MApping the Methylation of repetitive elements to track the Exposome effects on health: the city of Legnano as a LIving lab

ERC (European Research Council)HORIZON-ERCID: 101086988
EC Contribution
€29,933
Consortium Size
1 orgs
Start Year
2023
Summary

The concept of exposome encompasses all human disease determinants encountered during the life course. The exposome induces epigenetic modifications (e.g., DNA methylation). Several studies have investigated how repetitive elements (REs) can be switched on in response to environmental stimuli, but have started from the assumption that altered RE methylation is always detrimental to the health of the affected individual. MAMELI proposes an alternative hypothesis that some REs are plastic entities that respond physiologically to the environment; consequently, the ability of DNA to adapt to environmental triggers can be monitored.To test this hypothesis, the MAMELI project will enroll 6200 subjects in the city of Legnano (Italy). The first-level (discovery) will apply third-generation sequencing methylation assessment on 200 subjects at two-time points: T0 (baseline) and T1 (6 months after T0). The discovery level will allow me to define a pool of REs (differential REs) whose methylation can change without impacting genome stability. The second level (tuning) will be conducted on 2700 subjects (200 subjects of the discovery level + 2500 additional subjects) and will allow me to develop an algorithm (MAMELI algorithm) to predict the relationship between exposome and RE methylation status (RE methylation signature). In the third level (validation), I will apply the MAMELI algorithm on the second set of the study cohort (n=3500) to calculate the difference between the measured RE methylation signature and the values predicted by the algorithm. In addition, to test the reversibility of RE methylation following lifestyle modifications and its preventive potential, I will design an intervention study embedded in the cohort.MAMELI would represent a breakthrough in the understanding of individual susceptibility to environmental pressures, enabling the development of preventive strategies to avoid disease.

Consortium (1)

Project Results (4)

Source: CORDIS, the EU research results database.

Publications (4)
Epigenetic Intelligence (EI): The Neuro-Symbolic Conceptual Framework for Biological Adaptation.
· 2025DOI
Biganzoli, Elia; Bollati, Valentina
Rationale and study protocol of the MAMELI Cohort study (Mapping the Methylation of repetitive elements to track the Exposome effects on health: the city of Legnano as a Living lab)
PLOS One· 2025DOI
Valentina Bollati, Federica Rota, Laura Dioni, Chiara Favero, Simona Iodice, Marta Gallazzi, Andrea Spinazzè, Giacomo Fanti, Davide Campagnolo, Tiago Nardi, Davide Biganzoli, Eva Dariol, Rachele Matsagani, Mirjam Hoxha, Paola Monti, Benedetta Albetti, Letizia Tarantini, Davide Barbuto, Ester Luconi, Giuseppe Marano, Giacomo Biganzoli, Roberta Biciuffi, Patrizia Boracchi, Domenico M. Cavallo, Pilar M. Guerrieri, Fabio Mosca, Stefano Gustincich, Giovanni Sanesi, Luca Ferrari, Michele Carugno, Silvia Fustinoni, Angela Cecilia Pesatori, Luca Pandolfini, Michele Miragoli, Andrea Cattaneo, Elia Biganzoli
When Cells Think: A Neuro-Symbolic View of Epigenetic Regulation
Environmental Epigenetics· 2025DOI
Elia Biganzoli, Valentina Bollati
What if … ? A new hypothesis to approach the relationship between environmental stimuli, biological features, and health
Heliyon· 2023DOI
Bollati, Valentina; Biganzoli, Elia Mario; Carugno, Michele