Three-dimensional Structure of a Kunitz-type Inhibitor in Complex with an Elastase-like Enzyme.

Elastase-like enzymes are involved in important diseases such as acute pancreatitis, chronic inflammatory lung diseases, and cancer. Structural insights into their interaction with specific inhibitors will contribute to the development of novel anti-elastase compounds that resist rapid oxidation and proteolysis. Proteinaceous Kunitz-type inhibitors homologous to the bovine pancreatic trypsin inhibitor (BPTI) provide a suitable scaffold, but the structural aspects of their interaction with elastase-like enzymes have not been elucidated. Here, we increased the selectivity of ShPI-1, a versatile serine protease inhibitor from the sea anemone Stichodactyla helianthus with high biomedical and biotechnological potential, toward elastase-like enzymes by substitution of the P1 residue (Lys(13)) with leucine. The variant (rShPI-1/K13L) exhibits a novel anti-porcine pancreatic elastase (PPE) activity together with a significantly improved inhibition of human neuthrophil elastase and chymotrypsin. The crystal structure of the PPE·rShPI-1/K13L complex determined at 2.0 Å resolution provided the first details of the canonical interaction between a BPTI-Kunitz-type domain and elastase-like enzymes. In addition to the essential impact of the variant P1 residue for complex stability, the interface is improved by increased contributions of the primary and secondary binding loop as compared with similar trypsin and chymotrypsin complexes. A comparison of the interaction network with elastase complexes of canonical inhibitors from the chelonian in family supports a key role of the P3 site in ShPI-1 in directing its selectivity against pancreatic and neutrophil elastases. Our results provide the structural basis for site-specific mutagenesis to further improve the binding affinity and/or direct the selectivity of BPTI-Kunitz-type inhibitors toward elastase-like enzymes.

The small RNA RybA regulates key-genes in the biosynthesis of aromatic amino acids under peroxide stress in E. coli.

In bacteria, adaptive response to external stimuli is often regulated by small RNAs (sRNAs). In Escherichia coli, the organism in which sRNAs have been best characterized so far, no function could be attributed to 40 out of 79 sRNAs. Here we decipher the function of RybA, one of these orphan sRNAs. RybA was discovered in 2001 by Wassarman et al. using comparative genomics. This sRNA is conserved between E. coli, Salmonella typhimurium and Klebsiella pneumoniae. We determined the expression pattern of RybA under different growth conditions and identified its exact 5' and 3' ends. Using microarray and Northern analysis we show that, under peroxide stress, the absence of RybA leads to an upregulation of key genes of the TyrR regulon involved in the metabolism of aromatic compounds including the aromatic amino acids. Although containing an open reading frame, which might have an independent function, RybA does not require translation for this activity and therefore acts at the RNA level. Furthermore we demonstrate that regulation requires the transcription regulator TyrR. The mechanism of activation of TyrR, probably the primary target of RybA, remains to be elucidated. The downregulation of aromatic amino acid biosynthesis might regulate the cellular concentration of chorismate and its availability for other downstream products like ubiquinone or enterobactin. While ubiquinone participates in the defense against oxidative stress in the cytoplasmic membrane, enterobactin is involved in iron import and is therefore detrimental under oxidative stress.

Interleukin-6 receptor specific RNA aptamers for cargo delivery into target cells.

Aptamers represent an emerging strategy to deliver cargo molecules, including dyes, drugs, proteins or even genes, into specific target cells. Upon binding to specific cell surface receptors aptamers can be internalized, for example by macropinocytosis or receptor mediated endocytosis. Here we report the in vitro selection and characterization of RNA aptamers with high affinity (Kd = 20 nM) and specificity for the human IL-6 receptor (IL-6R). Importantly, these aptamers trigger uptake without compromising the interaction of IL-6R with its natural ligands the cytokine IL-6 and glycoprotein 130 (gp130). We further optimized the aptamers to obtain a shortened, only 19-nt RNA oligonucleotide retaining all necessary characteristics for high affinity and selective recognition of IL-6R on cell surfaces. Upon incubation with IL-6R presenting cells this aptamer was rapidly internalized. Importantly, we could use our aptamer, to deliver bulky cargos, exemplified by fluorescently labeled streptavidin, into IL-6R presenting cells, thereby setting the stage for an aptamer-mediated escort of drug molecules to diseased cell populations or tissues.

In vitro selection of allosteric ribozymes.

