Identification and validation of a gene involved in anchorage-independent cell growth control using a library of randomized hairpin ribozymes

We have developed a library of hairpin ribozyme genes that can be delivered and expressed in mammalian cells with the purpose of identifying genes involved in a specific phenotype. By applying the appropriate phenotypic selection criteria in tissue culture, we can enrich for ribozymes that knock down expression of an unknown gene or genes in a particular pathway. Once specific ribozymes are selected, their target binding sequence is used to identify and clone the target gene. We have applied this technology to identify a putative tumor suppressor gene that has been activated in HF cells, a nontransformed revertant of HeLa cells. Using soft agar growth as the selection criteria for gain of transformation, we have isolated ribozymes capable of triggering anchorage-independent growth. Isolation of one of these ribozymes, Rz 568, led to the identification and cloning of the human homologue of the Drosophila gene ppan, a gene involved in DNA replication, cell proliferation, and larval development. This novel human gene, PPAN, was verified as the biologically relevant target of Rz 568 by creating five additional "target validation" ribozymes directed against additional sites in the PPAN mRNA. Rz 568 and all of the target validation ribozymes reduced the level of PPAN mRNA in cells and promoted anchorage-independent growth. Exogenous expression of PPAN in HeLa and A549 tumor cells reduced their ability to grow in soft agar, underscoring its role in regulating anchorage-dependent growth. This study describes a novel method for gene discovery where the intracellular application of hairpin ribozyme libraries was used to identify a novel gene based solely on a phenotype.     

Development of ribozymes that target stathmin, a major regulator of the mitotic spindle

Stathmin is a major cytosolic phosphoprotein that plays an important role in the control of cellular proliferation by regulating the dynamics of the microtubules that make up the mitotic spindle. Because stathmin is expressed at high levels in all human cancers, it is an attractive molecular target for anticancer interventions. We had shown previously that antisense stathmin inhibition results in marked abrogation of the transformed phenotype of leukemic cells in vitro and in vivo. Unlike the antisense approach, ribozymes can catalytically cleave several molecules of target RNA. This may provide a more efficient strategy for downregulating genes, such as stathmin, that are expressed at very high levels in cancer cells. We designed several antistathmin hammerhead ribozymes and tested their cleavage activity against short synthetic stathmin RNA substrates. In vitro cleavage studies demonstrated site-specific cleavage of stathmin RNA that was dependent on ribozyme concentration and duration of exposure to ribozyme. The most active antistathmin ribozyme was capable of cleaving >90% stathmin RNA in a catalytic manner, cleaving multiple substrate molecules per ribozyme molecule. We also demonstrated that the designed antistathmin ribozymes are capable of selectively cleaving native stathmin RNA in a mixture of total RNA isolated from leukemic cells. These antistathmin ribozymes may provide a novel and effective form of gene therapy that may be applicable to a wide variety of human cancers.     

Selective cleavage of closely-related mRNAs by synthetic ribozymes.

In Phaseolus vulgaris L. (French bean) glutamine synthetase (GS) is encoded by four closely-related genes termed gln-alpha, gln-beta, gln-gamma and gln-delta. We have constructed and characterised in vitro a number of hammerhead ribozymes designed to cleave individual RNAs encoded by these genes. The three ribozymes, termed J1, J2 and J3, were targeted to cleave RNA at the start of the gamma and beta, and the middle of the gamma, GS open reading frames respectively. All three ribozymes successfully discriminated between the four (alpha, beta, gamma and delta) highly homologous sequences, even though the targeted sites of cleavage shared up to 18 out of 22 identical bases with other gene family members. The ribozyme-mediated cleavage reactions were Mg2+ dependent and enhanced at higher temperatures, although the J1 ribozyme retained considerable activity at physiological temperatures. Both J1 and J2 demonstrated a time-dependent cleavage of their targeted GS RNAs, although these two ribozymes differed markedly in their ability to cleave multiple substrate molecules. The rate of cleavage by J1 was found to be reduced in the presence of related GS RNAs and by total leaf poly(A) RNAs. The implications of these results for ribozyme activity in vivo are discussed.     

Isolation of Salmonella typhimurium cys genes by transduction with a library of recombinant plasmids packaged in bacteriophage P22HT capsids.

We have prepared a library of Salmonella typhimurium genomic fragments cloned in pBR322 and packaged in P22HT capsids. Plasmids carrying 24 of 26 specific genes searched for were isolated by transduction at frequencies of 1 to 344 per 10(6) plasmid transductants. All 11 known genes of the cysteine regulon were isolated from this library, including cysK, which we had previously been unable to clone in a recombinant plasmid with an Escherichia coli host. This library provides a simple and rapid method for isolating most S. typhimurium genes by using S. typhimurium itself as a host and should be particularly useful for cloning genes that might be deleterious to E. coli.     

