Analytische Chemie
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ADAMTS4-specific MR-probe to assess aortic aneurysms in vivo using synthetic peptide libraries
(2022)
The incidence of abdominal aortic aneurysms (AAAs) has substantially increased during the last 20 years and their rupture remains the third most common cause of sudden death in the cardiovascular field after myocardial infarction and stroke. The only established clinical parameter to assess AAAs is based on the aneurysm size. Novel biomarkers are needed to improve the assessment of the risk of rupture. ADAMTS4 (A Disintegrin And Metalloproteinase with ThromboSpondin motifs 4) is a strongly upregulated proteoglycan cleaving enzyme in the unstable course of AAAs. In the screening of a one-bead-one-compound library against ADAMTS4, a low-molecular-weight cyclic peptide is discovered with favorable properties for in vivo molecular magnetic resonance imaging applications. After identification and characterization, it’s potential is evaluated in an AAA mouse model. The ADAMTS4-specific probe enables the in vivo imaging-based prediction of aneurysm expansion and rupture.
We report on the design, preparation and application of immobilized Oligonucleotides as biological sensors for dosimetry and protein activity. Oligonucleotides can be custom tailored in terms of sequence and length to the needs of the specific application. The preparation can be scaled from small lab-scales to higher output via spotting technology on various surfaces such as glass, silicon-dioxide or gold. They can be applied for the sensing of DNA-protein interaction and surface-plasmon resonance to detect the influence of cosolutes on the protein activity. This can be applied in the testing of pharmaceutical or cosmsetic applications and incorporated in microfluidic devices. Other important use cases are the usage in dosimetric application where the oligonucleotides are subjected to ionizing radiation. They can directly act as a sensor for biological damage which is detected and quantified by the subsequent hybridization of complementary strands who carry a fluorescence dye. The quantification can be performed by an array scanner or fluorescence microscope. Investigation on a molecular level can be performed with the AFM-IR technique. Applications are calibration of radiation sources and the investigation of interaction of ionizing radiation with biomolecules.