Integrative Translational Programme | Genomic Medicine

Epitranscriptomics & Ageing (EpiAgeing)

Diana Guallar

Group Leader | Associate professor

diana.guallar@usc.es

Lab: P1L3

Field of knowledge

Cellular identity is tightly regulated by chromatin and DNA modifications (Epigenetics), ensuring critical processes such as proper embryonic development or adequate tissue homeostasis. Although RNA chemical modifications (Epitranscriptomics) are intricately linked to the structural and functional diversity of the transcriptome, their contribution to cellular identity and plasticity remains incompletely understood. In our lab we are interested in deciphering epigenetic and epitranscriptomic patterns and dynamics which are key to regulate cell identity and plasticity. We aim at dissecting new pathways involved in the loss of molecular fidelity observed during ageing and in ageing-related disorders. Moreover, given the reversible nature of these modifications, we are interested in identifying druggable epitranscriptomic targets that could be very valuable for clinical applications.

Research Lines
Members
Selected publications
Selected Results
Projects
Alliances

Research Lines

Epitranscriptomics and ageing.
Epitranscriptomics and ageing crosstalk.
Pluripotency, totipotency and reprogramming.
Transposable element regulation in early development and ageing.

Members

Alejandro Fuentes Iglesias

Research associate

alejandro.fuentes@usc.es

Lucía Ramos Lage

Postdoctoral research associate

lucia.ramos.lage@usc.es

Raquel García Vílchez

Juan de la Cierva Investigator

Alba Cortés Coego

Xunta de Galicia fellowship

Selected publications

Human iPSC-based breast cancer model identifies S100P-dependent cancer stemness induced by BRCA1 mutation

Liu J, Zhao C, Chen J, Zeng P, Li Q, Dai R, Lai X, Song W, Chen J, Zhu X, Liu X, Sun J, Wang J, Fang P, Wang T, Chen W, Guallar D, Cao N, Zhao J, Su S, Xiang AP, Zeng YA, Li J, Cai J, Lee DF, Bei J, Huo Y, Hu H, Suo S, Huang DF, Bai J, Ding J.

Sci Adv. 2025 Jul 25;11(30):eadi2370. doi: 10.1126/sciadv.adi2370. Epub 2025 Jul 25. PMID: 40712032; PMCID: PMC12292934.

Interplay of transposable elements and ageing: epigenetic regulation and potential epitranscriptomic influence.

García-Vílchez R, Guallar D.

Curr Opin Genet Dev. 2025 Jun;92:102331. doi: 10.1016/j.gde.2025.102331. Epub 2025 Mar 17. PMID: 40101544.

GGNBP2 regulates MDA5 sensing triggered by self double-stranded RNA following loss of ADAR1 editing.

Heraud-Farlow JE, Taylor SR, Chalk AM, Escudero A, Hu SB, Goradia A, Sun T, Li Q, Nikolic I, Li JB, Fidalgo M, Guallar D, Simpson KJ, Walkley CR.

Sci Immunol. 2024 Nov 22;9(101):eadk0412. doi: 10.1126/sciimmunol.adk0412. Epub 2024 Nov 22. Erratum in: Sci Immunol. 2024 Dec 20;9(102):eadv0928. doi: 10.1126/sciimmunol.adv0928. PMID: 39576872.

ADAR1-Dependent RNA Editing Promotes MET and iPSC Reprogramming by Alleviating ER Stress

Diana Guallar, Alejandro Fuentes-Iglesias, Yara Souto, Cristina Ameneiro, Oscar Freire-Agulleiro, Jose Angel Pardavila, Adriana Escudero, Vera Garcia-Outeiral, Tiago Moreira, Carmen Saenz, Heng Xiong, Dongbing Liu, Shidi Xiao, Yong Hou, Kui Wu, Daniel Torrecilla, Jochen C. Hartner, Miguel G. Blanco, Leo J. Lee, Miguel López, Carl R. Walkley, Jianlong Wang, Miguel Fidalgo.

Cell Stem Cell, 2020. 27, Issue 2, (300-314.e11)

RNA-dependent chromatin targeting of TET2 for endogenous retrovirus control in pluripotent stem cells

Guallar, Diana; Bi, Xianju; Pardavila, Jose Angel; Huang, Xin; Saenz, Carmen; Shi, Xianle; Zhou, Hongwei; Faiola, Francesco; Ding, Junjun; Haruehanroengra, Phensinee; Yang, Fan; Li, Dan; Sanchez-Priego, Carlos; Saunders, Arven; Pan, Feng; Valdes, Victor Julian; Kelley, Kevin; Blanco, Miguel G.; Chen, Lingyi; Wang, Huayan; Sheng, Jia; Xu, Mingjiang; Fidalgo, Miguel; Shen, Xiaohua; Wang, Jianlong

Nature Genetics, 2018 Mar; 50 (3): 443-451

Selected Results

Figure 1. Conservation of the known RNA chemical modifications in archaea, bacteria end eukarya.

Figure 2. Cartoon of the epigenetic (i.e. histones and DNA) and epitranscriptomic (i.e. RNA) regulation of cell identity.

