Mitochondrial tRNA<SUP>Met</SUP> mutation in Chinese Han essen-tial hypertensive individuals

Abstract

The objective of the present study was to explore the relationship between mitochondrial tRNAMet mutation and development of essential hypertension in Chinese Han individuals. A total of 990 patients with essential hypertension were involved. The general data (sex, age, body mass index, onset age, and family history) and information on routine blood test, blood biochemical examination, and color Doppler echocardiography of these patients were collected. All subjects under-went venous blood drawing for seperating white blood cells and DNA extraction. Then, mitochondrial tRNAMet was amplified and sequenced after purification. The patients who carried the tRNAMet mutation were taken as the indicative cases and the controls were the patients with essential hypertension who did not carry the mutation. We performed a comparative analysis on the routine blood test, blood biochemical examination, color Doppler echocardiography, and other data between the indicative cases and control cases. Among the 990 essential hypertensive patients, there were 8 who carried the tRNAMet mutation, and 6 mutation sites were confirmed, including A4401G, C4410A, U4418C, A4435G, U4454C, and C4456U. Compared with the control cases, the indicative cases developed essential hypertension at earlier ages. The average levels of high density of lipoprotein cholesterol, left ventricular end diastolic diameter, stroke volume, and cardiac index were higher in the indicative cases than in the controls. While the average levels of hemoglobin and left ventricular ejection fraction were lower in the indicative cases than in the control cases. Among the 8 indicative cases, 5 had maternally inherited hyper-tension; one had paternally inherited hypertension; and two denied any family history of hypertension. These results indicated that the mitochondrial tRNAMet mutations might induce the changes in structure and function, which was involved in the progress of the essential hypertension by disturbing the blood metabolism, the steady-state of the blood cells, and the cardiac structure and function.