%0 Journal Article
%T The histone methyltransferase SMYD1 is induced by thermogenic stimuli in adipose tissue.
%A Cicatiello AG
%A Nappi A
%A Franchini F
%A Nettore IC
%A Raia M
%A Rocca C
%A Angelone T
%A Dentice M
%A Ungaro P
%A Macchia PE
%J Epigenomics
%V 16
%N 6
%D 2024 Mar 5
%M 38440863
%F 4.357
%R 10.2217/epi-2023-0381
%X Aim: To study the expression of histone methyltransferase SMYD1 in white adipose tissue (WAT) and brown adipose tissue and during differentiation of preadipocytes to white and beige phenotypes. Methods: C57BL/6J mice fed a high-fat diet (and exposed to cold) and 3T3-L1 cells stimulated to differentiate into white and beige adipocytes were used. Results: SMYD1 expression increased in WAT of high-fat diet fed mice and in WAT and brown adipose tissue of cold-exposed mice, suggesting its role in thermogenesis. SMYD1 expression was higher in beige adipocytes than in white adipocytes, and its silencing leads to a decrease in mitochondrial content and in Pgc-1α expression. Conclusion: These data suggest a novel role for SMYD1 as a positive regulator of energy control in adipose tissue.<BR>In this study, a protein called SMYD1 was examined in the adipose tissue of mice to understand its role in the development of different types of fat cells. The authors used mice fed a high-fat diet or mice exposed to a cold environment. The experiments were also performed on cultured cells that were stimulated to form specific types of fat cells (white adipocytes, which store energy; or beige adipocytes, which are responsible for releasing energy in the form of heat). The study found that SMYD1 increased in white adipose tissue particularly in response to cold exposure and high-fat diet, suggesting involvement in body temperature regulation. SMYD1 was higher in beige adipocytes than in white fat cells, and when SMYD1 was reduced, there was a decrease in certain factors related to energy control. Overall, these results suggest that SMYD1 plays a novel role in energy regulation in adipose tissues.