Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

One major obstacle to the effective treatment of cancer is to distinguish between tumor cells and normal cells. The chimeric molecules created by cancer-associated chromosomal abnormalities are ideal therapeutic targets because they are unique to the disease. We describe the use of a novel approach based on the catalytic RNA subunit of RNase P to destroy specifically the tumor-specific fusion genes created as a result of chromosome abnormalities. Using as a target model the abnormal BCR-ABL p190 and p210 products, we constructed M1-RNA with guide sequences that recognized the oncogenic messengers at the fusion point (M1-p190-GS and M1-p210-GS). To test the effectiveness and the specificity of M1-p190-GS and M1-p210-GS, we studied in vitro and in vivo effects of these RNA enzymes against BCR-ABL(p190) and BCR-ABL(p210), bearing in mind that both fusion genes share the ABL sequence but differ in the sequence coming from the BCR gene. We showed that M1-p190-GS and M1-p210-GS can act as sequence-specific endonucleases and can exclusively cleave target RNA that forms a base pair with the guide sequence (GS). We also demonstrated that when M1-p190-GS and M1-p210-GS were expressed in proper mammalian cell models, they abolished the effect of BCR-ABL by specifically decreasing the amount of the target BCR-ABL mRNA and preventing the function of the BCR-ABL oncogenes. These data clearly demonstrate the usefulness of the catalytic activity of M1-GS RNA to cleave specifically the chimeric molecules created by chromosomal abnormalities in human cancer and to represent a novel approach to cancer treatment.
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PMID:In vivo inhibition by a site-specific catalytic RNA subunit of RNase P designed against the BCR-ABL oncogenic products: a novel approach for cancer treatment. 1064 80

Ribonuclease P (RNase P) is a ubiquitous ribonucleoprotein complex responsible for the biosynthesis of tRNA. This enzyme from Escherichia coli contains a catalytic RNA subunit (M1 ribozyme) and a protein subunit (C5 cofactor). M1 ribozyme cleaves an RNA helix that resembles the acceptor stem and T-stem structure of its natural tRNA substrate. When covalently linked with a guide sequence, M1 RNA can be engineered into a sequence-specific endonuclease, M1GS ribozyme, which can cleave any target RNA sequences that base pair with the guide sequence. Recent studies indicate that M1GS ribozymes efficiently cleave the mRNAs of herpes simplex virus 1, human cytomegalovirus, and cancer causing BCR-ABL proteins in vitro and effectively inhibit the expression of these mRNAs in cultured cells. Moreover, RNase P ribozyme variants that are more active than the wild type M1 RNA can be generated using in vitro selection procedures and the selected variants are also more effective in inhibiting gene expression in cultured cells. These results demonstrate that engineered RNase P ribozymes represent a novel class of promising gene-targeting agents for applications in both basic research and clinical therapy. This review discusses the principle underlying M1GS-mediated gene inactivation and methodologies involved in effective M1GS construction, expression in vivo and emerging prospects of this technology for gene therapy.
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PMID:Engineering of RNase P ribozyme for gene-targeting applications. 1295 77

RNase P, a tRNA processing enzyme, contains both RNA and protein subunits. M1 RNA, the catalytic RNA subunit of RNase P from Escherichia coli, recognizes its target RNA substrate mainly on the basis of its structure and cleaves a double stranded RNA helix at the 5' end that resembles the acceptor stem and T-stem structure of its natural tRNA substrate. Accordingly, a guide sequence (GS) can be covalently attached to the M1 RNA to generate a sequence specific ribozyme, M1GS RNA. M1GS ribozyme can target any mRNA sequence of choice that is complementary to its guide sequence. Recent studies have shown that M1GS ribozymes efficiently cleave the mRNAs of herpes simplex virus 1 and human cytomegalovirus, and the BCR-ABL oncogenic mRNA in vitro and effectively reduce the expression of these mRNAs in cultured cells. Moreover, an in vitro selection scheme has been developed to select for M1 GS ribozyme variants with more efficient catalytic activity in cleaving mRNAs. When expressed in cultured cells, these selected ribozymes also show an enhance ability to inhibit viral gene expression and growth. These recent results demonstrate the feasibility of developing the M1GS ribozyme-based technology as a promising gene targeting approach for basic research and clinical therapeutic application.
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PMID:Developing RNase P ribozymes for gene-targeting and antiviral therapy. 1510 92