Li Zhen, Kosgei Viola J, Bison Anais, Alberto Jean-Marc, Umoret Remi, Maskali Fatiha, Brunaud Laurent, Guéant Jean-Louis, Guéant-Rodriguez Rosa-Maria
UMR Inserm 1256 N-GERE (Nutrition, Génetique et Exposition aux Risques Environmentaux), Université de Lorraine, Vandoeuvre-lès-Nancy, 54500, France.
Nancyclotep-GIE, CHRU of Nancy, Rue du Morvan, Vandoeuve-Lès-Nancy, 54500, France.
Mol Nutr Food Res. 2021 Jul;65(13):e2100065. doi: 10.1002/mnfr.202100065. Epub 2021 May 28.
Vitamin B12 and folate (methyl donors) deficiency is frequent during pregnancy. Experimental rat models with methyl donor deficit during pregnancy and lactation (Initial methyl donor deficit (iMDD)) produce impaired myocardium fatty acid oxidation and mitochondrial energy metabolism at weaning.
The consequences of iMDD on heart of rat pups under normal diet after weaning and high fat diet (HF) between day (D) 50 and D185 are investigated. iMDD/HF induces increased histological fibrosis and increased B-type natriuretic peptide blood level. Inflammation is evidenced by increased protein expression of NFkB, Caspase1, and IL1β and fibrosis by increased expression of αSMA, col1a1, and col1a2 in females, but not in males. Fibrosis is related to increased angiotensin at D50 and D185 and increased protein expression of TGFB1 and AT1 angiotensin receptors at D185. The limited fibrosis in males is consistent with increased expression of AT2, the antagonist receptor of AT1. The increased expression of GLUT4 and decreased expression of PGC1α and PPARα reflect a shift from fatty acid oxidation to glycolysis.
Developmental programming by iMDD produces cardiomyopathy in female offspring exposed to HF. The cardiomyopathy is linked to inflammation and fibrosis through angiotensin-AT2 and TGFB1 pathways and alteration of energy metabolism.
孕期维生素B12和叶酸(甲基供体)缺乏很常见。在孕期和哺乳期存在甲基供体缺乏的实验大鼠模型(初始甲基供体缺乏(iMDD))在断奶时会导致心肌脂肪酸氧化和线粒体能量代谢受损。
研究了断奶后正常饮食以及在第50天至第185天期间高脂饮食(HF)条件下iMDD对幼鼠心脏的影响。iMDD/HF会导致组织学纤维化增加以及血液中B型利钠肽水平升高。雌性大鼠中,NFkB、Caspase1和IL1β的蛋白表达增加表明存在炎症,αSMA、col1a1和col1a2的表达增加表明存在纤维化,而雄性大鼠中未出现这种情况。纤维化与第50天和第185天时血管紧张素增加以及第185天时TGFB1和AT1血管紧张素受体的蛋白表达增加有关。雄性大鼠中有限的纤维化与AT1的拮抗剂受体AT2表达增加一致。GLUT4表达增加以及PGC1α和PPARα表达降低反映了从脂肪酸氧化向糖酵解的转变。
iMDD引起的发育编程在暴露于HF的雌性后代中导致心肌病。心肌病通过血管紧张素 - AT2和TGFB1途径以及能量代谢改变与炎症和纤维化相关。
