Superresolving the kidney – a practical comparison of fluorescence nanoscopy of the glomerular filtration barrier
Permanent lenke
https://hdl.handle.net/10037/19997Dato
2020-12-05Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Wunderlich, Lucia; Ströhl, Florian; Ströhl, Stefan; Vanderpoorten, Oliver; Mascheroni, Luca; Kaminski, Clemens F.Sammendrag
Immunofluorescence microscopy is routinely used in the diagnosis of and research on renal impairments. However, this highly specific technique is restricted in its maximum resolution to about 250 nm in the lateral and 700 nm in the axial directions and thus not sufficient to investigate the fine subcellular structure of the kidney’s glomerular filtration barrier. In contrast, electron microscopy offers high resolution, but this comes at the cost of poor preservation of immunogenic epitopes and antibody penetration alongside a low throughput. Many of these drawbacks were overcome with the advent of super-resolution microscopy methods. So far, four different super-resolution approaches have been used to study the kidney: single molecule localization microscopy (SMLM), stimulated emission depletion (STED) microscopy, structured illumination microscopy (SIM), and expansion microscopy (ExM), however using different preservation methods and widely varying labelling strategies. In this work, all four methods were applied and critically compared on kidney slices obtained from samples treated with the most commonly used preservation technique: fixation by formalin and embedding in paraffin (FFPE). Strengths and weaknesses, as well as the practicalities of each method are discussed to enable users of super-resolution microscopy in renal research make an informed decision on the best choice of technique. The methods discussed enable the efficient investigation of biopsies stored in kidney banks around the world.
Forlag
SpringerSitering
Wunderlich L, Ströhl F, Ströhl, Vanderpoorten O, Mascheroni L, Kaminski CF. Superresolving the kidney – a practical comparison of fluorescence nanoscopy of the glomerular filtration barrier. Analytical and Bioanalytical Chemistry. 2020Metadata
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