Medizinische Universität Graz Austria/Österreich - Forschungsportal - Medical University of Graz

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"Köpfe" der aktuellen Meldungen:

Katharina Schindlmaier

Sonja Rittchen

Katja Sallinger

Divya Guntur

Olivia Nonn

Selvedina Osmancevic

Julia Kargl

Margret Paar

Birgit Pernthaler

Birgit Hirschmugl

Dagmar Kolb

Eva Maria Hassler

Elena Osto

Katharina Leithner

Christine Moissl-Eichinger

Susanne Stanzel

Visnja Bubalo

Sieglinde Zelzer

Andrea Olschewski

Eleonore Fröhlich

Dusan JEREMIC

Amir Koutp

Helmut Bischof

Alexander Behlau

Mahmoud Abdellatif

Alwin Sokolowski

Oleh Myronenko

Friedrich Weitzer

Sebastian Schwaminger

Benno Kohlmaier

Christian Kiss

Othmar Moser

Jordi Heijman

Faisal Aziz

Felix Aberer

Peter Pferschy

Patrick Sadoghi

Thomas Eichmann

Amin El-Heliebi

Michael Dengler

Nagaraj Chandran

Harald Sourij

Norbert Tripolt

Jörg Lindenmann

Alexander Müller

Leigh Marsh

Martin Gauster

Volker Strenger

Simon Sedej

Thomas Kroneis

Markus Herrmann

Christian Wadsack

Karl Öttl

Thomas Pieber

Karl Glockner

Stefan Quasthoff

Peter Holzer

Gewählte Publikation:

SHR Neuro Krebs Kardio Lipid Stoffw Microb

Slaats, E; Schuch, K; Sallinger, K; Schönberger, J; Bramreiter, BL; Anholts, J; Jacobsen, DP; Staff, AC; El-Heliebi, A; Eikmans, M; Kroneis, T.
Single Nucleotide Polymorphism Typing Going Spatial: In Situ Padlock Probes Targeting mRNA Variants to Identify Haploidentical Cells within the Tissue Environment.
Clin Chem. 2025; Doi: 10.1093/clinchem/hvaf119
PubMed FullText FullText_MUG

Führende Autor*innen der Med Uni Graz: Kroneis Thomas; Slaats Emiel
Co-Autor*innen der Med Uni Graz: Bramreiter Bernadette Luise; El-Heliebi Amin; Sallinger Katja; Schönberger Julia Maria; Schuch Katharina
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Abstract:: BACKGROUND: Despite almost 3 decades of research, the mechanisms underlying the bidirectional trafficking of cells at the maternal-fetal interface that gives rise to microchimerism remain poorly understood. A major barrier to progress has been the lack of suitable detection methods capable of distinguishing maternal from fetal cells within the spatial context of the human placenta. To address this, we developed a novel detection method based on padlock probe technology to differentiate haploidentical cells in placental tissues. METHODS: Padlock probes were designed to target single nucleotide polymorphisms (SNPs) present in messenger RNA transcripts. The assays were first validated in cell lines and subsequently applied to placental tissue to assess its ability to distinguish between maternal and fetal cells. RESULTS: We established a panel of 27 assays targeting 3 human leukocyte antigen-A alleles and 12 biallelic SNPs. The method demonstrated high specificity and sensitivity, detecting minor cell populations at dilutions as low as 1:10 000. Proof of concept was obtained in a decidua basalis specimen, showing the assays' capability to distinguish maternal and fetal cells within placental tissue. CONCLUSIONS: We present a novel, sex-unbiased methodology for the in situ visualization of haploidentical (microchimeric) cells. This approach enables the study of maternal-fetal cellular interactions within their native tissues at the maternal-fetal interface.