Specific lack of the hypermodified nucleoside, queuosine, in hepatoma mitochondrial aspartate transfer RNA and its possible biological significance.

Tumor nucleic acids have frequently been found to be deficient in methylated and other modified nucleotides. In particular, cytoplasmic transfer RNAs (tRNAs) from various neoplasms partially lack the hypermodified nucleoside queuosine, a modification specific for anticodons of histidine-, tyrosine-, asparagine-, and aspartic acid-accepting tRNAs. Using aspartate tRNA as an example, we show here that liver mitochondria contain tRNA fully modified with respect to queuosine, while the corresponding tRNA from mitochondria of Morris hepatoma 5123D completely lacks this constituent. The sequences of these tRNAs, which were determined by a highly sensitive 32P-postlabeling procedure entailing the direct identification of each position of the polynucleotide chains, were found to be (sequence in text) Lack of queuosine in the hepatoma mitochondrial tRNA may be due to the inavailability of queuine in the hepatoma mitochondria for incorporation into tRNA or to inhibition of the modifying enzyme, tRNA (guanine)-transglycosylase, in the tumor. Taking into account results of others indicating a possible involvement of the queuosine modification in differentiation of eukaryotic cells, we hypothesize that the queuosine defect may develop at an early stage of carcinogenesis (i.e., during the promotion phase) and be directly involved in abnormalities of mitochondria which have been observed frequently in transformed cells and tumors.