Research on ribosome-inactivating proteins from angiospermae to gymnospermae and cryptogamia.

Ribosome-inactivating Proteins (RIPs) are a group of cytotoxin proteins that usually contain a RNA N-glycosidase domain, which irreversibly inactivates ribosome, thus inhibiting protein synthesis. During the past 14 years (1990-2004), the studies conducted in our laboratory had been focusing on the structure and enzymatic mechanism of several PIPs. Herein, we briefly described a summary of the studies conducted mainly in our laboratory on RIPs from angiospermae to gymnospermae and cryptogamia as follows. (1) Cinnamomin is a novel type II RIP isolated from mature seeds of camphor tree. Like ricin, it specifically removes the adenine at A4324 in rat liver 28S rRNA. We systematically studied this low-toxic RIP in term of its enzymatic mechanism, the primary and crystal structure and the nucleotide sequence of its gene, the genetic expression, and its physiological role in the seed cell and the toxicity to human cancer cells and insect larvae. The cleavage of supercoiled double-stranded DNA was its intrinsic property of cinnamomin A-chain, its N- and C-terminal regions were found to be required for deadenylation of rRNA and also necessary for deadenylation of supercoiled double-stranded circular DNA. These results strongly excluded the possibility that cleavage of supercoiled DNA was due to nuclease contamination. (2) Trichosanthin, an abortifacient protein, was purified from the Chinese medicinal herb, Tian-hua-fen, obtained from root tubers of Chinese trichosanthes plant. We proved that trichosanthin was a RNA N-glycosidase, inactivating eukaryotic ribosome by hydrolyzing the N-C glycosidic bond of the adenose at site 4324 in rat 28S rRNA, and inhibited protein synthesis in vitro. (3) A unique Biota orientalis RNase (RNase Bo) was extracted from the mature seeds of the cypress cypress tree (Oriental arborvita), which was gymnospermae plant. It cleaved only a specific phosphodiester bond between C4453 and A4454 of 28S RNA in rat ribosomes, producing a small RNA-fragment (S-fragment), thus inhibiting protein synthesis and belonging to RNase-like RIP, similar to α-sarcin, a special RIP. (4) Lamjapin, the first RIP purified from kelp, the marine cryptogamia algal plant, was shown to be the first single-chained RNA N-glycosidase from marine plant to date. It hydrolyzed rat ribosomal 28S RNA to produce meanly a rather smaller RNA, shorter than the diagnostic R-fragment under the restricted condition. The significance of existence of type I RIP in the lower marine algal plant was briefly discussed.