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How are disease-relevant molecules distributed within tissue? What changes occur even before they become visible under the microscope? Questions such as these are crucial for early diagnosis and targeted treatment in many diseases. Researchers at the Leibniz-Institut für Analytische Wissenschaften—ISAS have, for the first time, succeeded in combining two complementary analytical methods to create a high-resolution molecular map of tissue. Their map makes different biomolecules simultaneously visible and reveals their spatial distribution.
The researchers have now published their development and its application, using Fabry disease as a case study, in the journal Analytical Chemistry.
The team combined Raman microscopy with AP-MALDI (Atmospheric-Pressure Matrix-Assisted Laser Desorption/Ionization) mass spectrometry imaging (AP-MALDI-MSI).
While Raman microscopy captures the chemical signature of molecular classes and tissue structure in areas with a pixel size of up to two micrometers, AP-MALDI-MSI identifies and localizes individual molecules with high accuracy (pixels as small as five micrometers). Specially developed software automatically merged both data sets and spatially aligned them on the same tissue section with micrometer-level precision.
Information for a reliable diagnostic assessment
As an application example, the researchers examined heart tissue from mice with Fabry disease. In this rare genetic metabolic disorder, certain lipids—globotriaosylceramides (Gb3)—are not broken down sufficiently. Over time, they accumulate in organs such as the heart and kidneys, causing life-threatening damage.
To enable automatic co-registration of heart tissue images using Raman microscopy and AP-MALDI-MSI, the scientists aligned them with pixel-perfect precision.
“Only by combining Raman microscopy with mass spectrometry imaging is it possible to obtain a comprehensive picture of the molecular processes within the tissue. For a reliable diagnostic assessment, it’s important to know exactly where in the tissue Gb3 molecules accumulate,” says Prof. Dr. Sven Heiles, head of the lipidomics junior research group at ISAS and one of the corresponding authors.
Lipid accumulations in heart tissue mapped with micrometer precision for the first time
The molecular map revealed that, in Fabry disease, Gb3 is distributed unevenly throughout the heart tissue. Instead, different molecular variants of Gb3 form minute, spatially well-defined accumulations.
“The genetic cause of Fabry disease and elevated Gb3 levels in the blood have long been known, and typical target organs with lipid storage have been described in studies,” said Prof. Dr. Kristina Lorenz, head of the Translational Research Department at ISAS and one of the corresponding authors.
“However, the distribution of lipids in human tissue at the cellular and subcellular levels—as well as the associated interindividual heterogeneity—had previously been inadequately characterized. These new findings could help us better understand the course of the disease in the future.”
The next step is to apply the method to tissue samples from patients with Fabry disease. The aim is to use such complementary methods to gain a better understanding of disease mechanisms in individual manifestations of Fabry disease—and, on this basis, to enable new approaches to diagnosis and treatment.
In addition to Fabry disease, the focus is also on other conditions in which molecules undergo local changes within tissues, such as cardiovascular and metabolic diseases.
Publication details
Johann Dierks et al, Automatic Coregistration of High-Resolution MALDI-MSI and Raman Imaging Applied to Cardiac Tissue of Fabry Disease Mouse Models, Analytical Chemistry (2026). DOI: 10.1021/acs.analchem.5c07622
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Analytical Chemistry
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Raman imaging applied to cardiac tissue of Fabry disease model reveals molecular map of lipids in tissue (2026, July 13)
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