Development of ultra-high-performance supercritical fluid chromatography-mass spectrometry assays to analyze potential biomarkers in sweat.

Liquid chromatography-mass spectrometry methods were required to afford the rapid separation and detection of purines and small organic acids. These compounds are found in sweat and sebum and are potential biomarkers for the early detection of pressures sores. Two ultra-high-performance supercritical fluid chromatography-mass spectrometry assays have been successfully developed for both classes of compounds. Separation for purines was achieved using a gradient of supercritical carbon dioxide and methanol with a 1-aminoanthracene sub 2 µm particle size column followed by positive ion electrospray ionization. Separation for organic acids was achieved using a gradient of supercritical carbon dioxide and methanol (50 mM ammonium acetate 2% water) with a Diol sub 2 µm particle size column followed by negative ion electrospray ionization. Calibration curves were created in the absence of internal standards and R2 values > 0.96 were achieved using single ion monitoring methods for the protonated purines and the deprotonated acids. The two new assays afford rapid analytical methods for the separation and detection of potential biomarkers in human sweat leading to the early detection and prevention of pressure sores.

Mode of Action of the Catalytic Site in the N-Terminal Ribosome-Inactivating Domain of JIP60.

Jasmonate-induced protein 60 (JIP60) is a ribosome-inactivating protein (RIP) from barley (Hordeum vulgare) and is involved in the plant immune response dependent on jasmonate hormones. Here, we demonstrate in Nicotiana benthamiana that transient expression of the N-terminal domain of JIP60, from which the inhibitor domain (amino acids 163-185) is removed, initiates cell death, leading to extensive necrosis of leaf tissues. We used structure prediction of JIP60 to identify potential catalytic amino acids in the active site and tested these by mutagenesis and in planta assays of necrosis induction by expression in N. benthamiana, as well as through an in vitro translation-inactivation assay. We found that Tyr 96, Glu 201, Arg 204, and Trp 234 in the presumptive active site of JIP60 are conserved in 815 plant RIPs in the Pfam database that were identified by HUMMR as containing a RIP domain. When these amino acid residues are individually mutated, the necrosis-inducing activity is completely abolished. We therefore propose that the role of these amino acids in JIP60 activity is to depurinate adenosine in ribosomes. This study provides insight into the catalytic mechanism of JIP60.

Next-Generation Peptide Nucleic Acid Chimeras Exhibit High Affinity and Potent Gene Silencing.

We present a new design of mixed-backbone antisense oligonucleotides (ASOs) containing both DNA and peptide nucleic acid (PNA). Previous generations of PNA-DNA chimeras showed low binding affinity, reducing their potential as therapeutics. The addition of a 5'-wing of locked nucleic acid as well as the combination of a modified nucleotide and a PNA monomer at the junction between PNA and DNA yielded high-affinity chimeras. The resulting ASOs demonstrated high serum stability and elicited robust RNase H-mediated cleavage of complementary RNA. These properties allowed the chimeric ASOs to demonstrate high gene silencing efficacy and potency in cells, comparable with those of LNA gapmer ASOs, via both lipid transfection and gymnosis.