is available from commercial sources as well as from D-pantothenic acid. We investigated if D-pantethine has the same vitamin activity as D-pantothenic acid by comparing the recovery from a deficiency of D-pantothenic acid in rats. D-Pantothenic acid-deficient rats were developed by weaning rats on a diet lacking D-pantothenic acid for 47 d. At that time, the urinary excretion of D-pantothenic acid was almost zero, and the body weight extremely low, compared with the control (p<0.05); the contents of free D-pantothenic acid were also significantly reduced in comparison with those of controls (p<0.05). D-Pantothenic acid-deficient rats were administered a diet containing D-pantothenic acid or D-pantethine for 7 d. D-Pantethine and D-pantothenic acid contents of the diets were equimolar in forms of D-pantothenic acid. We compared various parameters concerning nutritional status between rats fed D-pantothenic acid- and D-pantethine-containing diets. The recoveries of body weight, tissue weights, and tissue concentrations of free D-pantothenic acid, dephospho-CoA, CoA, and acetyl-CoA were identical between rats fed diets containing D-pantothenic acid and D-pantethine. Thus, the biological efficiency for recovering from a deficiency of D-pantothenic acid in rats was equivalent between D-pantothenic acid and D-pantethine.

Topics: Acetyl Coenzyme A; Animals; Body Weight; Coenzyme A; Diet; Male; Organ Size; Pantetheine; Pantothenic Acid; Rats; Rats, Wistar; Vitamins; Weaning