Paz-Rodríguez Víctor Alejandro, Herrera-Vargas Diana Judith, Turiján-Espinoza Eneida, Martínez-Leija Miguel Ernesto, Rivera-López Emmanuel, Hernández-González Oswaldo, Zavala-Reyes Daniel, García-Hernández Mariana Haydee, Vargas-Morales Juan Manuel, Milán-Segovia Rosa Del Carmen, Portales-Pérez Diana Patricia
Research Center for Health Sciences and Biomedicine, Autonomous University of San Luis Potosi (UASLP), Mexico.
Laboratory of Immunology and Cellular and Molecular Biology, Faculty of Chemical Sciences, Autonomous University of San Luis Potosi, Mexico.
Biochem Biophys Rep. 2024 May 3;38:101716. doi: 10.1016/j.bbrep.2024.101716. eCollection 2024 Jul.
The cytosolic enzymes N-Acetyl Transferases 1 and 2 (NATs) transfer an acetyl group from acetyl-CoA to a xenobiotic substrate. NATs are regulated at the genetic and epigenetic levels by deacetylase enzymes such as sirtuins. The enzymatic expression of NAT1, NAT2, and SIRT1 was evaluated by flow cytometry, as well as the enzymatic activity of NATs by cell culture and HPLC analysis. Six SNPs were determined through genotyping. T2D patients (n = 29) and healthy subjects (n = 25) with a median age of 57 and 50, respectively, were recruited. An increased enzyme expression and a diminished NAT2 enzymatic activity were found in cells of T2D patients compared to the control group, while NAT1 was negatively correlated with body fat percentage and BMI. In contrast, Sirtuin inhibition increased NAT2 activity, while Sirtuin agonism decreased its activity in both groups. The analysis of NAT2 SNPs showed a higher frequency of rapid acetylation haplotypes in T2D patients compared to the control group, possibly associated as a risk factor for diabetes. The enzymatic expression of CD3+NAT2+ cells was higher in the rapid acetylators group compared to the slow acetylators group. The levels and activity of NAT1 were associated with total cholesterol and triglycerides. Meanwhile, CD3+NAT2+ cells and NAT2 activity levels were associated with HbA1c and glucose levels. The results indicate that NAT2 could be involved in metabolic processes related to the development of T2D, due to its association with glucose levels, HbA1c, and the altered SIRT-NAT axis. NAT1 may be involved with dyslipidaemias in people who are overweight or obese.
胞质酶N - 乙酰基转移酶1和2(NATs)将乙酰基从乙酰辅酶A转移到外源性底物上。NATs在基因和表观遗传水平上受到诸如沉默调节蛋白等脱乙酰酶的调控。通过流式细胞术评估NAT1、NAT2和SIRT1的酶表达,并通过细胞培养和高效液相色谱分析评估NATs的酶活性。通过基因分型确定了六个单核苷酸多态性(SNPs)。招募了2型糖尿病患者(n = 29)和健康受试者(n = 25),他们的年龄中位数分别为57岁和50岁。与对照组相比,在2型糖尿病患者的细胞中发现酶表达增加且NAT2酶活性降低,而NAT1与体脂百分比和体重指数呈负相关。相反,在两组中,沉默调节蛋白抑制增加了NAT2活性,而沉默调节蛋白激动则降低了其活性。对NAT2 SNPs的分析表明,与对照组相比,2型糖尿病患者中快速乙酰化单倍型的频率更高,这可能是糖尿病危险因素之一。与慢乙酰化组相比,快速乙酰化组中CD3 + NAT2 +细胞的酶表达更高。NAT1的水平和活性与总胆固醇和甘油三酯有关。同时,CD3 + NAT2 +细胞和NAT2活性水平与糖化血红蛋白(HbA1c)和血糖水平有关。结果表明,由于NAT2与血糖水平、HbA1c以及改变的SIRT - NAT轴相关,它可能参与了与2型糖尿病发生发展相关的代谢过程。NAT1可能与超重或肥胖人群的血脂异常有关。
