Glutaraldehyde - A Subtle Tool in the Investigation of Healthy and Pathologic Red Blood Cells.

Asena Abay,Marc Leonetti,Lars Kaestner,Marieke Von Lindern,Giampaolo Minetti,Anna Bogdanova,Emile Van Den Akker,Christian Wagner,Revaz Chachanidze,Paola Bianchi,Greta Simionato,Laura Hertz

doi:10.3389/fphys.2019.00514

Abstract

Glutaraldehyde is a well-known substance used in biomedical research to fix cells. Since hemolytic anemias are often associated with red blood cell shape changes deviating from the biconcave disk shape, conservation of these shapes for imaging in general and 3D-imaging in particular, like confocal microscopy, scanning electron microscopy or scanning probe microscopy is a common desire. Along with the fixation comes an increase in the stiffness of the cells. In the context of red blood cells this increased rigidity is often used to mimic malaria infected red blood cells because they are also stiffer than healthy red blood cells. However, the use of glutaraldehyde is associated with numerous pitfalls: (i) while the increase in rigidity by an application of increasing concentrations of glutaraldehyde is an analog process, the fixation is a rather digital event (all or none); (ii) addition of glutaraldehyde massively changes osmolality in a concentration dependent manner and hence cell shapes can be distorted; (iii) glutaraldehyde batches differ in their properties especially in the ratio of monomers and polymers; (iv) handling pitfalls, like inducing shear artifacts of red blood cell shapes or cell density changes that needs to be considered, e.g., when working with cells in flow; (v) staining glutaraldehyde treated red blood cells need different approaches compared to living cells, for instance, because glutaraldehyde itself induces a strong fluorescence. Within this paper we provide documentation about the subtle use of glutaraldehyde on healthy and pathologic red blood cells and how to deal with or circumvent pitfalls.

Highlights

Besides its application as disinfectant and medication, glutaraldehyde is used in biomedical research to fix cells
The protocols so far published are confusing concerning the application of the glutaraldehyde concentration because they range from 0.0005% to 8% (Morel et al, 1971; Tong and Caldwell, 1995; Guo et al, 2014) and all use the term “to fix cells” upon the application of glutaraldehyde
Basing on the assumption that fixed cells may be conserved for a long time with no morphological changes or lysis of the cells, we investigated the shelf life by treating samples with various glutaraldehyde concentrations kept at 4◦C for 6 days

Summary

Introduction

Besides its application as disinfectant and medication, glutaraldehyde is used in biomedical research to fix cells. The principle behind the fixation is the binding of glutaraldehyde to nucleophiles of which the amino groups are the most abundant but binding to, e.g., sulfhydryl groups occurs (Griffiths, 1993). The result is a crosslinking of the proteins of the cell (Kawahara et al, 1997), Glutaraldehyde for Preservation of Erythrocytes. Along with the fixation comes an increase in the stiffness of the cells. In the context of RBCs this increased rigidity is often used to mimic malaria infected RBCs because they are stiffer than healthy RBCs (Aingaran et al, 2012). Hydrodynamic studies on blood flow and RBC interactions use glutaraldehyde as a parameter to change cellular rigidity, supposing a gradual concentration dependent process increases the stiffness of the cells. We summarize properties and provide original data of glutaraldehyde’s action on RBCs and stress the parameters that are important in particular in respect to RBC related pathologies to avoid pitfalls and to allow data reproducibility as well as interlaboratory-comparability

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Conclusion