Your search keyword '"Stepula, Elzbieta"' showing total 3 results

1. Opto‐Lipidomics of Tissues.

Author

Jensen, Magnus, Liu, Shiyue, Stepula, Elzbieta, Martella, Davide, Birjandi, Anahid A., Farrell‐Dillon, Keith, Chan, Ka Lung Andrew, Parsons, Maddy, Chiappini, Ciro, Chapple, Sarah J., Mann, Giovanni E., Vercauteren, Tom, Abbate, Vincenzo, and Bergholt, Mads S.

Subjects

DESORPTION electrospray ionization, OPTICAL spectra, VIBRATIONAL spectra, LIPID metabolism, RAMAN scattering, CEREBRAL arteries

Abstract

Lipid metabolism and signaling play pivotal functions in biology and disease development. Despite this, currently available optical techniques are limited in their ability to directly visualize the lipidome in tissues. In this study, opto‐lipidomics, a new approach to optical molecular tissue imaging is introduced. The capability of vibrational Raman spectroscopy is expanded to identify individual lipids in complex tissue matrices through correlation with desorption electrospray ionization (DESI) – mass spectrometry (MS) imaging in an integrated instrument. A computational pipeline of inter‐modality analysis is established to infer lipidomic information from optical vibrational spectra. Opto‐lipidomic imaging of transient cerebral ischemia‐reperfusion injury in a murine model of ischemic stroke demonstrates the visualization and identification of lipids in disease with high molecular specificity using Raman scattered light. Furthermore, opto‐lipidomics in a handheld fiber‐optic Raman probe is deployed and demonstrates real‐time classification of bulk brain tissues based on specific lipid abundances. Opto‐lipidomics opens a host of new opportunities to study lipid biomarkers for diagnostics, prognostics, and novel therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2024

2. Localization of PD‐L1 on single cancer cells by iSERS microscopy with Au/Au core/satellite nanoparticles.

Author

Stepula, Elzbieta, König, Matthias, Wang, Xin‐Ping, Levermann, Janina, Schimming, Tobias, Kasimir‐Bauer, Sabine, Schilling, Bastian, and Schlücker, Sebastian

Abstract

Programmed cell death‐ligand 1 (PD‐L1) is an important predictive biomarker. The detection of PD‐L1 can be crucial for patients with advanced cancer where the use of immunotherapy is considered. Here, we demonstrate the use of immuno‐SERS microscopy (iSERS) for localizing PD‐L1 on single cancer SkBr‐3 cells. A central advantage of iSERS is that the disturbing autofluorescence from cells and tissues can be efficiently minimized by red to near‐infrared laser excitation. In this study we employed Au/Au core/satellite nanoparticles as SERS nanotags because of their remarkable signal brightness and colloidal stability upon red laser excitation. False‐color iSERS images of the positive and negative controls clearly reveal the specific localization of PD‐L1 with SERS nanotag‐labeled antibodies. [ABSTRACT FROM AUTHOR]

Published

2020

3. Inside Cover: Localization of PD‐L1 on single cancer cells by iSERS microscopy with Au/Au core/satellite nanoparticles (J. Biophotonics 3/2020).

Author

Stepula, Elzbieta, König, Matthias, Wang, Xin‐Ping, Levermann, Janina, Schimming, Tobias, Kasimir‐Bauer, Sabine, Schilling, Bastian, and Schlücker, Sebastian

Abstract

iSERS (SERS=surface‐enhanced Raman scattering) microscopy is an emerging Raman‐based staining technique for the selective localization of target proteins on cells and tissues using antibody‐ SERS nanotag conjugates. In this contribution we demonstrate the feasibility of iSERS for imaging of programmed cell death‐ligand 1 (PD‐L1), an important predictive biomarker, on single SkBr‐3 breast cancer cells. Further details can be found in the article by Elzbieta Stepula, Matthias König, Xin‐Ping Wang, et al. (e201960034). [ABSTRACT FROM AUTHOR]

Published

2020