The gradual reduction of viroid levels in hop mericlones following heat therapy: a possible role for a nuclease degrading dsRNA.

A high concentration of hop latent viroid (HLVd) was detected in infected mericlones of Osvald's hops grown in vitro. This concentration was about 8-fold higher than in leaves of young, field-grown plants, reaching about 30 pg/mg of fresh mass. Treatment of these in vitro-grown plants at high temperature (35 degrees C) for two weeks lead to a dramatic (about 70-90%) decrease of HLVd content. More detailed investigations performed with mericlone 6147 of Osvald 31 showed that HLVd levels decrease gradually during subsequent cycles of heat treatment. A nuclease activity capable of cleaving HLVd and fully double-stranded RNA was shown to increase significantly in hop tissues during thermotherapy cycles, or after the heat shock. The nuclease activity was found to have similar properties to those extracted earlier from tobacco anthers. This enzyme resembles a sugar-unspecific nuclease which has a maximum activity at pH 5.5. Analysis of the activity with viroid and dsRNA showed that both, endo- and exonucleolytic activities were attributable to the enzyme. A strong tissue-specific gradient of viroid (the lowest level in stem apex and the highest level in roots) was observed in young plants, showing a negative correlation with the dsRNAse activity. In senescent plants, the highest viroid concentration was observed in maturated cones and in upper stems. High nuclease activity in the upper stem tissue suggests that viroid RNA must be protected in this tissue against degradation.

Inhibition of viroid infection by antisense RNA expression in transgenic plants.

Complex formation between different antisense RNAs directed against either plus-strand or minus-strand sequences of the potato spindle tuber viroid (PSTVd) was studied using temperature-gradient gel electrophoresis and immunochemical detection with an antibody specific for double-stranded RNA. Short minus-strand sequences were directed against the upper central conserved region (UCCR) of plus-strand viroid replication intermediates, a plus-strand corresponding to the left half of the rod-like secondary structure (VL+) against minus-strand replication intermediates. It was shown that antisense RNA forms complexes with the corresponding target RNA only with low yield during incubation at low (physiological) temperatures but with high yield during in vitro transcription of the target RNA when the antisense RNA is already present in the solution. The antisense RNA sequences were integrated into Solanum tuberosum L. by Agrobacterium tumefaciens transformation. Antisense RNA expression in vivo was analyzed by Northern analysis. Infection tests were performed using the transgenic potato lines in order to evaluate their degree of resistance against PSTVd infection. Although some lines showed a significant inhibition of viroid accumulation, a high variability of viroid infection in different transgenic potato lines was obtained. Since strongly infected plants were observed in all transgenic lines 6 to 8 weeks post inoculation, a threshold concentration of viroid, overcoming the antisense effect has to be assumed. When the rate of viroid accumulation was tested using agroinfection assays on leaf discs, a stronger antisense effect could be achieved.

Inhibition of potato spindle tuber viroid (PSTVd) infection with DNA oligonucleotides.

The effects of DNA oligonucleotides complementary to potato spindle tuber viroid (PSTVd) on viroid infection were investigated. The oligonucleotides were used to form hybrids with PSTVd in the infection mixture. A 75% reduction of viroid infection was found when an oligonucleotide complementary to nucleotides 79-110 of PSTVd was hybridized with PSTVd at a molar ratio of approximately 5000:1, respectively. A total inhibition of PSTVd infection was observed using an oligonucleotide complementary to nucleotides 42-78 at the same molar excess of DNA over PSTVd, although a 200-fold molar excess was found to be sufficient for the complete blocking of infection by PSTVd. This oligonucleotide caused a significant reduction (about 83%) of viroid infection even if the hybridization was done at a low (30 degrees C) temperature. Shorter oligonucleotides containing 22 and 15 bases corresponding to position 42-62 and 63-78, respectively, exhibited a significant effect only at a high (80 degrees C) initial temperature of molecular hybridization. Heteroduplexes formed between PSTVd RNA and antisense DNA were found to be less stable in a crude nuclease extract from tomato leaves as compared with PSTVd RNA alone. RNase H was demonstrated to cleave the molecular hybrids in vitro.