Identification of genes that function in the TNF-alpha-mediated apoptotic pathway using randomized hybrid ribozyme libraries

Now that the sequences of many genomes are available, methods are required for the rapid identification of functional genes. We describe here a simple system for the isolation of genes that function in the tumor necrosis factor-alpha (TNF-alpha)-mediated pathway of apoptosis, using RNA helicase-associated ribozyme libraries with randomized substrate-binding arms. Because target-site accessibility considerably limits the effective use of intracellular ribozymes, the effectiveness of a conventional ribozyme library has been low. To overcome this obstacle, we attached to ribozymes an RNA motif (poly(A)-tail) able to interact with endogenous RNA helicase(s) so that the resulting helicase-attached, hybrid ribozymes can more easily attack target sites regardless of their secondary or tertiary structures. When the phenotype of cells changes upon introduction of a ribozyme library, genes responsible for these changes may be identified by sequencing the active ribozyme clones. In the case of TNF-alpha-mediated apoptosis, when a ribozyme library was introduced into MCF-7 cells, surviving clones were completely or partially resistant to TNF-alpha-induced apoptosis. We identified many pro-apoptotic genes and partial sequences of previously uncharacterized genes using this method. Our gene discovery system should be generally applicable to the identification of functional genes in various systems.     

Gene targeting in the Gram-Positive bacterium Lactococcus lactis, using various delta ribozymes

The trans-acting antigenomic delta ribozyme, isolated from the human hepatitis delta virus, was shown to be highly stable and active in vitro, as well as in mammalian cell lines. However, the stability and gene-targeting competence of this small ribozyme have not been studied previously in bacterial cells. In this paper we describe the use of two variants of the trans-acting antigenomic delta ribozyme targeting the abundant EF-Tu mRNA in the industrially important gram-positive bacterium Lactococcus lactis. These two delta ribozyme variants were expressed at significant levels and were shown to be highly stable in vivo. The half-life of the EF-Tu mRNA was slightly but consistently reduced in the presence of the classical delta ribozymes (7 to 13%). In contrast, delta ribozymes harboring a specific on/off riboswitch (SOFA-delta ribozymes) targeting the same sites on the EF-Tu mRNA considerably reduced the half-life of this mRNA (22 to 47%). The rates of catalysis of the SOFA-delta ribozymes in L. lactis were similar to the rates determined in vitro, showing that this new generation of delta ribozymes was highly efficient in these bacterial cells. Clearly, SOFA-delta ribozymes appear to be an ideal means for development of gene inactivation systems in bacteria.     

Use of a randomized hybrid ribozyme library for identification of genes involved in muscle differentiation

We have employed the hybrid hammerhead ribozyme-based gene discovery system for identification of genes functionally involved in muscle differentiation using in vitro myoblast differentiation assay. The major muscle regulatory genes (MyoD1, Mylk, myosin, myogenin, and Myf5) were identified endorsing the validity of this method. Other gene targets included tumor suppressors and cell cycle regulators (p19ARF and p21WAF1), FGFR-4, fibronectin, Prkg2, Pdk4, fem, and six novel proteins. Functional involvement of three of the identified targets in myoblast differentiation was confirmed by their specific knockdown using ribozymes and siRNA. Besides demonstrating a simple and an effective method of isolation of gene functions involved in muscle differentiation, we report for the first time that overexpression of Fem, a member of the sex-determining family of proteins, caused accelerated myotube formation, and its targeting deferred myoblast differentiation. This functional gene screening is not only helpful in understanding the molecular pathways of muscle differentiation but also to design molecular strategies for myopathologic therapies.     

Expression and analysis of two novel rat organic cation transporter homologs, SLC22A17 and SLC22A23

The organic cation transporter (OCT, SLC22) family is a family of polyspecific transmembrane proteins that are responsible for the uptake or excretion of many cationic drugs, toxins, and endogenous metabolites in a variety of tissues. Many of the OCTs have been previously characterized, but there are a number of orphan genes whose functions remain unknown. In this study, two novel rat SLC22 genes, SLC22A17 (BOCT1) and SLC22A23 (BOCT2), were cloned and characterized. Northern blot analysis showed that BOCT1 and BOCT2 mRNA was expressed in a wide variety of tissues. BOCT1 was strongly expressed in brain, primary neurons and brain endothelial cells, with highest expression in choroid plexus. BOCT2 was also abundantly expressed in brain, as well as in liver. To characterize the products of these genes, BOCT1 cDNA was isolated from a rat blood-brain barrier cDNA library, and BOCT2 cDNA was isolated from rat brain capillary and from cultured neurons using PCR techniques. Plasmids expressing BOCT1 and BOCT2 were transfected into HEK-293 cells, as were control cDNAs for OCT1 and OCTN2. Recombinant cell surface protein was verified by western blot and fluorescence microscopy. Transport activity of BOCT1 and BOCT2 was evaluated using radioisotope uptake assays. The OCT1- and OCTN2-expressing cells transported the canonical substrates, 1-methyl-4-phenyl-pyridinium (MPP(+)) and carnitine, respectively. However, BOCT1 and BOCT2-expressing cells did not show transport activity for these substrates or a number of other SLC22 substrates. These novel family members have a nonconserved amino terminus, relative to other OCTs, that may preclude typical SLC22 transport function.     