Figure 3. ERV regulation by recruiting epigenetic complexes to chromatin in ESCs through RNA. Repression of MERVL loci through RNA-dependent recruitment of TET2/PSPC1 for post-transcriptional regulation by hm5C deposition, coordinated with epigenetic repression by HDAC1/2-mediated deacetylation. Guallar et al, Nature Genetics 2018.

Figure 4. RNA editing by ADAR1 safeguards mesenchymal-to-epithelial transition during reprogramming. ADAR1 orchestrates cell fate decisions by limiting MDA5 sensing of double-strand containing RNAs encoding membrane proteins and, by doing so, influences the balance between ER stress/UPR and innate immune response to promote somatic cell reprogramming. Guallar and Fuentes-Iglesias et al, Cell Stem Cell 2020.

Projects

Current project(s)

National project(s)

Investigando la función de la metilación m5C del ARN en el control de elementos transponibles en totipotencia (meTErnity).

REF: CNS2025-166885.Duration: 04/2026 - 03/2028

PI: Diana Guallar

AGENCIA ESTATAL DE INVESTIGACION

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Proyectos de Incentivación de la Consolidación Investigadora 2025. Ministerio de Ciencia, Innovación y Universidades-Agencia Estatal de Investigación.

Descifrando el código de modificación de ARN involucrado en la regulación de retrotransposones en envejecimiento. (EpiCODE)

REF: PID2022-136608OB-I00Duration: 08/2023 - 07/2027

PI: Diana Guallar

AGENCIA ESTATAL DE INVESTIGACION

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GENERACIÓN DE CONOCIMIENTO 2022 - Proyectos investigación orientada.

Analysis of New Regulators of Pluripotency

REF: ED431F 2022/011Duration: 03/2022 - 12/2026

PI: Diana Guallar

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Axuda de Excelencia para Investigadores Emerxentes. Consellería de Educación, Universidade e Formación Profesional, Xunta de Galicia.

Balancing proliferation and differentiation: mechanisms and relevance in human disease (iDIFFER)

REF: RED2022-134792-TDuration: 01/2023 - 12/2026

PI: Marcos Malumbres

AGENCIA ESTATAL DE INVESTIGACION

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Proyectos Redes de Investigación 2022

Cortometraje “AMORE”

REF: FCT-24-21222Duration: 11/2025 - 10/2026

PI: María Climent

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Creación y difusión de un cortometraje divulgativo de los efectos de la edad materna en los ovocitos. CONVOCATORIA DE AYUDAS PARA EL FOMENTO DE LA CULTURA CIENTÍFICA 2024. Ministerio de Ciencia, Innovación y Universidades-FECYT.

Past project(s)

UE project(s)

Epitranscriptomics at the crossroads of metabolismand cellular ageing (EpiMetAgeing)

REF: 895984-2Duration: 09/2020 - 09/2022

PI: Diana Guallar Artal

European Commission

International project(s)

European Epitranscriptomics Network (EPITRAN)

REF: CA16120Duration: 03/2017 - 09/2021

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COST - Action.

The proposed COST actions aim to foster the development of the emerging field of epitranscriptomics in Europe. EPITRAN is based on the premise that by understanding the role of RNA modifications in physiology and pathology, powerful new disease biomarkers and drug targets could be identified. This, in turn, will lead to the development of a whole new class of diagnostic tools and targeted therapies, with a particular focus on cancer treatment. Furthermore, a mechanistic understanding of this set of phenomena will deepen our knowledge of the contribution of post-transcriptional regulation of gene expression to the proteome and thus phenotype variation. This COST action will accelerate discoveries in the field of epitranscriptomics and contribute to realising this vision through collaborative efforts, data sharing and mobility-based learning opportunities.

National project(s)

Diseccionar la regulación epigenética y epitranscriptómica del envejecimiento y las enfermedades ...

REF: RYC2019-027305-IDuration: 05/2021 - 04/2026

PI: Diana Guallar Artal

AGENCIA ESTATAL DE INVESTIGACION

Dissecting epigenetic and epitranscriptomic regulation of ageing and age-associated disorders.

REF: RYC2019-027305-IDuration: 03/2021 - 04/2026

PI: Diana Guallar

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Ayudas para contratos Ramón y Cajal (RYC) 2019. Ministerio de Ciencia e Innovación.

Analysis of RNA modifications by Mass Spectrometry

Duration: 01/2022 - 12/2023

PI: Diana Guallar

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CRG - Severo Ochoa IMPULSE Visitor Program.

Impact of hm5C modification of RNA in aging and rejuvenation. (RNAjuvenation)

REF: RTI2018-096708-J-I00Duration: 01/2019 - 12/2022

PI: Diana Guallar

Estudio de la función de la modificación del ShmC del RNA en el envejecimiento en el contexto de obesidad, y durante el rejuvenecimiento mediante reprogramación somática celular - Becas Leonardo BBVA 2020

REF: 2020-PO041Duration: 10/2020 - 04/2022

PI: Diana Guallar Artal

FUNDACION BANCO BILBAO VIZCAYA ARGENTARIA