A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria

Michaela Dzurov Krafčíková; David Beriashvili; Salima Bahri; Menno Bergmeijer; Stuart C. Howes; Andrei Gurinov; Friedrich G. Förster; Gert E. Folkers; Marc Baldus

doi:10.1002/anie.202424131

A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria

Michaela Dzurov Krafčíková^*, David Beriashvili, Salima Bahri, Menno Bergmeijer, Stuart C. Howes, Andrei Gurinov, Friedrich G. Förster, Gert E. Folkers, Marc Baldus^*

^*Corresponding author for this work

Utrecht University

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Mitochondria are central to cellular bioenergetics, with the unique ability to translate and transcribe a subset of their own proteome. Given the critical importance of energy production, mitochondria seem to utilize higher-order nucleic acid structures to regulate gene expression, much like nuclei. Herein, we introduce a tailored approach to probe the formation of such structures, specifically G-quadruplexes, within intact mitochondria by using sensitivity-enhanced dynamic nuclear polarization-supported solid-state NMR (DNP-ssNMR). We acquired NMR spectra on isolated intact isotopically labeled mitochondria treated with berberine, a known high-affinity G-quadruplex stabilizer. The DNP-ssNMR data revealed spectral changes in nucleic acid sugar correlations, increased signal intensity for guanosine carbons, and enhanced Hoogsteen hydrogen bond formation, providing evidence of in vivo G-quadruplex formation in mitochondria. Together, our workflow enables the study of mitochondrial nucleic acid-ligand interactions at endogenous concentrations within biologically relevant environments by DNP-ssNMR, thus paving the way for future research into mitochondrial diseases and their potential treatments.

Original language	English
Article number	e202424131
Journal	Angewandte Chemie - International Edition
Volume	64
Issue number	21
Early online date	7 Mar 2025
DOIs	https://doi.org/10.1002/anie.202424131
Publication status	Published - 19 May 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.

Keywords

Berberine
DNA/RNA
DNP-ssNMR
G-quadruplex
Mitochondria

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Angew Chem Int Ed - 2025 - Krafčíková - A DNP‐Supported Solid‐State NMR Approach to Study Nucleic Acids In Situ RevealsFinal published version, 4.56 MBLicence: CC BY

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Krafčíková, M. D., Beriashvili, D., Bahri, S., Bergmeijer, M., Howes, S. C., Gurinov, A., Förster, F. G., Folkers, G. E., & Baldus, M. (2025). A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria. Angewandte Chemie - International Edition, 64(21), Article e202424131. https://doi.org/10.1002/anie.202424131

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title = "A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria",

abstract = "Mitochondria are central to cellular bioenergetics, with the unique ability to translate and transcribe a subset of their own proteome. Given the critical importance of energy production, mitochondria seem to utilize higher-order nucleic acid structures to regulate gene expression, much like nuclei. Herein, we introduce a tailored approach to probe the formation of such structures, specifically G-quadruplexes, within intact mitochondria by using sensitivity-enhanced dynamic nuclear polarization-supported solid-state NMR (DNP-ssNMR). We acquired NMR spectra on isolated intact isotopically labeled mitochondria treated with berberine, a known high-affinity G-quadruplex stabilizer. The DNP-ssNMR data revealed spectral changes in nucleic acid sugar correlations, increased signal intensity for guanosine carbons, and enhanced Hoogsteen hydrogen bond formation, providing evidence of in vivo G-quadruplex formation in mitochondria. Together, our workflow enables the study of mitochondrial nucleic acid-ligand interactions at endogenous concentrations within biologically relevant environments by DNP-ssNMR, thus paving the way for future research into mitochondrial diseases and their potential treatments.",

keywords = "Berberine, DNA/RNA, DNP-ssNMR, G-quadruplex, Mitochondria",

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year = "2025",

month = may,

day = "19",

doi = "10.1002/anie.202424131",

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Krafčíková, MD, Beriashvili, D, Bahri, S, Bergmeijer, M , Howes, SC, Gurinov, A, Förster, FG , Folkers, GE & Baldus, M 2025, 'A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria', Angewandte Chemie - International Edition, vol. 64, no. 21, e202424131. https://doi.org/10.1002/anie.202424131

A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria. / Krafčíková, Michaela Dzurov; Beriashvili, David; Bahri, Salima et al.
In: Angewandte Chemie - International Edition, Vol. 64, No. 21, e202424131, 19.05.2025.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria

AU - Krafčíková, Michaela Dzurov

AU - Beriashvili, David

AU - Bahri, Salima

AU - Bergmeijer, Menno

AU - Howes, Stuart C.

AU - Gurinov, Andrei

AU - Förster, Friedrich G.

AU - Folkers, Gert E.

AU - Baldus, Marc

PY - 2025/5/19

Y1 - 2025/5/19

N2 - Mitochondria are central to cellular bioenergetics, with the unique ability to translate and transcribe a subset of their own proteome. Given the critical importance of energy production, mitochondria seem to utilize higher-order nucleic acid structures to regulate gene expression, much like nuclei. Herein, we introduce a tailored approach to probe the formation of such structures, specifically G-quadruplexes, within intact mitochondria by using sensitivity-enhanced dynamic nuclear polarization-supported solid-state NMR (DNP-ssNMR). We acquired NMR spectra on isolated intact isotopically labeled mitochondria treated with berberine, a known high-affinity G-quadruplex stabilizer. The DNP-ssNMR data revealed spectral changes in nucleic acid sugar correlations, increased signal intensity for guanosine carbons, and enhanced Hoogsteen hydrogen bond formation, providing evidence of in vivo G-quadruplex formation in mitochondria. Together, our workflow enables the study of mitochondrial nucleic acid-ligand interactions at endogenous concentrations within biologically relevant environments by DNP-ssNMR, thus paving the way for future research into mitochondrial diseases and their potential treatments.

AB - Mitochondria are central to cellular bioenergetics, with the unique ability to translate and transcribe a subset of their own proteome. Given the critical importance of energy production, mitochondria seem to utilize higher-order nucleic acid structures to regulate gene expression, much like nuclei. Herein, we introduce a tailored approach to probe the formation of such structures, specifically G-quadruplexes, within intact mitochondria by using sensitivity-enhanced dynamic nuclear polarization-supported solid-state NMR (DNP-ssNMR). We acquired NMR spectra on isolated intact isotopically labeled mitochondria treated with berberine, a known high-affinity G-quadruplex stabilizer. The DNP-ssNMR data revealed spectral changes in nucleic acid sugar correlations, increased signal intensity for guanosine carbons, and enhanced Hoogsteen hydrogen bond formation, providing evidence of in vivo G-quadruplex formation in mitochondria. Together, our workflow enables the study of mitochondrial nucleic acid-ligand interactions at endogenous concentrations within biologically relevant environments by DNP-ssNMR, thus paving the way for future research into mitochondrial diseases and their potential treatments.

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KW - DNP-ssNMR

KW - G-quadruplex

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U2 - 10.1002/anie.202424131

DO - 10.1002/anie.202424131

M3 - Article

C2 - 40052409

AN - SCOPUS:105000624043

SN - 1433-7851

VL - 64

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 21

M1 - e202424131

ER -

A DNP-Supported Solid-State NMR Approach to Study Nucleic Acids In Situ Reveals Berberine-Stabilized Hoogsteen Structures in Mitochondria

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Keywords

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