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Tracing the molecular route to progression in miRNA-biogenesis-defective thyroid lesions
Anne-Sophie Chong, Carla Roca, Paula Morales-Sánchez, Eduard Dorca, Verónica Barea, Ignacio Ruz-Caracuel, Pablo Valderrabano, Carlota Rovira, Cristina Jou, Dorothée Bouron-Dal Soglio, Rebecca D. Chernock, Giovana T. Torrezan, Marc Pusztaszeri, José M. Cameselle-Teijeiro, Xavier Matias-Guiu, Clara V. Alvarez, Héctor Salvador, Jonathan D. Wasserman, Luis Javier Leandro-García, William D. Foulkes, Eduardo Andrés-León, Paula Casano-Sancho, Barbara Rivera
Anne-Sophie Chong, Carla Roca, Paula Morales-Sánchez, Eduard Dorca, Verónica Barea, Ignacio Ruz-Caracuel, Pablo Valderrabano, Carlota Rovira, Cristina Jou, Dorothée Bouron-Dal Soglio, Rebecca D. Chernock, Giovana T. Torrezan, Marc Pusztaszeri, José M. Cameselle-Teijeiro, Xavier Matias-Guiu, Clara V. Alvarez, Héctor Salvador, Jonathan D. Wasserman, Luis Javier Leandro-García, William D. Foulkes, Eduardo Andrés-León, Paula Casano-Sancho, Barbara Rivera
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Research Article Endocrinology Genetics Oncology

Tracing the molecular route to progression in miRNA-biogenesis-defective thyroid lesions

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Abstract

Germline and somatic changes in DICER1 and DGCR8 microprocessors confer risk of developing benign and malignant thyroid lesions, yet the molecular events driving malignant transformation remain unclear. We trace the molecular trajectories from benignity to malignancy in DICER1- and DGCR8-mutated thyroid lesions using multiomic profiling on over 30 DICER1-/DGCR8-mutated samples. Our findings reveal a progressive, specific, and linear accumulation of genetic changes, which when combined with enhanced downregulation of miRNAs distinguished DICER1-/DGCR8-malignant lesions from their benign counterparts. Compensatory hypomethylation of miRNA-encoding genes characterized DICER1-/DGCR8-benign lesions, but as the tumors progressed to malignancy, methylation was partly reimposed, reversing the attempts to activate miRNA-encoded genes and further compromising miRNA production. Transcriptomic analyses revealed mutation-specific effects on the microenvironment, whereby DICER1 mutations activated canonical thyroid cancer progression pathways, whereas altered DGCR8 associated with immune-related changes. This work unveils specific molecular events underlying malignant progression of miRNA-biogenesis-related thyroid tumors and identifies potential biomarkers and disease etiology mechanisms.

Authors

Anne-Sophie Chong, Carla Roca, Paula Morales-Sánchez, Eduard Dorca, Verónica Barea, Ignacio Ruz-Caracuel, Pablo Valderrabano, Carlota Rovira, Cristina Jou, Dorothée Bouron-Dal Soglio, Rebecca D. Chernock, Giovana T. Torrezan, Marc Pusztaszeri, José M. Cameselle-Teijeiro, Xavier Matias-Guiu, Clara V. Alvarez, Héctor Salvador, Jonathan D. Wasserman, Luis Javier Leandro-García, William D. Foulkes, Eduardo Andrés-León, Paula Casano-Sancho, Barbara Rivera

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Figure 6

Scheme of epigenetic miRNA compensation mechanism in benign and malignant mutant lesions.

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Scheme of epigenetic miRNA compensation mechanism in benign and malignan...
We propose a compensatory mechanism involving regulation of miRNA genes at the epigenetic level where both benign and malignant mutant thyroid lesions activate gene expression of miRNA genes in response to lack of miRNA production, in contrast with gene repression of miRNA genes by DNA methylation in the context of normal miRNA production in normal thyroid. This compensatory mechanism was more active in the mutant benign thyroid lesions, supporting successful rescue of some miRNA processing exemplified by a less prominent loss of miRNAs. In the mutant thyroid cancers, we observed a decreased activity of this compensatory mechanism, supported by their greater loss in miRNAs.

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