Identification of ribozymes within a ribozyme library that efficiently cleave a long substrate RNA.

Positions 2-6 of the substrate-binding internal guide sequence (IGS) of the L-21 Sca I form of the Tetrahymena thermophila intron were mutagenized to produce a GN5 IGS library. Ribozymes within the GN5 library capable of efficient cleavage of an 818-nt human immunodeficiency virus type 1 vif-vpr RNA, at 37 degrees C, were identified by ribozyme-catalyzed guanosine addition to the 3' cleavage product. Three ribozymes (IGS = GGGGCU, GGCUCC, and GUGGCU) within the GN5 library that actively cleaved the long substrate were characterized kinetically and compared to the wild-type ribozyme (GGAGGG) and two control ribozymes (GGAGUC and GGAGAU). The two control ribozymes have specific sites within the long substrate, but were not identified during screening of the library. Under single-turnover conditions, ribozymes GGGGCU, GGCUCC, and GUGGCU cleaved the 818-nt substrate 4- to 200-fold faster than control ribozymes. Short cognate substrates, which should be structureless and therefore accessible to ribozyme binding, were cleaved at similar rates by all ribozymes except GGGGCU, which showed a fourfold rate enhancement. The rate of cleavage of long relative to short substrate under single-turnover conditions suggests that GGCUCC and GUGGCU were identified because of accessibility to their specific cleavage sites within the long substrate (substrate-specific effects), whereas GGGGCU was identified because of an enhanced rate of substrate binding despite a less accessible site in the long substrate. Even though screening was performed with 100-fold excess substrate (relative to total ribozyme), the rate of multiple-turnover catalysis did not contribute to identification of trans-cleaving ribozymes in the GN5 library.     

Ribozymes designed to inhibit transformation of NIH3T3 cells by the activated c-Ha-ras gene.

We have designed hammerhead ribozymes that cleave c-Ha-ras mRNA mutated at codon 12 (GGU----GUU). Plasmids containing the ribozyme-encoding genes were expressed under the control of the long terminal repeats of Rous sarcoma virus in NIH3T3 cells transfected with the activated c-Ha-ras gene. These ribozymes were found to inhibit formation of foci (by about 50%) by cleaving the oncogene mRNA, rather than by hybridizing to it. Furthermore, when the activated c-Ha-ras gene was cotransfected with the ribozyme-encoding gene, three morphologically flat colonies were found and isolated. We also found that expression of c-Ha-ras was suppressed in cells containing ribozymes.     

Targeted disruption of CD44 in MDAY-D2 lymphosarcoma cells has no effect on subcutaneous growth or metastatic capacity

CD44 splice variants have been shown to be involved in metastasis of carcinomas. In addition, the standard form of CD44 has been implicated in metastasis, particularly of melanomas and lymphomas. To investigate this, we have generated a CD44-negative mutant of the highly metastatic murine MDAY-D2 lymphosarcoma. The two CD44 alleles of this diploid cell line were sequentially disrupted by homologous recombination, using isogenic CD44 genomic constructs interrupted by a neomycin or hygromycin resistance-conferring gene. The resulting double knockout (DKO) cells had completely lost the capacity to bind to immobilized hyaluronic acid, but did not differ from MDAY-D2 cells in integrin expression or in vitro growth. Subcutaneous (s.c.) growth potential and metastatic capacity of MDAY-D2 and DKO cells were assessed by s.c. and i.v. injection of the lowest cell dose (10(3) or 10(4), respectively) that gave rise to tumor formation by MDAY-D2 cells in approximately 100% of the mice. Quite unexpectedly, we observed no difference at all in either s.c. growth rate or local invasion into surrounding tissues between MDAY-D2 cells and the CD44-negative DKO cells. Also hematogenous metastasis formation upon i.v. injection was similar: both parental and DKO cells metastasized extensively to the spleen, liver, and bone marrow. We conclude that, at least for these MDAY-D2 lymphosarcoma cells, the standard form of CD44 is dispensable for tumor growth and metastasis. Our results show that targeted disruption of genes in tumor cells is a feasible approach to study their role in tumorigenesis and metastasis.     

Inhibition of HIV-1 replication by ribozymes that show poor activity in vitro.

