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Article in English | MEDLINE | ID: mdl-16898416

ABSTRACT

UNLABELLED: DNAzymes represent a new generation of catalytic nucleic acids for specific RNA targeting in order to inhibit protein translation from the specifically cleaved mRNA. The 10-23 DNAzyme was found to hydrolyze RNA in a sequence-specific manner both in vitro and in vivo. Although single-stranded DNAzymes may represent the most effective nucleic acid drug to date, they are nevertheless sensitive to nuclease degradation and require modifications for in vivo application. However, previously used stabilization of DNAzymes by site-specific phosphorothioate (PT) modifications reduces the catalytic activity, and the PTO displays toxic side effects when applied in vivo. Thus, improving the stability of DNAzymes without reducing their catalytic activity is essential if the potential of these compounds should be realized in vivo. RESULTS: The Circozyme was tested targeting the mRNA of the most common genetic rearrangement in pediatric acute lymphoblastic leukemia TEL/AML1 (ETV6/RUNX1). The Circozyme exhibits a stability comparable to PTO-modified DNAzymes without reduction of catalytic activity and specificity and may represent a promising tool for DNAzyme in vivo applications. CONCLUSION: The inclusion of the catalytic site and the specific mRNA binding sequence of the DNAzyme into a circular loop-stem-loop structure (Circozyme) of approximately 70 bases presented here represents a new effective possibility of DNAzyme stabilization.


Subject(s)
Core Binding Factor Alpha 2 Subunit/genetics , DNA, Catalytic/chemistry , DNA, Circular/chemistry , Oncogene Proteins, Fusion/genetics , RNA, Messenger/chemistry , RNA, Messenger/genetics , Base Sequence , Catalysis , DNA, Catalytic/metabolism , DNA, Circular/metabolism , Enzyme Stability , Molecular Sequence Data , Nucleic Acid Conformation , RNA, Messenger/metabolism
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