Enzymatic kinetics regarding reversible metabolism of CS-0777, a sphingosine 1-phosphate receptor modulator, via phosphorylation and dephosphorylation in humans

  • Xenobiotica. 2018 Mar;48(3):258-268. doi: 10.1080/00498254.2017.1306150.
Shin-Ichi Inaba  1 Maki Yamaguchi-Goto  1 Kaoru Tanaka-Takanaka  1 Kiyoaki Yonesu  2 Hidetaka Sakurai  3 Kazuishi Kubota  3 Takashi Izumi  1
Affiliations
  • 1. a Drug Metabolism & Pharmacokinetics Research Laboratories, Daiichi Sankyo Co. Ltd , Tokyo , Japan.
  • 2. b Oncology Laboratories, Daiichi Sankyo Co. Ltd , Tokyo , Japan , and.
  • 3. c Discovery Science and Technology Department, Daiichi Sankyo RD Novare Co. Ltd , Tokyo , Japan.
Abstract

1. CS-0777, a candidate compound for autoimmune diseases, becomes phosphorylated active metabolite, M1, by fructosamine 3-kinase (FN3K), FN3K-related protein (FN3K-RP); and M1 is reverted back to CS-0777 by Alkaline Phosphatase (ALP) in the body. We performed enzyme kinetic analysis of phosphorylation of CS-0777 by FN3K, FN3K-RP, human erythrocytes and human platelets; and dephosphorylation of M1 by various ALP isozymes and human liver, kidney, lung and small intestine microsomes. 2. The Michaelis constants of human FN3K, FN3K-RP and erythrocytes for CS-0777 phosphorylation were in the range from 498 μM to 1060 μM. FN3K inhibitor, 1-deoxy-1-morpholinofructose, suppressed only about 20% of CS-0777 phosphorylation activity in human erythrocyte lysate. Immunodepletion of FN3K and FN3K-RP decreased M1 formation activity by about 25% and 50%, respectively, in human erythrocyte lysate. 3. The Michaelis constants of four human ALPs and microsomes were in the range from 10.9 μM to 32.1 μM. The ALP inhibitor, levamisole, suppressed over 50% of M1 dephosphorylation activity in liver, kidney and lung microsomes. 4. FN3K-RP is expected to take a prominent role in the phosphorylation of CS-0777 in human erythrocytes; dephosphorylation of M1 was observed in all ALPs and human tissue microsomes examined, with a similar affinity towards M1 among them.

Keywords
Alkaline phosphatase; CS-0777; enzymatic kinetics; fructosamine 3-kinase; fructosamine 3-kinase related protein; reversible metabolism.
Products