Self-cleaving RNAs (ribozymes) can be engineered to cleave target RNAs of choice in a sequence-specific manner (1). Consequently, they could be used to inhibit virus replication or to analyse host gene function in vivo. However, ribozymes that are catalytic in vitro are generally disappointing when analysed in cells unless expressed at high levels relative to their target RNAs (2, 3). Here we provide evidence that this can be overcome by optimizing ribozyme structure using cellular rather than cell-free assays. We show that ribozymes of relatively long flanking complementary regions (FCRs), while poor catalysts in vitro, can produce profound inhibition of HIV replication in cells. By examining a series of ribozymes in which the FCRs vary from 9 to 564 nucleotides, we establish that the optimum length for activity in the cell is > or = 33 nucleotides.     

Inhibition of interleukin-1beta (IL-1beta) production in human cells by ribozymes against IL-1beta and IL-1beta converting enzyme (ICE)

We and others have shown previously that hairpin ribozyme genes, when stably expressed in cells, can reduce the steady-state levels of target mRNA and their cognate proteins. Despite this capability, ribozymes have not been as widely used in knockdown experiments as one might expect, probably because specific rules governing the selection of ribozymes that will have high activity have not been described. In this report, we show that parallel screening of less than 10 ribozyme expression constructs, with no advanced knowledge of cleavage activity or preselection, can efficiently identify knockdown ribozymes. This empirical selection study, which used interleukin-1beta (IL-1beta) and IL-1beta converting enzyme (ICE) as example targets, resulted in (1) the rapid identification of ribozymes that can reduce the production of IL-1beta in THP-1 cultures by 10-fold and (2) the consequent direct generation of stable knockdown cell lines. We conclude, based on these and similar studies, that parallel screening of ribozyme constructs could be used in high throughput gene functional analysis programs as a means of rapidly generating specific knockdown cell lines.     

Suppression of GD1alpha ganglioside-mediated tumor metastasis by liposomalized WHW-peptide

GD1alpha ganglioside-replica peptides were recently isolated from a phage-displayed random pentadecapeptide library by assaying for inhibition of adhesion of RAW117-H10 lymphosarcoma cells to hepatic sinusoidal microvessel endothelial (HSE) cells. We show here that the Trp-His-Trp (WHW) peptide was identified as a minimal sequence of the GD1alpha-replica peptide WHWRHRIPLQLAAGR. The addition of WHW peptide-attached liposomes displayed efficient inhibition of liver metastasis of RAW117-H10 cells as well as of GD1alpha-mediated adhesion of RAW117-H10 cells to HSE cells in vitro. These results suggest that engineered liposomes for peptide delivery are applicable to treatment for metastasis.     

SERPINE2 is a possible candidate promotor for lymph node metastasis in testicular cancer

Testicular germ cell tumors (TGCTs) commonly metastasize to the lymph node or lung. However, it remains unclear which genes are associated with TGCT metastasis. The aim of this study was to identify gene(s) that promoted human TGCT metastasis. We intraperitoneally administered conditioned medium (CM) from JKT-1, a cell-line from a human testicular seminoma, or JKT-HM, a JKT-1 cell sub-line with high metastatic potential, into mice with JKT-1 xenografts. Administration of CM from JKT-HM significantly promoted lymph node metastasis. A cDNA microarray analysis showed that JKT-HM cells highly expressed the Serpine peptidase inhibitor, clade E, member 2 (SERPINE2), which encodes a secreted protein. Administration of CM from SERPINE2-silenced JKT-HM cells inhibited lymph node metastasis in the xenograft model, compared with administration of CM from JKT-HM cells. There was no significant difference in xenograft volume. Moreover, administration of CM from SERPINE2-over-expressing JKT-1 was likely to promote lymph node metastasis in the xenograft model. There was no difference in the in vitro proliferation or migration of JKT-1 cells cultured with CM from JKT-HM cells, compared to that with CM from JKT-1. There was no promotion of proliferation or lymphangiogenesis in the xenografts, as measured by Ki-67 and LYVE-1 immunohistochemistry, respectively. Although we could not clarify how SERPINE2 promoted lymph node metastasis, it may be a promoter in the development of lymph node metastasis in the human seminoma cells in a mouse xenograft model.     

Functional gene-discovery systems based on libraries of hammerhead and hairpin ribozymes and short hairpin RNAs

Abundant information about the nucleotide sequence of the human genome has become readily available and it is now necessary to develop methods for the identification of genes that are involved in important cellular, developmental and disease-related processes. Identification methods based on the activities of hammerhead and hairpin ribozymes and of short hairpin RNAs (shRNAs), whose target specificities are coupled with loss-of-function phenotypes, have received increasing attention as possible tools for the rapid identification of key genes involved in such processes. We describe here recent advances that have been made with libraries of ribozymes and shRNAs and compare the advantages of the different types of library. The use of such libraries has already revealed new details of several important physiological phenomena.