The development of type 1 diabetes is predicted by a gene expression pattern, according to researchers.


Correlations of gene expression ratios between the baseline and 1-year follow-up samples (i.e., expression change) against zinc transporter 8 (ZnT8) autoantibody status at baseline. (a) Uniform manifold approximation and projection dimensional reduction of all gene ratios (n = 46), colored on the basis of the correlation. (b) Examples of gene ratios between the baseline and 1-year follow-up samples for ZnT8-autoantibody positive (n = 31) and negative (n = 15) individuals. Credit: eBioMedicine (2023). DOI: 10.1016/j.ebiom.2023.104625

A gene expression pattern has been found that can predict the course of type 1 diabetes, according to research from the Turku Bioscience Center and InFLAMES Flagship at the University of Turku in Finland.n

In patients with recently developed type 1 diabetes, the goal of the study directed by professors Riitta Lahesmaa and Laura Elo was to discover transcriptional alterations linked to disease development. The study has been published in the journal eBioMedicine. /p>The analysis of gene expression signatures by the researchers revealed a link between quick illness progression.nn

“One benefit of such predictive signature would be the ability to intervene earlier in the disease process. This could help slow the progression of the disease and potentially prevent or delay the onset of symptoms. Another benefit would be improved monitoring of the disease progression, which would allow for more personalized treatment plans and better outcomes for patients,” Elo and Lahesmaa explain.n

Type 1 diabetes is a complex autoimmune disease where insulin-producing beta cells in the pancreas are destroyed. Disease progression varies between individuals and currently there is no way to predict individual outcomes.n

Patients are involved in INNODIA

INNODIA is a global partnership between 31 common goal is to fight type 1 diabetes.n

INNODIA examines samples and data from newly diagnosed patients with type 1 diabetes and unaffected first degree relatives throughout Europe. The project runs under the framework of the European Union´s Innovative Medicines Initiative—Joint Undertaking (IMI-JU) with a dedicated governance.n

“Importantly, INNODIA is closely guided by the patients themselves, through the Patient Advisory Committee, consisting of a group of type 1 diabetes patients and parents. They give continuous feedback on the concept of INNODIA and development of protocols, and are crucial in disseminating the goals of the project to the public,” Riitta Lahesmaa says.n

Lahesmaa mentions that thanks to the INNODIA research, the science community will be able to better understand the relationship between changes in ?-cell function, immune profiles, genetic and environmental factors and their role in the onset of the disease.

More information:
Tomi Suomi et al, Gene expression signature predicts rate of type 1 diabetes progression, eBioMedicine (2023). DOI: 10.1016/j.ebiom.2023.104625

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University of Turku
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