A natural
compound screen identified several anticancer compounds,
among which azapodophyllotoxin (AZP) was found to be the most potent.
AZP caused decreased viability of both mouse and human lymphoma and
renal cell cancer (RCC) tumor-derived cell lines. Novel AZP derivatives
were synthesized and screened identifying compound NSC750212 to inhibit
the growth of both lymphoma and RCC both in vitro and in vivo. A nanoimmunoassay
was used to assess the NSC750212 mode of action in vivo. On the basis
of the structure of AZP and its mode of action, AZP disrupts tubulin
polymerization. Through desorption electrospray ionization mass spectrometry
imaging, NSC750212 was found to inhibit lipid metabolism. NSC750212
suppresses monoglycerol metabolism depleting lipids and thereby inhibits
tumor growth. The dual mode of tubulin polymerization disruption and
monoglycerol metabolism inhibition makes NSC750212 a potent small
molecule against lymphoma and RCC.
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