In vitro selection techniques offer powerful and versatile methods to isolate nucleic acid sequences with specific activities from huge libraries. The present protocol describes an in vitro selection strategy for the de novo selection of allosteric self-cleaving ribozymes responding to virtually any drug of choice. We applied this method to select hammerhead ribozymes inhibited specifically by doxycycline or pefloxacin in the sub-micromolar range. The selected ribozymes can be converted into classical aptamers via insertion of a point mutation in the catalytic center of the ribozyme.

Stabilities of HIV-1 DIS type RNA loop-loop interactions in vitro and in vivo.

RNA loop-loop interactions are a prevalent motif in the formation of tertiary structure and are well suited to trigger molecular recognition between RNA molecules. We determined the stabilities of several loop-loop interactions with a constant 6 bp core sequence and varying unpaired flanking nucleotides and found that the flanking bases have a strong influence on the stability and ion dependence of the kissing complex. In general, the stabilities determined in 1 M Na+ are equivalent to those in the presence of near physiological Mg2+ concentrations. Therefore we further tested whether the stabilities determined in vitro and within yeast cells correlate, using a recently developed yeast RNA-hybrid system. For the majority of the loop types analyzed here, the melting temperatures determined in vitro are in good agreement with the relative beta-galactosidase activity in yeast cells, showing that data derived from in vitro measurements reflect in vivo properties. The most stable interactions are the naturally occurring HIV-1 DIS MAL and LAI derived loops with the motif (5' A(A)/(G)N6A 3'), emphasizing the crucial role of stable kissing complexes in HIV genome dimerization.

Aptamer structures: a preview into regulatory pathways?

The crystal structure of a streptomycin binding RNA aptamer displays a novel bipartite fold able to clamp the antibiotic. In view of the recent findings that metabolites directly control mRNA translation, we might expect that similar structures exist in natural RNAs.

Selecting allosteric ribozymes.

Allosteric ribozymes can be designed to respond to virtually any molecule of choice. The resulting species may be used for example as synthetic regulators of gene expression or alternatively as biosensors. In vitro selection techniques allow the isolation of active molecules from libraries as large as 10(15) different molecules. The present protocol describes an in vitro selection strategy for the de novo selection of allosteric self-cleaving ribozymes responding to virtually any drug of choice. We applied this method to select hammerhead ribozymes inhibited specifically by doxycycline or pefloxacin in the sub-micromolar range. The selected ribozymes can be converted into classical aptamers via insertion of a point mutation in the catalytic center of the ribozyme.

Identification and detection of RNA-RNA interactions using the yeast RNA hybrid system.

To test RNA-RNA interactions in cells, we developed a yeast RNA hybrid system derived from the yeast three-hybrid system. In this setup, the activation of a reporter gene (HIS3 or lacZ) is dependent on the interaction of two RNAs. One ('RNA X') is fused to MS2 RNA, forming the bait, which binds to a fusion protein composed of the MS2 coat and the LexA proteins. The second ('RNA Y') is fused to an RNA-based transcriptional activator (m26-11), forming the prey. If prey (RNA Y) binds to bait (RNA X), the m26-11 transcriptional activator is tethered to the promoter of the reporter genes. This protocol describes how to use this RNA hybrid system. In addition to testing RNA-RNA interactions, it can also be used to screen RNA libraries to identify new interaction partners or for mutational analysis of two known interaction partners.

A yeast RNA-hybrid system for the detection of RNA-RNA interactions in vivo.

RNA-RNA interactions play a crucial role at many different levels of the cellular metabolism such as plasmid replication control, viral encapsidation, or transcriptional and translational regulation. Therefore, methods are necessary to investigate the molecular determinants of given interactions, including their stabilities, or to screen for new interacting partners. We designed an RNA-hybrid system in S. cerevisiae, based on the yeast three-hybrid system. In this setup, the activation of a reporter gene is dependent on the interaction of two RNAs. A loop-loop interaction similar to the dimerization initiation site of the HIV genome was used as a model system, demonstrating that in this novel RNA-hybrid system only cognate RNAs promote the activation of the reporter gene. Levels of reporter activation correlate well with interaction stabilities determined in vitro by UV melting analyses, suggesting that conditions used for the analysis of in vitro structural stabilities translate well into the intracellular environment. Furthermore, the system was applicable for a screen against a test library. Nine out of ten selected clones were identified as predicted interaction partners for the bait RNA. In summary, we present a yeast reporter system depending on RNA-RNA interactions, which can be used alternatively for analysis of known interactions or for screening libraries in search for new interaction partners.