A sequence-specific ribozyme (M1GS RNA) derived from the catalytic RNA subunit of RNase P from Escherichia coli was used to target the overlapping exon 3 region of the mRNAs encoding the major transcription regulatory proteins IE1 and IE2 of human cytomegalovirus. A reduction of more than 80% in the expression levels of IE1 and IE2 and a reduction of about 150-fold in viral growth were observed in human cells that stably expressed the ribozyme. In contrast, a reduction of less than 10% in the IE1͞IE2 expression and viral growth was observed in cells that either did not express the ribozyme or produced a ''disabled'' ribozyme that carried mutations that abolished its catalytic activity. Examination of the expression of several other viral early and late genes in the cells that expressed the M1GS ribozyme further revealed an overall reduction of at least 80% in their expression. These results are consistent with the notion that the antiviral effects in these cells are due to the fact that the ribozyme specifically inhibits the expression of IE1 and IE2 and, consequently, abolishes the expression of viral early and late genes as well as viral growth. Our study is the first, to our knowledge, to use M1GS ribozyme for inhibiting human cytomegalovirus replication and demonstrates the utility of this ribozyme for antiviral applications. Human cytomegalovirus (HCMV) is a ubiquitous herpesvirus that causes mild or subclinical diseases in immunocompetent adults but may lead to severe morbidity or mortality in neonates and immunocompromised individuals (1). Infection by this virus accounts for one of the most common opportunistic diseases in patients with AIDS, CMV retinitis. The emergence of drug-resistant strains of HCMV has posed a need for the development of new drugs and novel treatment strategies (2, 3).Antisense nucleic acid molecules, including conventional antisense oligonucleotides and antisense ribozymes, are promising gene-targeting agents for specific inhibition of gene expression (4-8). Antisense molecules have been used as anti-HCMV agents to inhibit the expression of HCMV-essential genes and abolish viral replication (4, 9-12). External guide sequences (EGSs; refs. 13 and 14) are antisense oligoribonucleotides that have been used in conjunction with either ribonuclease P (RNase P) or the catalytic RNA subunit of RNase P from Escherichia coli (M1 RNA; ref. 15) to diminish the expression of several genes both in E. coli (16,17) and in mammalian cells (14,(18)(19)(20)(21). The EGS-based technology takes advantage of RNase P or M1 RNA to cleave a targeted mRNA when the EGS hybridizes to the target RNA (refs. 13 and 14; Fig. 1A). The EGSs, when expressed separately from the enzyme, have been shown recently to be effective in inhibiting the gene expression of herpes simplex virus 1 (HSV-1) and influenza virus and, in addition, in abolishing the replication of influenza virus (20,21). To increase the targeting efficiency, the EGS can be covalently linked to M1 RNA (i.e., its 3Ј end) to generate a sequence-specific...
Maternal morbidity and mortality continue to rise, and pre-eclampsia is a major driver of this burden1. Yet the ability to assess underlying pathophysiology before clinical presentation to enable identification of pregnancies at risk remains elusive. Here we demonstrate the ability of plasma cell-free RNA (cfRNA) to reveal patterns of normal pregnancy progression and determine the risk of developing pre-eclampsia months before clinical presentation. Our results centre on comprehensive transcriptome data from eight independent prospectively collected cohorts comprising 1,840 racially diverse pregnancies and retrospective analysis of 2,539 banked plasma samples. The pre-eclampsia data include 524 samples (72 cases and 452 non-cases) from two diverse independent cohorts collected 14.5 weeks (s.d., 4.5 weeks) before delivery. We show that cfRNA signatures from a single blood draw can track pregnancy progression at the placental, maternal and fetal levels and can robustly predict pre-eclampsia, with a sensitivity of 75% and a positive predictive value of 32.3% (s.d., 3%), which is superior to the state-of-the-art method2. cfRNA signatures of normal pregnancy progression and pre-eclampsia are independent of clinical factors, such as maternal age, body mass index and race, which cumulatively account for less than 1% of model variance. Further, the cfRNA signature for pre-eclampsia contains gene features linked to biological processes implicated in the underlying pathophysiology of pre-eclampsia.
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