TY - JOUR
T1 - Thiophenyl Derivatives of Nicotinamide Are Metabolized by the NAD Salvage Pathway into Unnatural NAD Derivatives That Inhibit IMPDH and Are Toxic to Peripheral Nerve Cancers
AU - Theodoropoulos, Panayotis C.
AU - Guo, Holly H.
AU - Wang, Wentian
AU - Crossley, Eric
AU - Rivera Cancel, Giomar
AU - Fang, Min
AU - Nguyen, Thu
AU - Baniasadi, Hamid
AU - Williams, Noelle S.
AU - Ready, Joseph M.
AU - De Brabander, Jef K.
AU - Nijhawan, Deepak
N1 - Publisher Copyright:
© 2024 American Chemical Society.
PY - 2024/6/21
Y1 - 2024/6/21
N2 - N-Pyridinylthiophene carboxamide (compound 21) displays activity against peripheral nerve sheath cancer cells and mouse xenografts by an unknown mechanism. Through medicinal chemistry, we identified a more active derivative, compound 9, and found that only analogues with structures similar to nicotinamide retained activity. Genetic screens using compound 9 found that both NAMPT and NMNAT1, enzymes in the NAD salvage pathway, are necessary for activity. Compound 9 is metabolized by NAMPT and NMNAT1 into an adenine dinucleotide (AD) derivative in a cell-free system, cultured cells, and mice, and inhibition of this metabolism blocked compound activity. AD analogues derived from compound 9 inhibit IMPDH in vitro and cause cell death by inhibiting IMPDH in cells. These findings nominate these compounds as preclinical candidates for the development of tumor-activated IMPDH inhibitors to treat neuronal cancers.
AB - N-Pyridinylthiophene carboxamide (compound 21) displays activity against peripheral nerve sheath cancer cells and mouse xenografts by an unknown mechanism. Through medicinal chemistry, we identified a more active derivative, compound 9, and found that only analogues with structures similar to nicotinamide retained activity. Genetic screens using compound 9 found that both NAMPT and NMNAT1, enzymes in the NAD salvage pathway, are necessary for activity. Compound 9 is metabolized by NAMPT and NMNAT1 into an adenine dinucleotide (AD) derivative in a cell-free system, cultured cells, and mice, and inhibition of this metabolism blocked compound activity. AD analogues derived from compound 9 inhibit IMPDH in vitro and cause cell death by inhibiting IMPDH in cells. These findings nominate these compounds as preclinical candidates for the development of tumor-activated IMPDH inhibitors to treat neuronal cancers.
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U2 - 10.1021/acschembio.4c00170
DO - 10.1021/acschembio.4c00170
M3 - Article
C2 - 38829020
AN - SCOPUS:85195298728
SN - 1554-8929
VL - 19
SP - 1339
EP - 1350
JO - ACS chemical biology
JF - ACS chemical biology
IS - 6
ER -